Tag Archives: china machinery

China manufacturer Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm

Product Description

 Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm 

Product Description

The cross joint is a widely utilized component in shafts that are responsible for transmitting rotary motion. It comprises a pair of hinges positioned in close proximity to each other, oriented at a precise 90° angle, and interconnected by means of a cross shaft. As a reputable manufacturer specializing in universal joints, we take pride in offering top-quality u-joints specifically designed for agricultural machinery. We extend a warm invitation to all customers to reach out to us and collaborate in establishing a mutually beneficial partnership.
Product Parameters:
Product Name: Budget-friendly universal joint cross bearing Joint Spider Kit
Keywords: Drive Shaft, Universal Joint Cardan Shaft, Propeller Shaft 

 

Here is our advantages when compare to similar products from China:
1.Forged yokes make PTO shafts strong enough for usage and working;
2.Internal sizes standard to confirm installation smooth;
3.CE and ISO certificates to guarantee to quality of our goods;
4.Strong and professional package to confirm the good situation when you receive the goods.

Product Specifications

 

  

Packaging & Shipping

 

Company Profile

NingBo Hanon Technology Co.,ltd is a modern enterprise specilizing in the development,production,sales and services of Agricultural Parts like PTO shaft and Gearboxes. We adhere to the principle of ” High Quality, Customers’Satisfaction”, using advanced technology and equipments to ensure all the technical standards of transmission .We follow the principle of people first , trying our best to set up a pleasant surroundings and platform of performance for each employee. So everyone can be self-consciously active to join Hanon Machinery.

FAQ

1.WHAT’S THE PAYMENT TERM?

When we quote for you,we will confirm with you the way of transaction,FOB,CIFetc.<br> For mass production goods, you need to pay 30% deposit before producing and70% balance against copy of documents.The most common way is by T/T.  

2.HOW TO DELIVER THE GOODS TO US?

Usually we will ship the goods to you by sea.

3.HOW LONG IS YOUR DELIVERY TIME AND SHIPMENT?

30-45days.

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Type: Agricultural Spare Part, Agricultural Spare Part
Usage: Agricultural Products Processing, Farmland Infrastructure, Tillage, Harvester, Planting and Fertilization, Grain Threshing, Cleaning and Drying, Agricultural Machinery,Farm Tractor, Agricultural Products Processing, Farmland Infrastructure, Tillage, Harvester, Planting and Fertilization, Grain Threshing, Cleaning and Drying, Agricultural Machinery, Farm Tractor
Material: Carbon Steel, 45cr Steel, Carbon Steel
Samples:
US$ 20/Piece
1 Piece(Min.Order)

|

Order Sample

Customization:
Available

|

Customized Request

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Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

cardan shaft

Are cardan joints suitable for both high-torque and high-speed applications?

Cardan joints can be used in a variety of applications, but their suitability for high-torque and high-speed applications depends on several factors. Here’s a detailed explanation of the considerations regarding the use of cardan joints in such scenarios:

1. High-Torque Applications: Cardan joints are generally well-suited for high-torque applications. The design of the joint allows for the transmission of significant torque between misaligned shafts. However, it is important to consider the specific torque requirements and operating conditions. Factors such as the size and type of the joint, the material used, and the application’s torque demands should be taken into account. In extremely high-torque applications, alternative coupling mechanisms such as gear couplings or universal joints may be more appropriate.

2. High-Speed Applications: While cardan joints can operate at relatively high speeds, there are some limitations to consider. At high rotational speeds, cardan joints can experience increased vibration, imbalance, and potential for fatigue failure. The rotating components of the joint can generate centrifugal forces, which can impact the balance and stability of the system. To mitigate these issues, careful design considerations, including balancing and vibration analysis, may be necessary. In some cases, alternative coupling mechanisms like flexible couplings or constant velocity joints may be better suited for high-speed applications.

3. Balancing and Vibration Control: Balancing the rotating components, such as the driveshaft and the joint itself, is essential for minimizing vibration issues in high-torque and high-speed applications. Imbalance can lead to increased vibrations, reduced efficiency, and potential damage to the joint and other system components. Proper balancing techniques, including dynamic balancing during manufacturing or precision balancing during installation, can help achieve smoother operation and minimize vibration problems.

4. Material Selection: The material used in the construction of the cardan joint plays a crucial role in its suitability for high-torque and high-speed applications. High-strength materials, such as alloy steels, are often preferred for their ability to handle increased torque loads. Additionally, materials with good fatigue resistance and high-speed capabilities can help ensure the durability and reliability of the joint in demanding applications.

5. Application-Specific Factors: The suitability of cardan joints for high-torque and high-speed applications also depends on the specific requirements and operating conditions of the application. Factors such as load characteristics, duty cycles, temperature, and environmental conditions should be considered. It is important to consult with the manufacturer or engineering experts to determine the appropriate size, type, and configuration of the cardan joint for a particular high-torque or high-speed application.

In summary, cardan joints can be suitable for both high-torque and high-speed applications, but careful consideration of factors such as torque requirements, speed limitations, balancing, material selection, and application-specific conditions is necessary. Evaluating these factors and consulting with experts can help determine the optimal coupling solution for a given high-torque or high-speed application.

cardan shaft

How do you calculate the effect of misalignment on the life of a cardan joint?

Calculating the effect of misalignment on the life of a cardan joint involves considering various factors such as the magnitude of misalignment, operating conditions, and the specific design characteristics of the joint. While there is no universal formula for calculating the exact life reduction due to misalignment, certain guidelines and principles can help estimate the impact. Here’s a detailed explanation:

1. Misalignment Angle: Determine the misalignment angle between the input and output shafts connected by the cardan joint. The misalignment angle represents the angular deviation from the ideal alignment. It is typically measured in degrees or radians.

2. Operating Speed: Determine the operating speed of the cardan joint in rotations per minute (RPM) or radians per second. The operating speed affects the dynamic behavior and stresses experienced by the joint.

3. Load Conditions: Consider the load conditions under which the cardan joint operates. Factors such as the magnitude, direction, and variability of the applied loads can influence the joint’s fatigue life and susceptibility to misalignment-induced stress.

4. Joint Design and Specifications: Refer to the manufacturer’s documentation or design specifications for the cardan joint. Look for information related to the joint’s allowable misalignment limits, material properties, and fatigue characteristics. Manufacturers may provide guidelines or empirical data on the expected life reduction based on misalignment.

5. Empirical Models and Guidelines: Utilize empirical models or guidelines specific to cardan joints to estimate the life reduction caused by misalignment. These models are typically based on experimental data and observations. They may consider factors such as misalignment angle, operating speed, load conditions, and joint geometry to provide estimates of the life reduction percentage.

It’s important to note that the accuracy of the calculated life reduction due to misalignment depends on the assumptions made and the validity of the models or guidelines used. The actual life reduction may vary based on the specific operating conditions, joint design, material properties, and other factors not accounted for in the calculations.

Additionally, it is advisable to consult with the cardan joint manufacturer or industry experts who specialize in power transmission components. They can provide more accurate and detailed information regarding the expected life reduction due to misalignment for a specific cardan joint design and application.

Overall, while it is challenging to quantify the exact life reduction caused by misalignment in a cardan joint, considering the factors mentioned above and utilizing available guidelines can help estimate the potential impact and make informed decisions regarding joint selection, maintenance, and operating practices.

cardan shaft

What are the benefits of using a cardan joint in a mechanical system?

A cardan joint, also known as a universal joint or U-joint, offers several benefits when used in a mechanical system. These benefits contribute to efficient power transmission, flexibility, and the ability to accommodate misalignment. Here’s a detailed explanation of the advantages of using a cardan joint:

  • Misalignment Compensation: One of the primary advantages of a cardan joint is its ability to accommodate misalignment between the input and output shafts. The flexible design of the joint allows for angular misalignment, axial misalignment, or a combination of both. This capability is particularly useful in applications where the shafts are not perfectly aligned, or where movement and flexibility are required.
  • Power Transmission: Cardan joints are efficient in transmitting rotational motion and torque between non-collinear shafts. They maintain a constant velocity ratio between the input and output shafts, ensuring smooth power transmission. This feature is especially beneficial in applications where a consistent and uninterrupted transfer of power is essential, such as drivetrain systems in vehicles and industrial machinery.
  • Flexibility and Articulation: The flexible nature of a cardan joint allows for articulation and movement between the connected shafts. It enables the mechanical system to adapt to changing angles, positions, or misalignment during operation. This flexibility is particularly advantageous in applications that involve variable operating conditions, such as vehicles navigating uneven terrain or machinery with moving components.
  • Torsional Vibration Damping: Cardan joints can help dampen torsional vibrations that may occur in a mechanical system. The cross-shaped design of the joint, combined with the flexibility of the bearings, can absorb and mitigate torsional vibrations, reducing stress on the components and improving overall system performance and durability.
  • Compact Design: Cardan joints have a relatively compact design, allowing them to be easily integrated into various mechanical systems. They occupy less space compared to other types of power transmission components, making them suitable for applications with limited installation space or where weight reduction is a concern.
  • Cost-Effectiveness: Cardan joints are generally cost-effective compared to alternative power transmission solutions. Their simple design, ease of manufacturing, and wide availability contribute to their affordability. Additionally, their durability and ability to handle misalignment can reduce the need for frequent maintenance or replacement, leading to cost savings in the long run.

These benefits make cardan joints a versatile and valuable component in numerous mechanical systems across industries such as automotive, industrial machinery, aerospace, marine, and more. Their ability to transmit power efficiently, accommodate misalignment, and provide flexibility contribute to improved performance, reliability, and operational efficiency of the overall mechanical system.

China manufacturer Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm  China manufacturer Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm
editor by CX 2024-04-16

China Hot selling Custome Cardan Shaft/Universal Shaft/Universal Joint for Industrial Machinery

Product Description

Who we are?
HangZhou XIHU (WEST LAKE) DIS. CARDANSHAFT CO;LTD has 15 years history.When the general manager Mr.Rony Du graduated from the university,he always concentrated his attention on the research and development,production and sales of the cardan shaft.Mr.Rony Du and his team started from scratch,from 1 lathe and a very small order,step by step to grow up.He often said to his team”We will only do 1 thing well——to make the perfect cardan shaft”.

                                                               General manager  Mr.Rony Du
HangZhou XIHU (WEST LAKE) DIS. CARDANSHAFT CO.,LTD was founded in 2005.The registered capital is 8 million ,covers an area of 15 acres, has 30 existing staff. The company specializing in the production of SWC, SWP cross universal coupling and drum tooth coupling.The company with factory is located in the beautiful coast of Tai Lake –Hudai (HangZhou Economic Development Zone Hudai Industrial Park).
In order to become China’s leading cardan shaft one-stop solution expert supplier .XIHU (WEST LAKE) DIS. CARDANSHAFT independent research and development of SWC light, medium, short, heavy Designs cardan shaft have reached the leading domestic level.Products not only supporting domestic large and medium-sized customers, but also exported to the United States, India, Vietnam, Laos, Ukraine, Russia, Germany, Britain and other countries and areas.In the past 15 years, the company has accumulated a wealth of experience, learn from foreign advanced technology, and to absorb and use the universal axis has been improved several times, so that the structure is maturing, significantly improved performance.
 

                                          XIHU (WEST LAKE) DIS. Office Building  
XIHU (WEST LAKE) DIS. belief: “Continuous innovation, optimize the structure, perseverance” to create a high quality of outstanding cardan shaft manufacturer.We always adhere to the ISO9001 quality control system, from the details to start, standardize the production process, and to achieve processing equipment “specialization, numerical control” rapid increase in product quality.This Not only won the majority of customers reputation, but also access to peer recognition. We continue to strive to pursue: “for customers to create the greatest value, for the staff to build the best platform”, will be able to achieve customer and business mutually beneficial CHINAMFG situation.

                                  Welcome to XIHU (WEST LAKE) DIS. CARDANSHAFT

Why choose us?
First,select raw material carefully
 
  The cross is the core component of cardan shaft,so the selection of material is particularly critical.Raw materials of the cross for light Duty Size and Medium Duty Size,we choose the 20CrMnTi special gear steel bar from SHAGANG GROUP.Being forged in 2500 ton friction press to ensure internal metallurgical structure,inspecting the geometric dimensions of each part to meet the drawing requirements,then transfer to machining,the processes of milling, turning, quenching and grinding.
 
The inspector will screen blank yoke head.The porosity, cracks, slag, etc. do not meet the requirements of the casting foundry are all eliminated,then doing physical and chemical analysis, to see whether the ingredients meet the requirements, unqualified re-elimination.And then transferred to the quenching and tempering heat treatment, once again check the hardness to see if meet the requirements, qualified to be transferred to the machining process. We control from the source of the material to ensure the supply of raw materials qualified rate of 99%.
 
  
 Second,advanced production equipment
 
XIHU (WEST LAKE) DIS. Company introduced four-axis linkage machining center made in ZheJiang , milling the keyway and flange bolt hole of the flange yoke, The once machine-shaping ensures that the symmetry of the keyway and the position of the bolt hole are less than 0.02mm,which greatly improves the installation accuracy of the flange,the 4 axis milling and drilling center holes of the cross are integrated,to ensure that the 4 shaft symmetry and verticality are less than 0.02mm,the process of the journal cross assembly service life can be increased by 30%, and the speed at 1000 rpm above the cardan shaft running smoothly and super life is crucial to the operation.
 
We use CNC machine to lathe flange yoke and welded yoke,CNC machine can not only ensure the accuracy of the flange connection with the mouth, but also improve the flange surface finish.
 
5 CHINAMFG automatic welding machine welding spline sleeve and tube,welded yoke and tube.With the welding CHINAMFG swing mechanism, automatic lifting mechanism, adjustment mechanism and welding CHINAMFG cooling system, welding machine can realize multi ring continuous welding, each coil current and voltage can be preset, arc starting and stopping control PLC procedures, reliable welding quality, the weld bead is smooth and beautiful, to control the welding process with fixed procedures, greatly reducing the uncertainty of human during welding, greatly improve the welding effect.
 
 
High speed cardan shaft needs to do dynamic balance test before leaving the factory.Unbalanced cardan shaft will produce excessive centrifugal force at high speed and reduce the service life of the bearing;the dynamic balance test can eliminate the uneven distribution of the casting weight and the mass distribution of the whole assembly;Through the experiment to achieve the design of the required balance quality, improve the universal shaft service life.In 2008 the company introduced 2 high-precision dynamic balance test bench, the maximum speed can reach 4000 rev / min, the balance of G0.8 accuracy, balance weight 2kg–1000kg.
 
In order to make the paint standardization, in 2009 the company bought 10 CHINAMFG of clean paint room , the surface treatment of cardan shaft is more standardized, paint fastness is more rugged, staff’s working conditions improved, exhaust of harmless treatment.
 

Third,Professional transport packaging
 
 
The packing of the export cardan shaft is all in the same way as the plywood wooden box, and then it is firmly secured with the iron sheet, so as to avoid the damage caused by the complicated situation in the long-distance transportation. Meet the standard requirements of plywood boxes into Europe and other countries, no matter where can successfully reach all the country’s ports.

SWC Series-Medium-Duty Designs Cardan shaft

Designs

Data and Sizes of SWC Series Universal Joint Couplings

Type Design
Data
Item
SWC160 SWC180 SWC200 SWC225 SWC250 SWC265 SWC285 SWC315 SWC350 SWC390 SWC440 SWC490 SWC550 SWC620
A L 740 800 900 1000 1060 1120 1270 1390 1520 1530 1690 1850 2060 2280
LV 100 100 120 140 140 140 140 140 150 170 190 190 240 250
M(kg) 65 83 115 152 219 260 311 432 610 804 1122 1468 2154 2830
B L 480 530 590 640 730 790 840 930 100 1571 1130 1340 1400 1520
M(kg) 44 60 85 110 160 180 226 320 440 590 820 1090 1560 2100
C L 380 420 480 500 560 600 640 720 782 860 1040 1080 1220 1360
M(kg) 35 48 66 90 130 160 189 270 355 510 780 970 1330 1865
D L 520 580 620 690 760 810 860 970 1030 1120 1230 1360 1550 1720
M(kg) 48 65 90 120 173 220 250 355 485 665 920 1240 1765 2390
E L 800 850 940 1050 1120 1180 1320 1440 1550 1710 1880 2050 2310 2540
LV 100 100 120 140 140 140 140 140 150 170 190 190 240 250
M(kg) 70 92 126 165 238 280 340 472 660 886 1230 1625 2368 3135
  Tn(kN·m) 16 22.4 31.5 40 63 80 90 125 180 250 355 500 710 1000
  TF(kN·m) 8 11.2 16 20 31.5 40 45 63 90 125 180 250 355 500
  Β(°) 15 15 15 15 15 15 15 15 15 15 15 15 15 15
  D 160 180 200 225 250 265 285 315 350 390 440 490 550 620
  Df 160 180 200 225 250 265 285 315 350 3690 440 490 550 620
  D1 137 155 170 196 218 233 245 280 310 345 390 435 492 555
  D2(H9) 100 105 120 135 150 160 170 185 210 235 255 275 320 380
  D3 108 114 140 159 168 180 194 219 245 273 299 325 402 426
  Lm 95 105 110 125 140 150 160 180 195 215 260 270 305 340
  K 16 17 18 20 25 25 27 32 35 40 42 47 50 55
  T 4 5 5 5 6 6 7 8 8 8 10 12 12 12
  N 8 8 8 8 8 8 8 10 10 10 16 16 16 16
  D 15 17 17 17 19 19 21 23 23 25 28 31 31 38
  B 20 24 32 32 40 40 40 40 50 70 80 90 100 100
  G 6.0 7.0 9.0 9.0 12.5 12.5 12.5 15.0 16.0 18.0 20.0 22.5 22.5 25
  MI(Kg) 2.57 3 3.85 3.85 5.17 6 6.75 8.25 10.6 13 18.50 23.75 29.12 38.08
  Size M14 M16 M16 M16 M18 M18 M20 M22 M22 M24 M27 M30 M30 M36
  Tightening torque(Nm) 180 270 270 270 372 372 526 710 710 906 1340 1820 1820 3170

1. Notations: 
L=Standard length, or compressed length for designs with length compensation; 
LV=Length compensation; 
M=Weight; 
Tn=Nominal torque(Yield torque 50% over Tn); 
TF=Fatigue torque, I. E. Permissible torque as determined according to the fatigue strength
Under reversing loads; 
β=Maximum deflection angle; 
MI=weight per 100mm tube
2. Millimeters are used as measurement units except where noted; 
3. Please consult us for customizations regarding length, length compensation and
Flange connections. 
(DIN or SAT etc. )
 

Brief Introduction

Processing flow

Applications
  
                                                                                                                                                                 

Quality Control                                                                                                                                                                                                

       
 

      

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Material: Alloy Steel
Load: Drive Shaft
Stiffness & Flexibility: Stiffness / Rigid Axle
Journal Diameter Dimensional Accuracy: IT6-IT9
Axis Shape: Straight Shaft
Shaft Shape: Hollow Axis
Customization:
Available

|

Customized Request

cardan shaft

How do you prevent backlash and vibration issues in a cardan joint?

Preventing backlash and vibration issues in a cardan joint requires careful design considerations and proper maintenance. Here are some measures that can be taken to minimize backlash and vibration problems:

  • High-Quality Manufacturing and Tolerances: Ensuring that the cardan joint is manufactured to high-quality standards and tight tolerances is crucial for minimizing backlash. Precision machining and assembly techniques can help reduce clearances and improve the overall fit of the joint components, resulting in reduced backlash.
  • Proper Lubrication: Adequate lubrication is essential for reducing friction and minimizing backlash in a cardan joint. Lubricants with appropriate viscosity and properties should be used to ensure smooth operation and reduce wear. Regular maintenance, including lubricant replenishment or replacement as per the manufacturer’s recommendations, is necessary to maintain optimal lubrication and prevent backlash issues.
  • Alignment and Balance: Proper alignment of the cardan joint and the connected components is critical for minimizing backlash and vibration. Misalignment can lead to uneven loading and increased stress on the joint, resulting in backlash and vibration. Ensuring precise alignment during installation and periodic checks for alignment deviations can help prevent these issues. Balancing the rotating components, such as the driveshaft, can also minimize vibration problems.
  • Reducing Operating Angles: Operating the cardan joint within its specified angular limits can help minimize backlash and vibration. Exceeding the recommended operating angles can cause increased misalignment, leading to higher levels of backlash and vibration. If large operating angles are necessary, a constant velocity joint or alternative coupling mechanism may be considered to achieve smoother motion and reduced backlash.
  • Regular Maintenance and Inspection: Performing regular maintenance and inspections on the cardan joint is crucial for preventing backlash and vibration issues. This includes checking for wear, proper lubrication, alignment deviations, and any signs of damage or fatigue. Any detected issues should be promptly addressed to prevent further deterioration and ensure the optimal performance of the joint.
  • Vibration Dampening: In some cases, additional measures can be taken to dampen vibrations in the system. This can include the use of vibration-dampening materials or techniques, such as rubber bushings or vibration isolators, at the connection points of the cardan joint. These measures can help absorb and dampen vibrations, reducing their impact on the joint and the connected components.

By implementing these preventive measures, the potential backlash and vibration issues in a cardan joint can be minimized. It is important to consider the specific requirements of the application and follow the manufacturer’s guidelines for installation, maintenance, and operation to ensure the optimal performance and longevity of the joint.

cardan shaft

Can cardan joints be used in off-road vehicles and equipment?

Yes, cardan joints can be used in off-road vehicles and equipment, and they are commonly employed in various drivetrain and power transmission applications. Cardan joints offer several characteristics that make them suitable for off-road environments. Here’s a detailed explanation:

1. Misalignment Compensation: Off-road vehicles and equipment often encounter uneven terrain, which can result in misalignments between the drivetrain components. Cardan joints are designed to accommodate misalignments and angular variations, allowing for smooth power transmission even in challenging off-road conditions. They can compensate for misalignments caused by suspension articulation, vehicle flexing, and uneven ground surfaces.

2. High Torque Transmission: Off-road vehicles and equipment typically require the transfer of high torque from the engine to the wheels or other driven components. Cardan joints are capable of efficiently transmitting torque even at significant angles, enabling robust power delivery in off-road applications. They can handle the torque demands associated with climbing steep inclines, traversing obstacles, and powering heavy equipment.

3. Durability and Strength: Off-road environments can be harsh, subjecting drivetrain components to extreme conditions such as impacts, vibrations, and debris. Cardan joints are often constructed using durable materials such as alloy steels or high-strength alloys, which provide the necessary strength and resilience to withstand the rigors of off-road use. They are designed to handle the demanding loads and forces encountered in rough terrains.

4. Articulation and Flexibility: Off-road vehicles and equipment require articulation and flexibility to navigate uneven surfaces and challenging obstacles. Cardan joints offer rotational freedom and allow for angular movement, enabling the drivetrain to adapt to varying terrains and maintain consistent power transmission. Their universal joint design allows for smooth rotation and accommodates the required range of motion.

5. Compact Design: Cardan joints have a relatively compact design, making them suitable for integration into the limited space available in off-road vehicles and equipment. Their compact size allows for efficient packaging within the drivetrain system, maximizing ground clearance, and optimizing vehicle or equipment design.

6. Maintenance and Serviceability: Cardan joints are generally robust and require minimal maintenance. However, regular inspection and lubrication are necessary to ensure optimal performance and longevity. Their design often allows for easy access and replacement if needed, facilitating maintenance and minimizing downtime in off-road applications.

It’s important to note that while cardan joints offer advantages for off-road vehicles and equipment, their performance and suitability depend on specific application requirements, loads, operating conditions, and other factors. Careful consideration should be given to selecting the appropriate cardan joint size, material, and design based on the anticipated demands of the off-road application.

When incorporating cardan joints into off-road vehicles and equipment, it is advisable to consult with engineers or experts specializing in drivetrain systems and off-road vehicle design. They can provide valuable insights and guidance on the selection, integration, and maintenance of cardan joints for specific off-road applications.

cardan shaft

What lubrication is required for a cardan joint?

Proper lubrication is essential for the smooth operation, longevity, and reliability of a cardan joint. The lubricant used in a cardan joint serves multiple purposes, including reducing friction, preventing wear, dissipating heat, and protecting against corrosion. Here’s a detailed explanation of the lubrication requirements for a cardan joint:

  • Lubricant Type: The lubricant used for a cardan joint should be specifically designed for high-load and high-temperature applications. Grease is commonly used as the lubricant for cardan joints due to its ability to adhere to the bearings, provide continuous lubrication, and resist centrifugal forces. High-quality lithium-based or synthetic greases with EP (extreme pressure) additives are recommended for their excellent load-carrying capacity and protection against wear.
  • Lubrication Frequency: Regular lubrication is necessary to maintain optimal performance and prevent premature wear in a cardan joint. The frequency of lubrication depends on factors such as the operating conditions, load, speed, and the manufacturer’s recommendations. As a general guideline, lubrication intervals can range from several months to several thousand hours of operation. However, it is important to consult the manufacturer’s guidelines for the specific cardan joint model and application to determine the appropriate lubrication frequency.
  • Lubrication Quantity: The correct amount of lubricant should be applied to ensure proper lubrication without overfilling the joint. Insufficient lubrication can lead to increased friction and wear, while excessive lubrication can cause overheating and may lead to seal damage or leakage. Follow the manufacturer’s recommendations regarding the recommended grease quantity or fill level for the specific cardan joint model.
  • Lubrication Method: There are different methods to lubricate a cardan joint, depending on its design and accessibility. One common approach is to use a grease gun or a lubrication fitting to inject the grease into the designated lubrication points or zerk fittings on the joint. Some cardan joints may have grease nipples or fittings specifically designed for lubrication. Ensure that the lubricant is evenly distributed throughout the bearings and moving parts of the joint.
  • Monitor and Reapply: Regularly monitor the condition of the lubricant and the performance of the cardan joint. Inspect the lubrication points for any signs of contamination, depletion, or degradation of the grease. If necessary, clean the lubrication points before reapplying the lubricant. During maintenance intervals, remove any old or degraded grease and replenish with fresh lubricant as per the manufacturer’s recommendations.
  • Environmental Considerations: Take into account the operating environment of the cardan joint when selecting the lubricant. Extreme temperatures, exposure to water or chemicals, or dusty and dirty conditions may require specialized lubricants or additional protective measures. Consult the manufacturer’s guidelines or seek advice from lubricant suppliers to ensure the lubricant’s compatibility with the specific operating conditions.

Proper lubrication of a cardan joint is crucial for its optimal performance and longevity. Following the manufacturer’s recommendations regarding lubrication type, frequency, quantity, and method will help ensure smooth operation, minimize wear, and maximize the service life of the cardan joint.

China Hot selling Custome Cardan Shaft/Universal Shaft/Universal Joint for Industrial Machinery  China Hot selling Custome Cardan Shaft/Universal Shaft/Universal Joint for Industrial Machinery
editor by CX 2024-04-08

China OEM Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm

Product Description

 Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm 

Product Description

The cross joint is a widely utilized component in shafts that are responsible for transmitting rotary motion. It comprises a pair of hinges positioned in close proximity to each other, oriented at a precise 90° angle, and interconnected by means of a cross shaft. As a reputable manufacturer specializing in universal joints, we take pride in offering top-quality u-joints specifically designed for agricultural machinery. We extend a warm invitation to all customers to reach out to us and collaborate in establishing a mutually beneficial partnership.
Product Parameters:
Product Name: Budget-friendly universal joint cross bearing Joint Spider Kit
Keywords: Drive Shaft, Universal Joint Cardan Shaft, Propeller Shaft 

 

Here is our advantages when compare to similar products from China:
1.Forged yokes make PTO shafts strong enough for usage and working;
2.Internal sizes standard to confirm installation smooth;
3.CE and ISO certificates to guarantee to quality of our goods;
4.Strong and professional package to confirm the good situation when you receive the goods.

Product Specifications

 

  

Packaging & Shipping

 

Company Profile

NingBo Hanon Technology Co.,ltd is a modern enterprise specilizing in the development,production,sales and services of Agricultural Parts like PTO shaft and Gearboxes. We adhere to the principle of ” High Quality, Customers’Satisfaction”, using advanced technology and equipments to ensure all the technical standards of transmission .We follow the principle of people first , trying our best to set up a pleasant surroundings and platform of performance for each employee. So everyone can be self-consciously active to join Hanon Machinery.

FAQ

1.WHAT’S THE PAYMENT TERM?

When we quote for you,we will confirm with you the way of transaction,FOB,CIFetc.<br> For mass production goods, you need to pay 30% deposit before producing and70% balance against copy of documents.The most common way is by T/T.  

2.HOW TO DELIVER THE GOODS TO US?

Usually we will ship the goods to you by sea.

3.HOW LONG IS YOUR DELIVERY TIME AND SHIPMENT?

30-45days.

  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Type: Agricultural Spare Part, Agricultural Spare Part
Usage: Agricultural Products Processing, Farmland Infrastructure, Tillage, Harvester, Planting and Fertilization, Grain Threshing, Cleaning and Drying, Agricultural Machinery,Farm Tractor, Agricultural Products Processing, Farmland Infrastructure, Tillage, Harvester, Planting and Fertilization, Grain Threshing, Cleaning and Drying, Agricultural Machinery, Farm Tractor
Material: Carbon Steel, 45cr Steel, Carbon Steel
Samples:
US$ 20/Piece
1 Piece(Min.Order)

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Customization:
Available

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cardan shaft

How do you calculate the operating angles of a cardan joint?

The operating angles of a cardan joint can be calculated based on the angular misalignment between the input and output shafts. The operating angles are crucial for determining the joint’s performance and ensuring its proper functioning. Here’s a detailed explanation of how to calculate the operating angles of a cardan joint:

  1. Identify the Shaft Axes: Begin by identifying the axes of the input and output shafts connected by the cardan joint. These axes represent the rotational axes of the shafts.
  2. Measure the Angular Misalignments: Measure the angular misalignments between the shaft axes. The misalignments are typically measured in terms of angles, such as angular displacement in degrees or radians. There are three types of misalignments to consider:
    • Angular Misalignment (α): This refers to the angular difference between the two shaft axes in the horizontal plane (X-Y plane).
    • Parallel Misalignment (β): Parallel misalignment represents the offset or displacement between the two shaft axes in the vertical plane (Z-axis).
    • Axial Misalignment (γ): Axial misalignment refers to the shift or displacement of one shaft along its axis with respect to the other shaft.
  3. Calculate the Operating Angles: Once the misalignments are measured, the operating angles can be calculated using trigonometric functions. The operating angles are:
    • Operating Angle (θ): The operating angle is the total angular misalignment between the input and output shafts. It is calculated as the square root of the sum of the squares of the individual misalignments:

These calculated operating angles provide valuable information about the misalignment and geometry of the cardan joint. They help in selecting the appropriate joint size, determining the joint’s torque capacity, assessing potential operating issues, and ensuring proper installation and alignment of the joint within the system.

It is important to note that these calculations assume small operating angles and neglect any elastic deformation or non-linearities that may occur in the joint. In cases where larger operating angles or more precise calculations are required, advanced engineering techniques or software tools specific to cardan joint analysis may be employed.

cardan shaft

How do you retrofit an existing mechanical system with a cardan joint?

When retrofitting an existing mechanical system with a cardan joint, careful planning and consideration of various factors are necessary to ensure a successful integration. The retrofitting process involves modifying the system to accommodate the cardan joint’s requirements for torque transmission and misalignment compensation. Here’s a detailed explanation of how to retrofit an existing mechanical system with a cardan joint:

  1. Evaluate the Existing System: Begin by thoroughly evaluating the existing mechanical system to understand its design, components, and operational requirements. Identify the areas where a cardan joint can be integrated effectively and assess the feasibility of retrofitting.
  2. Identify the Integration Points: Determine the specific locations within the system where the cardan joint will be installed. This could include areas where torque transmission or misalignment compensation is required, such as connections between shafts, pulleys, or other rotating components.
  3. Measurements and Compatibility: Take accurate measurements of the existing components and spaces where the cardan joint will be installed. Ensure that the dimensions and specifications of the cardan joint are compatible with the available space and the system’s requirements. Consider factors such as shaft sizes, torque ratings, misalignment angles, and operating conditions.
  4. Design Modifications: Based on the evaluation and measurements, make necessary design modifications to accommodate the cardan joint. This may involve modifying shaft ends, adding or removing components, or adjusting mounting positions. Ensure that the modifications do not compromise the structural integrity or functionality of the system.
  5. Installation and Alignment: Install the cardan joint at the identified integration points according to the manufacturer’s guidelines and engineering best practices. Pay attention to proper alignment, ensuring that the joint aligns with the shafts and other connected components. Precise alignment is crucial for efficient torque transmission and to prevent excessive wear or failure.
  6. Secure Mounting: Properly secure the cardan joint to the system, ensuring that it is firmly and securely mounted. Use appropriate fasteners, couplings, or brackets to hold the joint in place and prevent any movement or vibration that could affect its performance.
  7. Lubrication and Maintenance: Follow the manufacturer’s recommendations for lubrication and maintenance of the cardan joint. Proper lubrication helps reduce friction, wear, and heat generation, ensuring smooth operation and longevity of the joint. Establish a maintenance schedule to regularly inspect and maintain the retrofit components to prevent any potential issues.
  8. Testing and Validation: After the retrofitting is complete, perform thorough testing to validate the functionality and performance of the retrofitted system. Test for torque transmission, misalignment compensation, and overall system operation. Monitor the system during operation to ensure that the cardan joint performs as expected and does not introduce any adverse effects.

It is essential to consult with experienced engineers or professionals specializing in retrofitting and cardan joint applications during the process. They can provide valuable guidance, expertise, and assistance in selecting the appropriate cardan joint, making design modifications, and ensuring a successful retrofit of the existing mechanical system.

cardan shaft

What is a cardan joint and how does it work?

A cardan joint, also known as a universal joint or U-joint, is a mechanical coupling used to transmit rotational motion between two shafts that are not collinear or have a constant angular relationship. It provides flexibility and accommodates misalignment between the shafts. Here’s a detailed explanation of how a cardan joint works:

A cardan joint consists of three main components: two yokes and a cross-shaped member called the cross or spider. The yokes are attached to the ends of the shafts that need to be connected, while the cross sits in the center, connecting the yokes.

The cross has four arms that intersect at a central point, forming a cross shape. Each arm has a bearing surface or trunnion on which the yoke of the corresponding shaft is mounted. The yokes are typically fork-shaped and have holes or bearings to accommodate the trunnions of the cross.

When the input shaft rotates, it transfers the rotational motion to one of the yokes. The cross, being connected to both yokes, transmits this motion to the other yoke and subsequently to the output shaft.

The key feature of a cardan joint is its ability to accommodate misalignment between the input and output shafts. This misalignment can be angular, axial, or both. As the input and output shafts are not collinear, the angles between the shafts cause the yokes to rotate at different speeds during operation.

The universal joint’s design allows the cross to rotate freely within the yokes, while still transferring motion from one shaft to the other. When the input shaft rotates, the yoke connected to it rotates with the shaft. This rotation causes the cross to tilt, as the other yoke is fixed to the output shaft. As a result, the angle between the arms of the cross changes, allowing for the compensation of misalignment.

As the cross tilts, the relative speeds of the yokes change, but the rotational motion is still transferred to the output shaft. The cardan joint effectively converts the input shaft’s rotation into a modified rotation at the output shaft, accommodating the misalignment between the two shafts.

It’s important to note that while cardan joints provide flexibility and can handle misalignment, they introduce certain limitations. These include non-uniform motion, increased vibration, backlash, and potential loss of efficiency at extreme operating angles. Regular maintenance, proper lubrication, and adherence to manufacturer guidelines are essential to ensure the optimal performance and longevity of cardan joints.

China OEM Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm  China OEM Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm
editor by CX 2024-03-29

China Good quality IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint

Product Description

Product Description

Item Iron/Steel/Metal/Alloy CHINAMFG Hardware Parts with Precision CNC Machining Process for Auto/Car/Truck/Tractor/Trailer//Forklift/Commercial Vehicle/Train/Railway/Mining/Construction/Building/Shipbuilding/Metallurgical Machine/Machinery/Industrial/Equipment components Customized Heavy-Duty Truck Parts Steering Knuckle universal joint
Surface Treatment Shot Blasting, Electrophoretic Coating
Surface Roughness Ra0.05∼Ra50, at customer’s request
Standard GB, ASTM, AISI, DIN, NF, JIS, BS, AS, AAR, etc.
Certification ISO 9 tons of products to more than 12 clients in 2571. W e not only ensure sufficient supply, but also guarantee punctual delivery.

Based in China, Serving the globe – Focusing on creating more value for global customers.
“ISO9 tons of products to more than 12 clients in 2571. We not only ensure sufficient supply capacity, but also guarantee punctual delivery.

4* Highly efficient logistics system and convenient transportation condition
In terms of logistics transportation, our factory possesses a great geographical advantage – its only 1 and a half hours’ drive from our factory to the nearest shipping port-HangZhou Port-which makes our logistical system more efficient and ensures smooth and punctual delivery.

5* Modern laboratory and strict quality control system
All raw materials should be sampled and analyzed in our inspection laboratory when they reach our factory, only after passing the inspection can the raw materials be stored into our warehouse. Each batch of products from raw materials to finished products will be tested in the laboratory to ensure that the quality meets the contract requirements. Each batch of finished products will be carried out spectral inspection. For specific products tensile test will be conducted to ensure that the tensile strength of products is up to the standards.

6* Wide application of products
Our products and customization service cover a wide range of industries, including
Auto/automobile/automotive, car, truck/lorry, commercial vehicle, forklift/lifting equipment, combine harvester, farm/agricultural machinery, mining machinry, engineering machinery, construction/building machinery/vehicle(crane/hoist, excavator, bulldozer, dump/dumper/self-dumping/self-discharging truck, concret/cement mixer truck, pump truck, crusher…), petroleum/ petrochemical/oil drilling/metallurgical machinery, shipbuilding machinery, locomotive, bullet train, high-speed railway, underground/subway/metro, tractor, trailer, industrial equipment, marine/ship machinery(Turbine, propeller…), defense//military/ordnance equipment(Tank, armoured troop carrier, amphibious equipment…), power plant, wind power generator/tower, wind turbine, lift/elevator/escalator, medical equipment, food machinery, aviation equipment/instrumentation, pump, valve, gearbox, motor/engine, motorcycle, Lathe machine tools, …etc. We can produce any kind of castings with high precision CNC machining process as per customer’s drawings/sample/requirements/technical parameters.

7* Strict product information tracking
Each of finished products will be assigned 1 unique identification, especially for those made from different batches of raw materials will be recorded and archived with raw material batch number and factory production code to facilitate tracing in case of quality discrepancy or any disagreement on the quality.

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Condition: New
Color: Natural Color, Silver, Black
Certification: CE, DIN, ISO
Structure: Customized
Material: Alloy Steel
Type: Customized
Samples:
US$ 20/Piece
1 Piece(Min.Order)

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Customization:
Available

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universal joint

Can universal joints be used in aerospace and aviation applications?

Yes, universal joints can be used in aerospace and aviation applications, albeit their usage is limited and specific to certain systems. Here’s a detailed explanation:

Aerospace and aviation industries often require precise and reliable mechanical systems to ensure the safe and efficient operation of various components and subsystems. While universal joints are widely used in many industries, their application in aerospace and aviation is more limited due to the stringent requirements and specific conditions of these fields.

Here are some key points to consider regarding the use of universal joints in aerospace and aviation applications:

  1. Control Systems: Universal joints can be employed in control systems within aircraft and spacecraft. These control systems involve the transmission of motion and rotation between different components or surfaces. Universal joints can provide flexibility and enable the adjustment of control surfaces such as rudders, ailerons, or flaps, allowing for precise control of the aircraft’s movement.
  2. Instrumentation and Testing: Universal joints can be utilized in instrumentation and testing equipment used in aerospace and aviation. These applications often require the transmission of rotational motion and torque to various sensors, actuators, or measuring devices. Universal joints can facilitate the required motion transfer while compensating for misalignment or angular variations, ensuring accurate data acquisition and reliable testing results.
  3. Spacecraft Deployment Mechanisms: In space exploration missions, universal joints can be employed in deployment mechanisms. These mechanisms are responsible for deploying antennas, solar panels, or other components of spacecraft once they reach their destination. Universal joints can accommodate the complex motion and alignment requirements during the deployment process, ensuring smooth and controlled extension of these critical components.
  4. Engine Accessories: Universal joints can be utilized in certain engine accessories or auxiliary systems in aerospace and aviation. These may include fuel pumps, generators, or hydraulic systems. Universal joints can transmit rotational motion and torque from the engine to these accessories, allowing them to operate efficiently and reliably.
  5. Cautions and Limitations: The usage of universal joints in aerospace and aviation applications requires careful consideration of factors such as weight, space constraints, reliability, and safety. These industries have strict regulations and standards to ensure the highest levels of performance and safety. Therefore, the selection, integration, and testing of universal joints must be performed in accordance with the specific requirements and guidelines provided by the regulatory authorities and industry best practices.

In summary, while universal joints have limited application in aerospace and aviation, they can be utilized in control systems, instrumentation and testing, spacecraft deployment mechanisms, and engine accessories. Careful consideration of the specific requirements, regulations, and safety standards is essential when incorporating universal joints into aerospace and aviation systems to ensure optimal performance and reliability.

universal joint

How do you calculate the operating angles of a universal joint?

Calculating the operating angles of a universal joint involves measuring the angular displacement between the input and output shafts. Here’s a detailed explanation:

To calculate the operating angles of a universal joint, you need to measure the angles at which the input and output shafts are misaligned. The operating angles are typically expressed as the angles between the axes of the two shafts.

Here’s a step-by-step process for calculating the operating angles:

  1. Identify the input shaft and the output shaft of the universal joint.
  2. Measure and record the angle of the input shaft relative to a reference plane or axis. This can be done using a protractor, angle finder, or other measuring tools. The reference plane is typically a fixed surface or a known axis.
  3. Measure and record the angle of the output shaft relative to the same reference plane or axis.
  4. Calculate the operating angles by finding the difference between the input and output shaft angles. Depending on the arrangement of the universal joint, there may be two operating angles: one for the joint at the input side and another for the joint at the output side.

It’s important to note that the specific method of measuring and calculating the operating angles may vary depending on the design and configuration of the universal joint. Some universal joints have built-in methods for measuring the operating angles, such as markings or indicators on the joint itself.

Additionally, it’s crucial to consider the range of acceptable operating angles specified by the manufacturer. Operating a universal joint beyond its recommended angles can lead to increased wear, reduced lifespan, and potential failure.

In summary, calculating the operating angles of a universal joint involves measuring the angular displacement between the input and output shafts. By measuring the angles and finding the difference between them, you can determine the operating angles of the universal joint.

universal joint

How do you maintain and service a universal joint?

Maintaining and servicing a universal joint is essential to ensure its optimal performance, longevity, and reliability. Regular maintenance helps identify and address any potential issues before they lead to significant problems. Here are some guidelines for maintaining and servicing a universal joint:

  • Regular inspection: Perform regular visual inspections of the universal joint to check for signs of wear, damage, or misalignment. Look for any loose or missing fasteners, excessive play, or abnormal noise during operation. Inspect the lubrication condition and ensure it is adequate.
  • Lubrication: Proper lubrication is crucial for the smooth operation of a universal joint. Follow the manufacturer’s recommendations for lubrication type, quantity, and intervals. Regularly inspect the lubrication condition and replenish or replace the lubricant as necessary. Ensure that the lubrication points are accessible and apply the lubricant directly to those points.
  • Torque specifications: When performing maintenance or service tasks that involve fasteners or connections, adhere to the manufacturer’s torque specifications. Over-tightening or under-tightening can lead to issues such as stress concentration, fatigue, or premature failure of the universal joint.
  • Alignment: Ensure that the connected shafts are properly aligned. Misalignment can cause excessive stress and wear on the universal joint components. If misalignment is detected, take appropriate measures to correct it, such as adjusting the shafts or using shims or spacers.
  • Fasteners: Regularly inspect and tighten all fasteners, including bolts, nuts, and retaining clips. Check for any signs of corrosion, damage, or wear on the fasteners. Replace any damaged or worn fasteners with suitable replacements according to the manufacturer’s specifications.
  • Seals and boots: If your universal joint has seals or boots, inspect them for damage or deterioration. Damaged seals or boots can lead to contamination or loss of lubricant, affecting the performance and lifespan of the joint. Replace any damaged or worn seals or boots promptly.
  • Operational monitoring: During operation, monitor the universal joint for any abnormal vibrations, noises, or temperature changes. Unusual vibrations or noises can indicate misalignment, wear, or other issues. Excessive heat can be a sign of insufficient lubrication or excessive friction. If any abnormalities are observed, investigate and address them promptly.
  • Service intervals: Follow the recommended service intervals provided by the manufacturer. These intervals may include tasks such as lubrication, inspection, re-greasing, or complete disassembly and reassembly. Adhering to the recommended service intervals helps maintain the optimal performance and reliability of the universal joint.
  • Expert assistance: If you encounter complex issues or are unsure about any maintenance or service tasks, seek assistance from a qualified professional or the manufacturer. They can provide specific guidance, troubleshooting, or perform more in-depth servicing if needed.

Proper maintenance and servicing of a universal joint contribute to its longevity, performance, and overall system reliability. By regularly inspecting the joint, ensuring proper lubrication, alignment, and fastening, and addressing any issues promptly, you can maximize the lifespan and efficiency of the universal joint in your mechanical system.

China Good quality IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint  China Good quality IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint
editor by CX 2024-03-27

China OEM Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm

Product Description

 Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm 

Product Description

The cross joint is a widely utilized component in shafts that are responsible for transmitting rotary motion. It comprises a pair of hinges positioned in close proximity to each other, oriented at a precise 90° angle, and interconnected by means of a cross shaft. As a reputable manufacturer specializing in universal joints, we take pride in offering top-quality u-joints specifically designed for agricultural machinery. We extend a warm invitation to all customers to reach out to us and collaborate in establishing a mutually beneficial partnership.
Product Parameters:
Product Name: Budget-friendly universal joint cross bearing Joint Spider Kit
Keywords: Drive Shaft, Universal Joint Cardan Shaft, Propeller Shaft 

 

Here is our advantages when compare to similar products from China:
1.Forged yokes make PTO shafts strong enough for usage and working;
2.Internal sizes standard to confirm installation smooth;
3.CE and ISO certificates to guarantee to quality of our goods;
4.Strong and professional package to confirm the good situation when you receive the goods.

Product Specifications

 

  

Packaging & Shipping

 

Company Profile

NingBo Hanon Technology Co.,ltd is a modern enterprise specilizing in the development,production,sales and services of Agricultural Parts like PTO shaft and Gearboxes. We adhere to the principle of ” High Quality, Customers’Satisfaction”, using advanced technology and equipments to ensure all the technical standards of transmission .We follow the principle of people first , trying our best to set up a pleasant surroundings and platform of performance for each employee. So everyone can be self-consciously active to join Hanon Machinery.

FAQ

1.WHAT’S THE PAYMENT TERM?

When we quote for you,we will confirm with you the way of transaction,FOB,CIFetc.<br> For mass production goods, you need to pay 30% deposit before producing and70% balance against copy of documents.The most common way is by T/T.  

2.HOW TO DELIVER THE GOODS TO US?

Usually we will ship the goods to you by sea.

3.HOW LONG IS YOUR DELIVERY TIME AND SHIPMENT?

30-45days.

  /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Type: Agricultural Spare Part, Agricultural Spare Part
Usage: Agricultural Products Processing, Farmland Infrastructure, Tillage, Harvester, Planting and Fertilization, Grain Threshing, Cleaning and Drying, Agricultural Machinery,Farm Tractor, Agricultural Products Processing, Farmland Infrastructure, Tillage, Harvester, Planting and Fertilization, Grain Threshing, Cleaning and Drying, Agricultural Machinery, Farm Tractor
Material: Carbon Steel, 45cr Steel, Carbon Steel
Samples:
US$ 20/Piece
1 Piece(Min.Order)

|

Order Sample

Customization:
Available

|

Customized Request

.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}

Shipping Cost:

Estimated freight per unit.







about shipping cost and estimated delivery time.
Payment Method:







 

Initial Payment



Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

cardan shaft

What are the potential limitations or drawbacks of using cardan joints?

While cardan joints offer numerous advantages in transmitting rotational motion between misaligned shafts, they also have certain limitations and drawbacks to consider. Here are some potential limitations associated with the use of cardan joints:

  • Angular Limitations: Cardan joints have limited angularity or operating angles. They are designed to operate within specific angular ranges, and exceeding these angles can cause accelerated wear, increased vibration, and potential joint failure. Extreme operating angles can lead to binding, decreased efficiency, and reduced power transmission capacity. In applications where large operating angles are required, alternative flexible coupling mechanisms or constant velocity joints may be more suitable.
  • Backlash and Torsional Stiffness: Cardan joints inherently exhibit some degree of backlash, which is the clearance or free play between the mating components. This can result in a slight delay in power transmission and can affect the precision of motion in certain applications. Additionally, cardan joints may have higher torsional stiffness compared to other coupling mechanisms, which can transmit higher vibrations and shocks to the connected components.
  • Maintenance Requirements: Cardan joints require regular maintenance to ensure proper lubrication, alignment, and performance. The lubricant needs to be regularly replenished or replaced, and the joint should be inspected for wear, misalignment, or other issues. Failure to perform adequate maintenance can result in premature wear, reduced efficiency, and potential joint failure. Maintenance procedures may require specialized tools and expertise.
  • Space and Weight: Cardan joints can occupy a significant amount of space due to their design and the need for perpendicular shafts. In applications with limited space constraints, finding suitable locations for cardan joints can be challenging. Additionally, the weight of cardan joints, especially in heavy-duty applications, can add to the overall weight of the system, which may have implications for fuel efficiency, payload capacity, or overall performance.
  • Cost: Cardan joints, particularly high-quality and precision-engineered ones, can be relatively expensive compared to other coupling mechanisms. The complex design, manufacturing tolerances, and specialized materials involved contribute to their higher cost. In cost-sensitive applications, alternative coupling solutions may be considered if the angular limitations and other drawbacks of cardan joints are not critical.
  • High-Speed Limitations: At high rotational speeds, cardan joints can experience increased vibration, imbalance, and potential for fatigue failure. The rotating components of the joint can generate centrifugal forces that impact the balance and stability of the system. In high-speed applications, careful design considerations, including balancing and vibration analysis, may be necessary to mitigate these issues.

It is important to evaluate the specific application requirements, operating conditions, and limitations when considering the use of cardan joints. While they offer versatility and flexibility in many scenarios, alternative coupling mechanisms may be more suitable in cases where the limitations and drawbacks of cardan joints pose significant challenges.

cardan shaft

Can cardan joints be used in industrial machinery and manufacturing?

Yes, cardan joints are commonly used in industrial machinery and manufacturing applications due to their versatility, durability, and ability to transmit torque at various angles. They offer several advantages that make them suitable for a wide range of industrial applications. Here’s a detailed explanation:

1. Torque Transmission: Industrial machinery often requires the transmission of torque between different components or shafts that may not be in a perfectly aligned position. Cardan joints excel at transmitting torque even at significant angles and misalignments, allowing for flexible power transmission in industrial applications. They can efficiently transfer high torque loads and handle varying operating conditions.

2. Misalignment Compensation: Cardan joints are designed to accommodate misalignments and angular variations, making them ideal for industrial machinery. They can compensate for misalignments caused by structural deflection, thermal expansion, or other factors, ensuring smooth and reliable power transmission. This capability helps to minimize stress and wear on connected components and extends the life of the machinery.

3. Flexibility and Articulation: Industrial machinery often requires flexibility and articulation to adapt to different production processes or accommodate dynamic movements. Cardan joints provide rotational freedom and allow for angular movement, enabling the machinery to adjust to changing requirements. Their universal joint design allows for smooth rotation and accommodates the required range of motion.

4. Compact Design: Cardan joints have a relatively compact design, making them suitable for integration into industrial machinery where space is often limited. Their compact size allows for efficient packaging within the machinery, optimizing overall design and minimizing footprint. This is especially beneficial in applications where multiple joints are required within a confined space.

5. Durability and Strength: Industrial machinery operates under demanding conditions, including heavy loads, high speeds, and harsh environments. Cardan joints are often constructed using durable materials such as alloy steels or high-strength alloys, providing the necessary strength and resilience to withstand industrial applications. They are designed to handle the demanding loads and forces encountered in manufacturing processes.

6. Easy Maintenance and Serviceability: Cardan joints are generally low-maintenance components. They require periodic inspection, lubrication, and replacement of worn parts, but their design often allows for easy access and replacement if needed. This facilitates maintenance activities and minimizes downtime in industrial machinery.

7. Versatility: Cardan joints are available in various configurations, sizes, and load capacities, allowing them to be tailored to specific industrial machinery requirements. They can be customized to accommodate different shaft sizes, torque ratings, and mounting arrangements, making them adaptable to a wide range of manufacturing applications.

8. Cost-Effectiveness: Cardan joints offer a cost-effective solution for torque transmission in industrial machinery. Their durability, reliability, and long service life contribute to reduced maintenance and replacement costs. Additionally, their ability to compensate for misalignments can help minimize wear on other machinery components, further reducing overall maintenance expenses.

When integrating cardan joints into industrial machinery and manufacturing systems, it is important to consider the specific application requirements, operating conditions, and load characteristics. Proper design, selection, and installation practices should be followed to ensure optimal performance and longevity.

Consulting with engineers or experts specializing in drivetrain systems and industrial machinery design can provide valuable insights and guidance on the selection, integration, and maintenance of cardan joints for specific industrial applications.

cardan shaft

What are the applications of a cardan joint?

A cardan joint, also known as a universal joint or U-joint, has a wide range of applications across various industries. Its ability to transmit rotational motion and accommodate misalignment between shafts makes it suitable for different systems and machines. Here’s a detailed explanation of the applications of a cardan joint:

  • Automotive Drivetrains: One of the primary applications of cardan joints is in automotive drivetrains. They are used in vehicles with rear-wheel drive, all-wheel drive, and four-wheel drive systems. Cardan joints help transmit power from the engine to the driveshaft, allowing the rotational motion to be transferred to the rear axle or all four wheels. They provide flexibility and compensation for misalignment between the engine, transmission, and rear differential.
  • Industrial Machinery: Cardan joints find extensive use in various industrial machinery applications. They are commonly employed in power transmission systems, especially when there is a need to transmit rotational motion between non-collinear shafts. Cardan joints are used in conveyor systems, printing presses, machine tools, pumps, mixers, and many other industrial machines that require efficient transmission of rotational power.
  • Aerospace and Aviation: Cardan joints have applications in the aerospace and aviation industries. They are used in aircraft control systems, such as the control linkages between the control surfaces (elevator, rudder, ailerons) and the cockpit controls. Cardan joints allow for the transmission of pilot input to the control surfaces while accommodating any misalignment or changes in angles during flight.
  • Marine Propulsion: In marine applications, cardan joints are utilized in propulsion systems. They are commonly used in boat drivetrains to transfer rotational motion from the engine to the propeller shaft. Cardan joints enable the engine to be mounted at an angle or in a different position from the propeller shaft, compensating for the misalignment that can arise due to the boat’s hull shape and design.
  • Railway Systems: Cardan joints play a role in railway systems, particularly in drivetrains and couplings. They are used in locomotives and train cars to transfer rotational motion between different components, such as the engine, gearbox, and wheel axle. Cardan joints provide flexibility and accommodate misalignment that may occur due to the movement and articulation of train cars on curved tracks.
  • Mining and Construction Equipment: Cardan joints are employed in heavy-duty mining and construction equipment. They are used in applications such as excavators, loaders, bulldozers, and off-highway trucks. Cardan joints help transmit power and motion between different components of these machines, allowing them to operate efficiently and withstand the demanding conditions of mining and construction environments.
  • Industrial Robotics: Cardan joints find applications in industrial robotics and automation. They are used in robotic arms and manipulators to transmit rotational motion between different segments or joints of the robotic system. Cardan joints enable precise and flexible movement, allowing robots to perform complex tasks in manufacturing, assembly, and other industrial processes.

These are just a few examples of the diverse applications of cardan joints. Their ability to handle misalignment, transmit rotational motion at varying angles, and provide flexibility make them a fundamental component in numerous systems and machines across industries.

China OEM Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm  China OEM Agricultural Machinery Tractor Pto Cardan Shaft Universal Joint 32X92mm
editor by CX 2024-03-10

China high quality IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint

Product Description

Product Description

Item Iron/Steel/Metal/Alloy CHINAMFG Hardware Parts with Precision CNC Machining Process for Auto/Car/Truck/Tractor/Trailer//Forklift/Commercial Vehicle/Train/Railway/Mining/Construction/Building/Shipbuilding/Metallurgical Machine/Machinery/Industrial/Equipment components Customized Heavy-Duty Truck Parts Steering Knuckle universal joint
Surface Treatment Shot Blasting, Electrophoretic Coating
Surface Roughness Ra0.05∼Ra50, at customer’s request
Standard GB, ASTM, AISI, DIN, NF, JIS, BS, AS, AAR, etc.
Certification ISO 9 tons of products to more than 12 clients in 2571. W e not only ensure sufficient supply, but also guarantee punctual delivery.

Based in China, Serving the globe – Focusing on creating more value for global customers.
“ISO9 tons of products to more than 12 clients in 2571. We not only ensure sufficient supply capacity, but also guarantee punctual delivery.

4* Highly efficient logistics system and convenient transportation condition
In terms of logistics transportation, our factory possesses a great geographical advantage – its only 1 and a half hours’ drive from our factory to the nearest shipping port-HangZhou Port-which makes our logistical system more efficient and ensures smooth and punctual delivery.

5* Modern laboratory and strict quality control system
All raw materials should be sampled and analyzed in our inspection laboratory when they reach our factory, only after passing the inspection can the raw materials be stored into our warehouse. Each batch of products from raw materials to finished products will be tested in the laboratory to ensure that the quality meets the contract requirements. Each batch of finished products will be carried out spectral inspection. For specific products tensile test will be conducted to ensure that the tensile strength of products is up to the standards.

6* Wide application of products
Our products and customization service cover a wide range of industries, including
Auto/automobile/automotive, car, truck/lorry, commercial vehicle, forklift/lifting equipment, combine harvester, farm/agricultural machinery, mining machinry, engineering machinery, construction/building machinery/vehicle(crane/hoist, excavator, bulldozer, dump/dumper/self-dumping/self-discharging truck, concret/cement mixer truck, pump truck, crusher…), petroleum/ petrochemical/oil drilling/metallurgical machinery, shipbuilding machinery, locomotive, bullet train, high-speed railway, underground/subway/metro, tractor, trailer, industrial equipment, marine/ship machinery(Turbine, propeller…), defense//military/ordnance equipment(Tank, armoured troop carrier, amphibious equipment…), power plant, wind power generator/tower, wind turbine, lift/elevator/escalator, medical equipment, food machinery, aviation equipment/instrumentation, pump, valve, gearbox, motor/engine, motorcycle, Lathe machine tools, …etc. We can produce any kind of castings with high precision CNC machining process as per customer’s drawings/sample/requirements/technical parameters.

7* Strict product information tracking
Each of finished products will be assigned 1 unique identification, especially for those made from different batches of raw materials will be recorded and archived with raw material batch number and factory production code to facilitate tracing in case of quality discrepancy or any disagreement on the quality.

/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Condition: New
Color: Natural Color, Silver, Black
Certification: CE, DIN, ISO
Structure: Customized
Material: Alloy Steel
Type: Customized
Samples:
US$ 20/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

universal joint

What are the safety considerations when working with universal joints?

Working with universal joints requires adherence to certain safety considerations to prevent accidents, injuries, and equipment damage. Here’s a detailed explanation:

When dealing with universal joints, it is important to keep the following safety considerations in mind:

  1. Proper Training and Knowledge: Ensure that individuals working with universal joints have the necessary training and knowledge of their operation, installation, and maintenance. Familiarity with safety procedures and understanding the potential hazards associated with universal joints is crucial for safe handling.
  2. Personal Protective Equipment (PPE): Use appropriate personal protective equipment, such as safety glasses, gloves, and protective clothing, when working with universal joints. PPE can provide protection against potential hazards, including sharp edges, pinch points, or flying debris during installation, removal, or maintenance activities.
  3. Secure the System: Before working on a system that involves universal joints, ensure that the equipment is securely shut down and de-energized. Lockout/tagout procedures should be followed to prevent unexpected energization or movement that could cause injury. Securely support any components or shafts connected to the universal joint to prevent accidental movement or collapse during work.
  4. Inspect for Damage or Wear: Regularly inspect universal joints for signs of damage, wear, or misalignment. Look for indications of excessive play, corrosion, fatigue, or any other abnormalities that may compromise the joint’s integrity. Replace any worn or damaged components promptly to avoid potential failure during operation.
  5. Safe Handling: When installing or removing universal joints, use proper lifting techniques and equipment to avoid strain or injury. Universal joints can be heavy and cumbersome, so mechanical assistance or lifting devices may be necessary. Follow safe handling practices and avoid placing hands or body parts in the path of rotating or moving components.
  6. Avoid Exceeding Design Limits: Universal joints have specific design limits for torque, operating angles, and speed. Ensure that these limits are not exceeded during operation. Exceeding the design limits can lead to premature wear, distortion, or catastrophic failure of the joint. Always consult the manufacturer’s guidelines and specifications to ensure safe operation within the defined limits.
  7. Lubrication and Maintenance: Proper lubrication is essential for the smooth operation and longevity of universal joints. Follow the manufacturer’s recommendations for lubrication intervals and use the specified lubricants. Regularly inspect and maintain the joint, tightening fasteners as needed and addressing any signs of lubrication breakdown, contamination, or leakage.
  8. Appropriate Tools and Equipment: Use the correct tools and equipment for working with universal joints. Improper tools or techniques can cause damage to the joint or result in injuries. Ensure that tools are in good condition, properly calibrated, and suitable for the specific task at hand.
  9. Follow Manufacturer Guidelines: Always follow the manufacturer’s guidelines, instructions, and safety precautions specific to the universal joint being used. Manufacturers provide important information regarding installation, operation, maintenance, and safety considerations that should be strictly adhered to.

By adhering to these safety considerations, individuals can minimize the risk of accidents, injuries, and equipment damage when working with universal joints.

universal joint

Can universal joints be used in heavy-duty machinery and equipment?

Yes, universal joints can be used in heavy-duty machinery and equipment. Here’s a detailed explanation:

Universal joints are widely employed in various industrial applications, including heavy-duty machinery and equipment. They offer several advantages that make them suitable for such applications:

  • Flexibility: Universal joints are designed to transmit torque and accommodate angular misalignment between shafts. This flexibility allows for the transmission of power even when the shafts are not perfectly aligned, which is often the case in heavy-duty machinery where misalignment can occur due to structural deflection, thermal expansion, or other factors.
  • Torque Transmission: Universal joints are capable of transmitting significant amounts of torque. The torque capacity of a universal joint depends on factors such as its size, design, and the materials used. In heavy-duty machinery, where high torque levels are common, appropriately sized and robust universal joints can effectively handle the required torque transmission.
  • Compactness: Universal joints are compact in design, allowing them to be integrated into tight spaces within machinery and equipment. Their compactness enables efficient power transmission in applications where space constraints are a concern.
  • Durability: Universal joints can be manufactured from materials that provide high strength and durability, such as alloy steels or stainless steels. This durability allows them to withstand heavy loads, harsh operating conditions, and repetitive motion, making them suitable for heavy-duty machinery and equipment.
  • Cost-Effectiveness: Universal joints are often a cost-effective solution for torque transmission in heavy-duty machinery. Compared to alternative power transmission methods, such as gearboxes or direct drives, universal joints can offer a more economical option while still providing adequate performance and reliability.

However, it’s important to consider the specific requirements and operating conditions of the heavy-duty machinery when selecting and implementing universal joints. Factors such as the torque levels, rotational speed, angular misalignment, operating temperature, and maintenance practices should be carefully evaluated to ensure that the chosen universal joints are appropriately sized, rated, and maintained for reliable and safe operation.

In summary, universal joints can indeed be used in heavy-duty machinery and equipment. Their flexibility, torque transmission capabilities, compactness, durability, and cost-effectiveness make them a viable choice for power transmission in a wide range of heavy-duty applications.

universal joint

Are there different types of universal joints available?

Yes, there are different types of universal joints available to suit various applications and requirements. Let’s explore some of the commonly used types:

  • Single Joint (Cardan Joint): The single joint, also known as a Cardan joint, is the most basic and widely used type of universal joint. It consists of two yokes connected by a cross-shaped center piece. The yokes are typically 90 degrees out of phase with each other, allowing for angular displacement and misalignment between shafts. Single joints are commonly used in automotive drivelines and industrial applications.
  • Double Joint: A double joint, also referred to as a double Cardan joint or a constant velocity joint, is an advanced version of the single joint. It consists of two single joints connected in series with an intermediate shaft in between. The use of two joints in series helps to cancel out the velocity fluctuations and reduce vibration caused by the single joint. Double joints are commonly used in automotive applications, especially in front-wheel-drive vehicles, to provide constant velocity power transmission.
  • Tracta Joint: The Tracta joint, also known as a tripod joint or a three-roller joint, is a specialized type of universal joint. It consists of three rollers or balls mounted on a spider-shaped center piece. The rollers are housed in a three-lobed cup, allowing for flexibility and articulation. Tracta joints are commonly used in automotive applications, particularly in front-wheel-drive systems, to accommodate high-speed rotation and transmit torque smoothly.
  • Rzeppa Joint: The Rzeppa joint is another type of constant velocity joint commonly used in automotive applications. It features six balls positioned in grooves on a central sphere. The balls are held in place by an outer housing with an inner race. Rzeppa joints provide smooth power transmission and reduced vibration, making them suitable for applications where constant velocity is required, such as drive axles in vehicles.
  • Thompson Coupling: The Thompson coupling, also known as a tripodal joint, is a specialized type of universal joint. It consists of three interconnected rods with spherical ends. The arrangement allows for flexibility and misalignment compensation. Thompson couplings are often used in applications where high torque transmission is required, such as industrial machinery and power transmission systems.

These are just a few examples of the different types of universal joints available. Each type has its own advantages and is suitable for specific applications based on factors such as torque requirements, speed, angular displacement, and vibration reduction. The selection of the appropriate type of universal joint depends on the specific needs of the application.

China high quality IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint  China high quality IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint
editor by CX 2024-02-28

China wholesaler Custome Cardan Shaft/Universal Shaft/Universal Joint for Industrial Machinery

Product Description

Who we are?
HangZhou XIHU (WEST LAKE) DIS. CARDANSHAFT CO;LTD has 15 years history.When the general manager Mr.Rony Du graduated from the university,he always concentrated his attention on the research and development,production and sales of the cardan shaft.Mr.Rony Du and his team started from scratch,from 1 lathe and a very small order,step by step to grow up.He often said to his team”We will only do 1 thing well——to make the perfect cardan shaft”.

                                                               General manager  Mr.Rony Du
HangZhou XIHU (WEST LAKE) DIS. CARDANSHAFT CO.,LTD was founded in 2005.The registered capital is 8 million ,covers an area of 15 acres, has 30 existing staff. The company specializing in the production of SWC, SWP cross universal coupling and drum tooth coupling.The company with factory is located in the beautiful coast of Tai Lake –Hudai (HangZhou Economic Development Zone Hudai Industrial Park).
In order to become China’s leading cardan shaft one-stop solution expert supplier .XIHU (WEST LAKE) DIS. CARDANSHAFT independent research and development of SWC light, medium, short, heavy Designs cardan shaft have reached the leading domestic level.Products not only supporting domestic large and medium-sized customers, but also exported to the United States, India, Vietnam, Laos, Ukraine, Russia, Germany, Britain and other countries and areas.In the past 15 years, the company has accumulated a wealth of experience, learn from foreign advanced technology, and to absorb and use the universal axis has been improved several times, so that the structure is maturing, significantly improved performance.
 

                                          XIHU (WEST LAKE) DIS. Office Building  
XIHU (WEST LAKE) DIS. belief: “Continuous innovation, optimize the structure, perseverance” to create a high quality of outstanding cardan shaft manufacturer.We always adhere to the ISO9001 quality control system, from the details to start, standardize the production process, and to achieve processing equipment “specialization, numerical control” rapid increase in product quality.This Not only won the majority of customers reputation, but also access to peer recognition. We continue to strive to pursue: “for customers to create the greatest value, for the staff to build the best platform”, will be able to achieve customer and business mutually beneficial CHINAMFG situation.

                                  Welcome to XIHU (WEST LAKE) DIS. CARDANSHAFT

Why choose us?
First,select raw material carefully
 
  The cross is the core component of cardan shaft,so the selection of material is particularly critical.Raw materials of the cross for light Duty Size and Medium Duty Size,we choose the 20CrMnTi special gear steel bar from SHAGANG GROUP.Being forged in 2500 ton friction press to ensure internal metallurgical structure,inspecting the geometric dimensions of each part to meet the drawing requirements,then transfer to machining,the processes of milling, turning, quenching and grinding.
 
The inspector will screen blank yoke head.The porosity, cracks, slag, etc. do not meet the requirements of the casting foundry are all eliminated,then doing physical and chemical analysis, to see whether the ingredients meet the requirements, unqualified re-elimination.And then transferred to the quenching and tempering heat treatment, once again check the hardness to see if meet the requirements, qualified to be transferred to the machining process. We control from the source of the material to ensure the supply of raw materials qualified rate of 99%.
 
  
 Second,advanced production equipment
 
XIHU (WEST LAKE) DIS. Company introduced four-axis linkage machining center made in ZheJiang , milling the keyway and flange bolt hole of the flange yoke, The once machine-shaping ensures that the symmetry of the keyway and the position of the bolt hole are less than 0.02mm,which greatly improves the installation accuracy of the flange,the 4 axis milling and drilling center holes of the cross are integrated,to ensure that the 4 shaft symmetry and verticality are less than 0.02mm,the process of the journal cross assembly service life can be increased by 30%, and the speed at 1000 rpm above the cardan shaft running smoothly and super life is crucial to the operation.
 
We use CNC machine to lathe flange yoke and welded yoke,CNC machine can not only ensure the accuracy of the flange connection with the mouth, but also improve the flange surface finish.
 
5 CHINAMFG automatic welding machine welding spline sleeve and tube,welded yoke and tube.With the welding CHINAMFG swing mechanism, automatic lifting mechanism, adjustment mechanism and welding CHINAMFG cooling system, welding machine can realize multi ring continuous welding, each coil current and voltage can be preset, arc starting and stopping control PLC procedures, reliable welding quality, the weld bead is smooth and beautiful, to control the welding process with fixed procedures, greatly reducing the uncertainty of human during welding, greatly improve the welding effect.
 
 
High speed cardan shaft needs to do dynamic balance test before leaving the factory.Unbalanced cardan shaft will produce excessive centrifugal force at high speed and reduce the service life of the bearing;the dynamic balance test can eliminate the uneven distribution of the casting weight and the mass distribution of the whole assembly;Through the experiment to achieve the design of the required balance quality, improve the universal shaft service life.In 2008 the company introduced 2 high-precision dynamic balance test bench, the maximum speed can reach 4000 rev / min, the balance of G0.8 accuracy, balance weight 2kg–1000kg.
 
In order to make the paint standardization, in 2009 the company bought 10 CHINAMFG of clean paint room , the surface treatment of cardan shaft is more standardized, paint fastness is more rugged, staff’s working conditions improved, exhaust of harmless treatment.
 

Third,Professional transport packaging
 
 
The packing of the export cardan shaft is all in the same way as the plywood wooden box, and then it is firmly secured with the iron sheet, so as to avoid the damage caused by the complicated situation in the long-distance transportation. Meet the standard requirements of plywood boxes into Europe and other countries, no matter where can successfully reach all the country’s ports.

SWC Series-Medium-Duty Designs Cardan shaft

Designs

Data and Sizes of SWC Series Universal Joint Couplings

Type Design
Data
Item
SWC160 SWC180 SWC200 SWC225 SWC250 SWC265 SWC285 SWC315 SWC350 SWC390 SWC440 SWC490 SWC550 SWC620
A L 740 800 900 1000 1060 1120 1270 1390 1520 1530 1690 1850 2060 2280
LV 100 100 120 140 140 140 140 140 150 170 190 190 240 250
M(kg) 65 83 115 152 219 260 311 432 610 804 1122 1468 2154 2830
B L 480 530 590 640 730 790 840 930 100 1571 1130 1340 1400 1520
M(kg) 44 60 85 110 160 180 226 320 440 590 820 1090 1560 2100
C L 380 420 480 500 560 600 640 720 782 860 1040 1080 1220 1360
M(kg) 35 48 66 90 130 160 189 270 355 510 780 970 1330 1865
D L 520 580 620 690 760 810 860 970 1030 1120 1230 1360 1550 1720
M(kg) 48 65 90 120 173 220 250 355 485 665 920 1240 1765 2390
E L 800 850 940 1050 1120 1180 1320 1440 1550 1710 1880 2050 2310 2540
LV 100 100 120 140 140 140 140 140 150 170 190 190 240 250
M(kg) 70 92 126 165 238 280 340 472 660 886 1230 1625 2368 3135
  Tn(kN·m) 16 22.4 31.5 40 63 80 90 125 180 250 355 500 710 1000
  TF(kN·m) 8 11.2 16 20 31.5 40 45 63 90 125 180 250 355 500
  Β(°) 15 15 15 15 15 15 15 15 15 15 15 15 15 15
  D 160 180 200 225 250 265 285 315 350 390 440 490 550 620
  Df 160 180 200 225 250 265 285 315 350 3690 440 490 550 620
  D1 137 155 170 196 218 233 245 280 310 345 390 435 492 555
  D2(H9) 100 105 120 135 150 160 170 185 210 235 255 275 320 380
  D3 108 114 140 159 168 180 194 219 245 273 299 325 402 426
  Lm 95 105 110 125 140 150 160 180 195 215 260 270 305 340
  K 16 17 18 20 25 25 27 32 35 40 42 47 50 55
  T 4 5 5 5 6 6 7 8 8 8 10 12 12 12
  N 8 8 8 8 8 8 8 10 10 10 16 16 16 16
  D 15 17 17 17 19 19 21 23 23 25 28 31 31 38
  B 20 24 32 32 40 40 40 40 50 70 80 90 100 100
  G 6.0 7.0 9.0 9.0 12.5 12.5 12.5 15.0 16.0 18.0 20.0 22.5 22.5 25
  MI(Kg) 2.57 3 3.85 3.85 5.17 6 6.75 8.25 10.6 13 18.50 23.75 29.12 38.08
  Size M14 M16 M16 M16 M18 M18 M20 M22 M22 M24 M27 M30 M30 M36
  Tightening torque(Nm) 180 270 270 270 372 372 526 710 710 906 1340 1820 1820 3170

1. Notations: 
L=Standard length, or compressed length for designs with length compensation; 
LV=Length compensation; 
M=Weight; 
Tn=Nominal torque(Yield torque 50% over Tn); 
TF=Fatigue torque, I. E. Permissible torque as determined according to the fatigue strength
Under reversing loads; 
β=Maximum deflection angle; 
MI=weight per 100mm tube
2. Millimeters are used as measurement units except where noted; 
3. Please consult us for customizations regarding length, length compensation and
Flange connections. 
(DIN or SAT etc. )
 

Brief Introduction

Processing flow

Applications
  
                                                                                                                                                                 

Quality Control                                                                                                                                                                                                

       
 

      

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Material: Alloy Steel
Load: Drive Shaft
Stiffness & Flexibility: Stiffness / Rigid Axle
Journal Diameter Dimensional Accuracy: IT6-IT9
Axis Shape: Straight Shaft
Shaft Shape: Hollow Axis
Customization:
Available

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Customized Request

cardan shaft

How do you prevent backlash and vibration issues in a cardan joint?

Preventing backlash and vibration issues in a cardan joint requires careful design considerations and proper maintenance. Here are some measures that can be taken to minimize backlash and vibration problems:

  • High-Quality Manufacturing and Tolerances: Ensuring that the cardan joint is manufactured to high-quality standards and tight tolerances is crucial for minimizing backlash. Precision machining and assembly techniques can help reduce clearances and improve the overall fit of the joint components, resulting in reduced backlash.
  • Proper Lubrication: Adequate lubrication is essential for reducing friction and minimizing backlash in a cardan joint. Lubricants with appropriate viscosity and properties should be used to ensure smooth operation and reduce wear. Regular maintenance, including lubricant replenishment or replacement as per the manufacturer’s recommendations, is necessary to maintain optimal lubrication and prevent backlash issues.
  • Alignment and Balance: Proper alignment of the cardan joint and the connected components is critical for minimizing backlash and vibration. Misalignment can lead to uneven loading and increased stress on the joint, resulting in backlash and vibration. Ensuring precise alignment during installation and periodic checks for alignment deviations can help prevent these issues. Balancing the rotating components, such as the driveshaft, can also minimize vibration problems.
  • Reducing Operating Angles: Operating the cardan joint within its specified angular limits can help minimize backlash and vibration. Exceeding the recommended operating angles can cause increased misalignment, leading to higher levels of backlash and vibration. If large operating angles are necessary, a constant velocity joint or alternative coupling mechanism may be considered to achieve smoother motion and reduced backlash.
  • Regular Maintenance and Inspection: Performing regular maintenance and inspections on the cardan joint is crucial for preventing backlash and vibration issues. This includes checking for wear, proper lubrication, alignment deviations, and any signs of damage or fatigue. Any detected issues should be promptly addressed to prevent further deterioration and ensure the optimal performance of the joint.
  • Vibration Dampening: In some cases, additional measures can be taken to dampen vibrations in the system. This can include the use of vibration-dampening materials or techniques, such as rubber bushings or vibration isolators, at the connection points of the cardan joint. These measures can help absorb and dampen vibrations, reducing their impact on the joint and the connected components.

By implementing these preventive measures, the potential backlash and vibration issues in a cardan joint can be minimized. It is important to consider the specific requirements of the application and follow the manufacturer’s guidelines for installation, maintenance, and operation to ensure the optimal performance and longevity of the joint.

cardan shaft

How do you retrofit an existing mechanical system with a cardan joint?

When retrofitting an existing mechanical system with a cardan joint, careful planning and consideration of various factors are necessary to ensure a successful integration. The retrofitting process involves modifying the system to accommodate the cardan joint’s requirements for torque transmission and misalignment compensation. Here’s a detailed explanation of how to retrofit an existing mechanical system with a cardan joint:

  1. Evaluate the Existing System: Begin by thoroughly evaluating the existing mechanical system to understand its design, components, and operational requirements. Identify the areas where a cardan joint can be integrated effectively and assess the feasibility of retrofitting.
  2. Identify the Integration Points: Determine the specific locations within the system where the cardan joint will be installed. This could include areas where torque transmission or misalignment compensation is required, such as connections between shafts, pulleys, or other rotating components.
  3. Measurements and Compatibility: Take accurate measurements of the existing components and spaces where the cardan joint will be installed. Ensure that the dimensions and specifications of the cardan joint are compatible with the available space and the system’s requirements. Consider factors such as shaft sizes, torque ratings, misalignment angles, and operating conditions.
  4. Design Modifications: Based on the evaluation and measurements, make necessary design modifications to accommodate the cardan joint. This may involve modifying shaft ends, adding or removing components, or adjusting mounting positions. Ensure that the modifications do not compromise the structural integrity or functionality of the system.
  5. Installation and Alignment: Install the cardan joint at the identified integration points according to the manufacturer’s guidelines and engineering best practices. Pay attention to proper alignment, ensuring that the joint aligns with the shafts and other connected components. Precise alignment is crucial for efficient torque transmission and to prevent excessive wear or failure.
  6. Secure Mounting: Properly secure the cardan joint to the system, ensuring that it is firmly and securely mounted. Use appropriate fasteners, couplings, or brackets to hold the joint in place and prevent any movement or vibration that could affect its performance.
  7. Lubrication and Maintenance: Follow the manufacturer’s recommendations for lubrication and maintenance of the cardan joint. Proper lubrication helps reduce friction, wear, and heat generation, ensuring smooth operation and longevity of the joint. Establish a maintenance schedule to regularly inspect and maintain the retrofit components to prevent any potential issues.
  8. Testing and Validation: After the retrofitting is complete, perform thorough testing to validate the functionality and performance of the retrofitted system. Test for torque transmission, misalignment compensation, and overall system operation. Monitor the system during operation to ensure that the cardan joint performs as expected and does not introduce any adverse effects.

It is essential to consult with experienced engineers or professionals specializing in retrofitting and cardan joint applications during the process. They can provide valuable guidance, expertise, and assistance in selecting the appropriate cardan joint, making design modifications, and ensuring a successful retrofit of the existing mechanical system.

cardan shaft

How do you maintain and service a cardan joint?

Maintaining and servicing a cardan joint is important to ensure its optimal performance, reliability, and longevity. Regular maintenance helps prevent premature wear, address potential issues, and prolong the life of the joint. Here’s a detailed explanation of the maintenance and servicing procedures for a cardan joint:

  1. Visual Inspection: Regularly inspect the cardan joint for any visible signs of damage, wear, or misalignment. Look for cracks, corrosion, loose or missing fasteners, worn bearings, or any abnormalities in the joint components. If any issues are identified, they should be addressed promptly.
  2. Lubrication: Proper lubrication is essential for the smooth operation of a cardan joint. Follow the manufacturer’s recommendations regarding lubrication type, frequency, quantity, and method. Regularly apply the appropriate lubricant to the designated lubrication points or zerk fittings. Monitor the condition of the lubricant and replenish it as needed to maintain optimal lubrication levels.
  3. Torque Check: Periodically check the torque of the fasteners that secure the cardan joint and yokes. Over time, vibration and operational stresses can cause fasteners to loosen. Ensure that all fasteners are tightened to the manufacturer’s specified torque values. Be cautious not to overtighten, as it can lead to component damage or failure.
  4. Alignment Verification: Verify the alignment of the connected shafts that are linked by the cardan joint. Misalignment can cause increased stress and wear on the joint components. Check for any angular misalignment or axial misalignment and make necessary adjustments to minimize misalignment within acceptable tolerances.
  5. Load and Operating Condition Evaluation: Regularly evaluate the load and operating conditions in which the cardan joint operates. Ensure that the joint is not subjected to excessive loads, speeds, or harsh operating environments beyond its design capabilities. If there are any changes in the operating conditions, consider consulting the manufacturer or an expert to assess the suitability of the cardan joint and make any necessary modifications or replacements.
  6. Vibration Monitoring: Monitor the vibration levels during operation, as excessive vibration can indicate issues with the cardan joint or the overall system. An increase in vibration may suggest misalignment, worn bearings, or other mechanical problems. If significant vibration is detected, further investigation and corrective actions should be undertaken to address the root cause.
  7. Periodic Disassembly and Inspection: Depending on the manufacturer’s recommendations and the operating conditions, periodic disassembly and inspection of the cardan joint may be required. This allows for a more thorough assessment of the joint’s condition, including the bearings, seals, and other internal components. Any worn or damaged parts should be replaced with genuine manufacturer-approved replacements.
  8. Professional Maintenance: In some cases, it may be necessary to engage the services of a professional maintenance technician or a specialized service provider for more comprehensive maintenance or servicing of the cardan joint. They can perform advanced inspections, alignment checks, bearing replacements, or other specialized procedures to ensure the optimal performance of the joint.

It is important to follow the manufacturer’s guidelines and recommendations for maintenance and servicing of the specific cardan joint model. Adhering to proper maintenance practices and promptly addressing any issues that arise will help maximize the service life, reliability, and performance of the cardan joint.

China wholesaler Custome Cardan Shaft/Universal Shaft/Universal Joint for Industrial Machinery  China wholesaler Custome Cardan Shaft/Universal Shaft/Universal Joint for Industrial Machinery
editor by CX 2024-02-13

China factory IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint

Product Description

Product Description

Item Iron/Steel/Metal/Alloy CHINAMFG Hardware Parts with Precision CNC Machining Process for Auto/Car/Truck/Tractor/Trailer//Forklift/Commercial Vehicle/Train/Railway/Mining/Construction/Building/Shipbuilding/Metallurgical Machine/Machinery/Industrial/Equipment components Customized Heavy-Duty Truck Parts Steering Knuckle universal joint
Surface Treatment Shot Blasting, Electrophoretic Coating
Surface Roughness Ra0.05∼Ra50, at customer’s request
Standard GB, ASTM, AISI, DIN, NF, JIS, BS, AS, AAR, etc.
Certification ISO 9 tons of products to more than 12 clients in 2571. W e not only ensure sufficient supply, but also guarantee punctual delivery.

Based in China, Serving the globe – Focusing on creating more value for global customers.
“ISO9 tons of products to more than 12 clients in 2571. We not only ensure sufficient supply capacity, but also guarantee punctual delivery.

4* Highly efficient logistics system and convenient transportation condition
In terms of logistics transportation, our factory possesses a great geographical advantage – its only 1 and a half hours’ drive from our factory to the nearest shipping port-HangZhou Port-which makes our logistical system more efficient and ensures smooth and punctual delivery.

5* Modern laboratory and strict quality control system
All raw materials should be sampled and analyzed in our inspection laboratory when they reach our factory, only after passing the inspection can the raw materials be stored into our warehouse. Each batch of products from raw materials to finished products will be tested in the laboratory to ensure that the quality meets the contract requirements. Each batch of finished products will be carried out spectral inspection. For specific products tensile test will be conducted to ensure that the tensile strength of products is up to the standards.

6* Wide application of products
Our products and customization service cover a wide range of industries, including
Auto/automobile/automotive, car, truck/lorry, commercial vehicle, forklift/lifting equipment, combine harvester, farm/agricultural machinery, mining machinry, engineering machinery, construction/building machinery/vehicle(crane/hoist, excavator, bulldozer, dump/dumper/self-dumping/self-discharging truck, concret/cement mixer truck, pump truck, crusher…), petroleum/ petrochemical/oil drilling/metallurgical machinery, shipbuilding machinery, locomotive, bullet train, high-speed railway, underground/subway/metro, tractor, trailer, industrial equipment, marine/ship machinery(Turbine, propeller…), defense//military/ordnance equipment(Tank, armoured troop carrier, amphibious equipment…), power plant, wind power generator/tower, wind turbine, lift/elevator/escalator, medical equipment, food machinery, aviation equipment/instrumentation, pump, valve, gearbox, motor/engine, motorcycle, Lathe machine tools, …etc. We can produce any kind of castings with high precision CNC machining process as per customer’s drawings/sample/requirements/technical parameters.

7* Strict product information tracking
Each of finished products will be assigned 1 unique identification, especially for those made from different batches of raw materials will be recorded and archived with raw material batch number and factory production code to facilitate tracing in case of quality discrepancy or any disagreement on the quality.

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Condition: New
Color: Natural Color, Silver, Black
Certification: CE, DIN, ISO
Structure: Customized
Material: Alloy Steel
Type: Customized
Samples:
US$ 20/Piece
1 Piece(Min.Order)

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Customization:
Available

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universal joint

Can universal joints be used in aerospace and aviation applications?

Yes, universal joints can be used in aerospace and aviation applications, albeit their usage is limited and specific to certain systems. Here’s a detailed explanation:

Aerospace and aviation industries often require precise and reliable mechanical systems to ensure the safe and efficient operation of various components and subsystems. While universal joints are widely used in many industries, their application in aerospace and aviation is more limited due to the stringent requirements and specific conditions of these fields.

Here are some key points to consider regarding the use of universal joints in aerospace and aviation applications:

  1. Control Systems: Universal joints can be employed in control systems within aircraft and spacecraft. These control systems involve the transmission of motion and rotation between different components or surfaces. Universal joints can provide flexibility and enable the adjustment of control surfaces such as rudders, ailerons, or flaps, allowing for precise control of the aircraft’s movement.
  2. Instrumentation and Testing: Universal joints can be utilized in instrumentation and testing equipment used in aerospace and aviation. These applications often require the transmission of rotational motion and torque to various sensors, actuators, or measuring devices. Universal joints can facilitate the required motion transfer while compensating for misalignment or angular variations, ensuring accurate data acquisition and reliable testing results.
  3. Spacecraft Deployment Mechanisms: In space exploration missions, universal joints can be employed in deployment mechanisms. These mechanisms are responsible for deploying antennas, solar panels, or other components of spacecraft once they reach their destination. Universal joints can accommodate the complex motion and alignment requirements during the deployment process, ensuring smooth and controlled extension of these critical components.
  4. Engine Accessories: Universal joints can be utilized in certain engine accessories or auxiliary systems in aerospace and aviation. These may include fuel pumps, generators, or hydraulic systems. Universal joints can transmit rotational motion and torque from the engine to these accessories, allowing them to operate efficiently and reliably.
  5. Cautions and Limitations: The usage of universal joints in aerospace and aviation applications requires careful consideration of factors such as weight, space constraints, reliability, and safety. These industries have strict regulations and standards to ensure the highest levels of performance and safety. Therefore, the selection, integration, and testing of universal joints must be performed in accordance with the specific requirements and guidelines provided by the regulatory authorities and industry best practices.

In summary, while universal joints have limited application in aerospace and aviation, they can be utilized in control systems, instrumentation and testing, spacecraft deployment mechanisms, and engine accessories. Careful consideration of the specific requirements, regulations, and safety standards is essential when incorporating universal joints into aerospace and aviation systems to ensure optimal performance and reliability.

universal joint

Can universal joints be used in agricultural equipment?

Yes, universal joints can be used in agricultural equipment. Here’s a detailed explanation:

Universal joints are commonly employed in various types of agricultural equipment and machinery. They offer several advantages that make them suitable for agricultural applications. Here are some key points to consider:

  • Torque Transmission: Agricultural equipment often requires the transmission of high torque levels to perform tasks such as plowing, tilling, harvesting, or powering other implements. Universal joints are capable of transmitting significant amounts of torque, making them suitable for handling the power requirements of agricultural machinery.
  • Flexibility: Agricultural equipment frequently operates in uneven terrain or encounters obstacles that can cause angular misalignment between the driving and driven components. Universal joints can accommodate such misalignment and transmit torque even when the shafts are not perfectly aligned. This flexibility allows agricultural machinery to navigate uneven surfaces and maintain power transfer.
  • Durability: Universal joints can be constructed from materials that provide high strength and durability, such as alloy steels. Agricultural equipment often operates in demanding conditions, including exposure to dust, moisture, and vibrations. Robust universal joints can withstand these harsh environments and repetitive motions, ensuring reliable performance and longevity.
  • Cost-Effectiveness: Universal joints offer a cost-effective solution for torque transmission in agricultural equipment. Compared to alternative power transmission methods, such as complex gear systems or hydraulic drives, universal joints can provide a more economical option while still delivering adequate performance and reliability.
  • Wide Application Range: Universal joints can be used in various agricultural equipment, including tractors, combine harvesters, balers, seeders, sprayers, and more. They are versatile components that can be integrated into different systems and configurations, allowing for efficient power transmission in a wide range of agricultural applications.

It’s important to note that the specific design and selection of universal joints for agricultural equipment should consider factors such as the torque requirements, operating conditions, maintenance practices, and safety considerations. Proper sizing, lubrication, and regular inspections are crucial for ensuring optimal performance and preventing premature wear or failure.

In summary, universal joints can indeed be used in agricultural equipment. Their torque transmission capabilities, flexibility, durability, cost-effectiveness, and versatility make them a suitable choice for power transmission in various agricultural machinery and equipment.

universal joint

How do you install a universal joint?

Installing a universal joint correctly is essential to ensure its proper functioning and longevity. Here are the general steps to guide you in the installation process:

  1. Prepare the universal joint: Before installation, inspect the universal joint for any damage or defects. Ensure that all the components, such as yokes, bearings, and cross, are in good condition. Clean the components if necessary and apply a suitable lubricant to ensure smooth operation.
  2. Align the shafts: Position the shafts that need to be connected by the universal joint. Align the shafts as closely as possible, ensuring that they are parallel and collinear. If precise alignment is challenging, universal joints can compensate for slight misalignments, but it is still preferable to have the shafts as aligned as possible.
  3. Insert the cross: Insert the cross-shaped center piece of the universal joint into one of the yokes. Ensure that the cross is aligned properly with the yoke and that the bearings are securely seated in the yoke bores.
  4. Attach the second yoke: Slide the second yoke onto the cross, aligning it with the opposite ends of the cross arms. Make sure the yoke is oriented in the correct phase with the first yoke, typically 90 degrees out of phase, allowing for angular displacement.
  5. Secure the yokes: Use the appropriate fastening method to secure the yokes to the shafts. This can include methods such as set screws, clamps, or retaining rings. Follow the manufacturer’s guidelines and torque specifications for the specific type of universal joint being installed.
  6. Check for smooth operation: After securing the yokes, rotate the connected shafts by hand to check for smooth operation and proper articulation. Ensure that the universal joint moves freely without binding or excessive play. If any issues are detected, double-check the alignment, lubrication, and fastening of the universal joint.
  7. Test under load: If applicable, test the universal joint under the expected load conditions of your application. Monitor its performance and check for any abnormal vibrations, noises, or excessive heat. If any issues arise, re-evaluate the installation and make necessary adjustments or consult with an expert.
  8. Maintenance and lubrication: Regularly inspect and maintain the universal joint as part of your overall system maintenance. Ensure that the joint remains properly lubricated according to the manufacturer’s recommendations. Lubrication helps reduce friction, wear, and heat generation, extending the life of the universal joint.

It’s important to note that the installation process may vary depending on the specific type and design of the universal joint, as well as the application requirements. Always refer to the manufacturer’s instructions and guidelines for the particular universal joint you are installing, as they may provide specific procedures and considerations.

China factory IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint  China factory IATF 16949 OEM Factory One-Stop Service Prototype/Drawing Customization Bespoke Machinery Part Industrial Components Truck Part Steering Knuckle Universal Joint
editor by CX 2024-01-29

China wholesaler CZPT Whl Sliding Block Machinery Universal Cardan Joints Used for Straightening Machine Joint

Product Description

  WHL Slide Universal Joint for Straightening Machine (JB/T7846.1-2007)

♦Description

WHL type slide universal joint is mainly used in roller plate straightening machine, with the shaft Angle α≤7°, rotary diameter 22~140mm, nominal torque 31.5-10000 N·m.

♦Basic Parameter and Main Dimension

Note:
N.m= Norminal Torque; d1 L1= Gear seat end; d2 L2= End of straightening machine;
L= Length of installation; kg.m²= Rotational inertia; kg= Mass

♦Other Products List

Transmission Machinery 
Parts Name
Model
Universal Coupling WS, WSD, WSP
Cardan Shaft SWC, SWP, SWZ
Tooth Coupling CL, CLZ, GCLD, GIICL
GICL, NGCL, GGCL, GCLK
Disc Coupling JMI, JMIJ, JMII, JMIIJ
High Flexible Coupling LM
Chain Coupling GL
Jaw Coupling LT
Grid Coupling JS

♦Our Company

HangZhou CHINAMFG Machinery Manufacturing Co., Ltd. is a high-tech enterprise specializing in the design and manufacture of various types of coupling. There are 86 employees in our company, including 2 senior engineers and no fewer than 20 mechanical design and manufacture, heat treatment, welding, and other professionals.
Advanced and reasonable process, complete detection means. Our company actively introduces foreign advanced technology and equipment, on the basis of the condition, we make full use of the advantage and do more research and innovation. Strict to high quality and operate strictly in accordance with the ISO9000 quality certification system standard mode.
Our company supplies different kinds of products. High quality and reasonable price. We stick to the principle of “quality first, service first, continuous improvement and innovation to meet the customers” for the management and “zero defect, zero complaints” as the quality objective. 

 

♦Our Services
1.Design Services
Our design team has experience in cardan shaft relating to product design and development. If you have any needs for your new product or wish to make further improvements, we are here to offer our support.

2.Product Services
Raw materials → Cutting → Forging →Rough machining →Shot blasting →Heat treatment →Testing →Fashioning →Cleaning→ Assembly→ Packing → Shipping

3.Samples Procedure
We could develop the sample according to your requirement and amend the sample constantly to meet your need.

4.Research & Development
We usually research the new needs of the market and develop the new model when there is new cars in the market.

5.Quality Control
Every step should be special test by Professional Staff according to the standard of ISO9001 and TS16949.

FAQ
Q 1: Are you trading company or manufacturer?
A: We are a professional manufacturer specializing in manufacturing various series of couplings.

Q 2: Can you do OEM?
Yes, we can. We can do OEM & ODM for all the customers with customized artworks of PDF or AI format.

Q 3: How long is your delivery time?
Generally it is 20-30 days if the goods are not in stock. It is according to quantity.

Q 4: Do you provide samples? Is it free or extra?
Yes, we could offer the sample but not for free. Actually we have a very good price principle, when you make the bulk order then cost of sample will be deducted.

Q 5: How long is your warranty?
A: Our Warranty is 12 months under normal circumstance. 

Q 6: What is the MOQ?
A: Usually our MOQ is 1 pcs.

Q 7: Do you have inspection procedures for coupling ?
A: 100% self-inspection before packing.

Q 8: Can I have a visit to your factory before the order? 
A: Sure, welcome to visit our factory.

Q 9: What’s your payment?
A: T/T. 

Contact Us

Web: huadingcoupling
Add: No.11 HangZhou Road,Chengnan park,HangZhou City,ZheJiang Province,China

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Condition: New
Color: as Your Requirement
Structure: Double
Material: Stainless Steel
Model: Whl Type Universal Joints
Norminal Torque: 31.5-10000n.M
Samples:
US$ 500/Piece
1 Piece(Min.Order)

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Customization:
Available

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cardan shaft

How do you calculate the operating angles of a cardan joint?

The operating angles of a cardan joint can be calculated based on the angular misalignment between the input and output shafts. The operating angles are crucial for determining the joint’s performance and ensuring its proper functioning. Here’s a detailed explanation of how to calculate the operating angles of a cardan joint:

  1. Identify the Shaft Axes: Begin by identifying the axes of the input and output shafts connected by the cardan joint. These axes represent the rotational axes of the shafts.
  2. Measure the Angular Misalignments: Measure the angular misalignments between the shaft axes. The misalignments are typically measured in terms of angles, such as angular displacement in degrees or radians. There are three types of misalignments to consider:
    • Angular Misalignment (α): This refers to the angular difference between the two shaft axes in the horizontal plane (X-Y plane).
    • Parallel Misalignment (β): Parallel misalignment represents the offset or displacement between the two shaft axes in the vertical plane (Z-axis).
    • Axial Misalignment (γ): Axial misalignment refers to the shift or displacement of one shaft along its axis with respect to the other shaft.
  3. Calculate the Operating Angles: Once the misalignments are measured, the operating angles can be calculated using trigonometric functions. The operating angles are:
    • Operating Angle (θ): The operating angle is the total angular misalignment between the input and output shafts. It is calculated as the square root of the sum of the squares of the individual misalignments:

These calculated operating angles provide valuable information about the misalignment and geometry of the cardan joint. They help in selecting the appropriate joint size, determining the joint’s torque capacity, assessing potential operating issues, and ensuring proper installation and alignment of the joint within the system.

It is important to note that these calculations assume small operating angles and neglect any elastic deformation or non-linearities that may occur in the joint. In cases where larger operating angles or more precise calculations are required, advanced engineering techniques or software tools specific to cardan joint analysis may be employed.

cardan shaft

Can cardan joints be used in off-road vehicles and equipment?

Yes, cardan joints can be used in off-road vehicles and equipment, and they are commonly employed in various drivetrain and power transmission applications. Cardan joints offer several characteristics that make them suitable for off-road environments. Here’s a detailed explanation:

1. Misalignment Compensation: Off-road vehicles and equipment often encounter uneven terrain, which can result in misalignments between the drivetrain components. Cardan joints are designed to accommodate misalignments and angular variations, allowing for smooth power transmission even in challenging off-road conditions. They can compensate for misalignments caused by suspension articulation, vehicle flexing, and uneven ground surfaces.

2. High Torque Transmission: Off-road vehicles and equipment typically require the transfer of high torque from the engine to the wheels or other driven components. Cardan joints are capable of efficiently transmitting torque even at significant angles, enabling robust power delivery in off-road applications. They can handle the torque demands associated with climbing steep inclines, traversing obstacles, and powering heavy equipment.

3. Durability and Strength: Off-road environments can be harsh, subjecting drivetrain components to extreme conditions such as impacts, vibrations, and debris. Cardan joints are often constructed using durable materials such as alloy steels or high-strength alloys, which provide the necessary strength and resilience to withstand the rigors of off-road use. They are designed to handle the demanding loads and forces encountered in rough terrains.

4. Articulation and Flexibility: Off-road vehicles and equipment require articulation and flexibility to navigate uneven surfaces and challenging obstacles. Cardan joints offer rotational freedom and allow for angular movement, enabling the drivetrain to adapt to varying terrains and maintain consistent power transmission. Their universal joint design allows for smooth rotation and accommodates the required range of motion.

5. Compact Design: Cardan joints have a relatively compact design, making them suitable for integration into the limited space available in off-road vehicles and equipment. Their compact size allows for efficient packaging within the drivetrain system, maximizing ground clearance, and optimizing vehicle or equipment design.

6. Maintenance and Serviceability: Cardan joints are generally robust and require minimal maintenance. However, regular inspection and lubrication are necessary to ensure optimal performance and longevity. Their design often allows for easy access and replacement if needed, facilitating maintenance and minimizing downtime in off-road applications.

It’s important to note that while cardan joints offer advantages for off-road vehicles and equipment, their performance and suitability depend on specific application requirements, loads, operating conditions, and other factors. Careful consideration should be given to selecting the appropriate cardan joint size, material, and design based on the anticipated demands of the off-road application.

When incorporating cardan joints into off-road vehicles and equipment, it is advisable to consult with engineers or experts specializing in drivetrain systems and off-road vehicle design. They can provide valuable insights and guidance on the selection, integration, and maintenance of cardan joints for specific off-road applications.

cardan shaft

How does a cardan joint accommodate misalignment between shafts?

A cardan joint, also known as a universal joint or U-joint, is designed to accommodate misalignment between shafts. Its unique structure and mechanism allow for flexibility and compensation when there are angular or axial deviations between the input and output shafts. Here’s a detailed explanation of how a cardan joint accommodates misalignment:

The cardan joint consists of two yokes, typically fork-shaped, and a cross-shaped member called the cross or spider. The yokes are attached to the input and output shafts, while the cross sits in the center, connecting the yokes. The cross has four arms, and each arm has a bearing cap that holds a bearing. The bearings allow the cross to rotate within the yokes.

When the input and output shafts are perfectly aligned, the cardan joint operates in a straight configuration, and the cross remains in a centered position. However, when misalignment occurs, such as angular misalignment or axial misalignment, the cardan joint can flex and adjust to accommodate the deviation.

Angular Misalignment: When the input and output shafts are at an angle to each other, the cardan joint can accommodate the angular misalignment. As the input shaft rotates, it causes the yoke attached to it to rotate. This rotation is transmitted to the cross through the bearing cap and bearing. As the cross rotates, it causes the other yoke attached to the output shaft to rotate. The angular misalignment is compensated by the ability of the cross to tilt and follow the changing angles of the shafts. The bearings and bearing caps allow the cross to pivot and adjust its position, ensuring that the rotational motion is smoothly transmitted despite the misalignment.

Axial Misalignment: In cases of axial misalignment, where there is a difference in the axial position of the input and output shafts, the cardan joint can also accommodate the misalignment. The axial misalignment can cause the yokes to be slightly offset along the axis. However, the flexibility of the cardan joint allows the cross to adjust its position and maintain the connection between the yokes. The bearings and bearing caps within the cross allow it to move slightly along the axis, compensating for the axial misalignment and ensuring that the rotational motion can still be transmitted.

By allowing the cross to tilt and adjust its position, the cardan joint effectively accommodates misalignment between shafts. It provides the flexibility needed to transmit rotational motion and torque even when the input and output shafts are not perfectly aligned. The ability of the cardan joint to compensate for misalignment makes it a versatile component in various applications where flexibility and misalignment tolerance are required.

China wholesaler CZPT Whl Sliding Block Machinery Universal Cardan Joints Used for Straightening Machine Joint  China wholesaler CZPT Whl Sliding Block Machinery Universal Cardan Joints Used for Straightening Machine Joint
editor by CX 2024-01-15

China Best Sales Tractor Part Friction Torque Limiter / Pto Drive Cardan Shaft /Propeller Shaft for Agriculture Machinery CE Certificate with Free Design Custom

Product Description

Tractor Part Friction Torque Limiter / Pto Drive Cardan Shaft /Propeller Shaft for Agriculture Machinery Ce Certificate

Power Take Off Shafts for all applications

A power take-off or power takeoff (PTO) is any of several methods for taking power from a power source, such as a running engine, and transmitting it to an application such as an attached implement or separate machines.

Most commonly, it is a splined drive shaft installed on a tractor or truck allowing implements with mating fittings to be powered directly by the engine.

Semi-permanently mounted power take-offs can also be found on industrial and marine engines. These applications typically use a drive shaft and bolted joint to transmit power to a secondary implement or accessory. In the case of a marine application, such shafts may be used to power fire pumps.

We offer high-quality PTO shaft parts and accessories, including clutches, tubes, and yokes for your tractor and implements, including an extensive range of pto driveline. Request our pto shaft products at the best rate possible.

What does a power take off do?

Power take-off (PTO) is a device that transfers an engine’s mechanical power to another piece of equipment. A PTO allows the hosting energy source to transmit power to additional equipment that does not have its own engine or motor. For example, a PTO helps to run a jackhammer using a tractor engine.

What’s the difference between 540 and 1000 PTO?

When a PTO shaft is turning 540, the ratio must be adjusted (geared up or down) to meet the needs of the implement, which is usually higher RPM’s than that. Since 1000 RPM’s is almost double that of 540, there is less “”Gearing Up”” designed in the implement to do the job required.”

If you are looking for a PTO speed reducer visit here 

Function Power transmission                                   
Use Tractors and various farm implements
Place of Origin HangZhou ,ZHangZhoug, China (Mainland)
Brand Name EPT
Yoke Type push pin/quick release/collar/double push pin/bolt pins/split pins 
Processing Of Yoke Forging
Plastic Cover YW;BW;YS;BS
Color Yellow;black
Series T series; L series; S series
Tube Type Trianglar/star/lemon
Processing Of Tube Cold drawn
Spline Type 1 3/8″ Z6; 1 3/8 Z21 ;1 3/4 Z20;1 1/8 Z6; 1 3/4 Z6; 

Related Products

Application:

Company information:

 

Axle Spindle Types and Features

The axle spindle is an integral part of your vehicle’s suspension. There are several different types and features, including mounting methods, bearings, and functions. Read on for some basic information on axle spindles. The next part of the article will cover how to choose the correct axle spindle for your vehicle. This article will also discuss the different types of spindles available, including the differences between the rear and front bearings.
Driveshaft

Features

The improved axle spindle nut assembly is capable of providing additional performance benefits, including increased tire life and reduced seal failure. Its keyway features and radially inwardly extending teeth allow nut adjustment to be accomplished with precision. The invention further provides a unique, multi-piece locking mechanism that minimizes leakage and torque transfer. Its principles and features are detailed in the appended claims. For example, the improved axle spindle nut assembly is designed for use in vehicles that are equipped with a steering system.
The axle spindle nut assembly includes a nut 252 with threads 256 on its inner periphery. The axle spindle 50 also features threads 198 on its outer periphery. The nut is threaded onto the outboard end of the axle spindle 50 until it contacts the inboard surface of the axle spacer 26. In the assembled state, a bearing spacer 58 is also present on the axle spindle.
The axle spindle nut assembly can reduce axial end play between the wheel end assembly 52 and the axle spindle 50. It can be tightened to an extreme torque level, but if the thread faces separate, it will undercompress the bearing cone and spacer group. To minimize these disadvantages, the axle spindle nut assembly is a critical component of a wheel-end assembly. There are several types of axle spindle nuts.
The third embodiment of the axle spindle nut assembly 300 comprises an inner washer 202, an outer washer 310, and at least 1 screw 320. The axle spindle nut assembly 300 secures and preloads bearing cones 55, 57. Unlike the first embodiment, the axle spindle nut assembly 300 uses the inner washer 202, which is optional in the third embodiment. The inner washer 202 and outer washer 310 are similar to those of the first embodiment.

Functions

An axle spindle is 1 of the most important components of a vehicle’s suspension system. The spindle retains the position of bearings and a spacer in an axle by providing clamp force. The inner nut of an axle spindle should be properly torqued to ensure a secure fit. A spindle nut is also responsible for compressing bearings and spacers. If any of these components are missing, the spindle will not work properly.
An axle spindle is used in rear wheel drive cars. It carries the weight of the vehicle on the axle casing and transfers the torque from the differential to the wheels. The axle spindle and hub are secured on the spindle by large nuts. The axle spindle is a vital component of rear wheel drive vehicles. Hence, it is essential to understand the functions of axle spindle. These components are responsible for the smooth operation of a vehicle’s suspension system.
Axle spindles can be mounted in 3 ways: in the typical axle assembly, the spindles are bolted onto the ends of the tubular axle, and the axle is suspended by springs. Short stub-axle mounting uses a torsion beam that flexes to provide a smooth ride. A second washer is used to prevent excessive rotation of the axle spindle.
Apart from being a crucial component of the suspension system, the spindles of the wheels are responsible for guiding the vehicle in a straight line. They are connected to the steering axis and are used in different types of suspension systems. European cars use a MacPherson Strut suspension system in which the spindle is connected to the arms in the front and rear of the suspension frame. The MacPherson strut allows the shock absorber housing to turn the wheel.
Driveshaft

Methods of mounting

Various methods of mounting axle spindle are available. In general, these methods involve forming a tubular blank of uniform cross section and thickness, and receiving the bearing assembly against it. The spindle is then secured using a collar, which also serves as a bearing stop. In some cases, additional features are used to provide greater security. Some of these features may not be suitable for all applications. But they are generally suitable.
Axle spindle forming is usually done by progressive steps using hollow punches. The metallic body of the punch has an inner work surface, which receives the axle blank. A mandrel is fixed within the work opening of the punch. The punch body’s work surface forges the spindle about the mandrel. The punch has 2 ends, a closed and an open one.
A wheeled vehicle axle assembly (10) includes a cylindrical housing member (12 a) and a plurality of spindle mounting flanges (30) secured on the housing member. The spindles (16) are firmly attached to the housing member by means of coupling members. The coupling members are configured to distribute the bending loads imposed on the spindle by the axle. It is important to note that the coupling members can be either threaded or screwed.
Traditionally, axle spindles were made from tubular blanks of irregular thickness. This method allowed for a gradual reduction in diameter and eliminated the need for extra metal within the spindle. Similarly, axles made by cold forming eliminate the need for additional metal in the spindle. In this way, the overall cost of manufacture is also reduced. The material used for manufacturing axles also determines the size and shape of the final product.
Driveshaft

Bearings

A nut 16 is used to retain the wheel bearings on axle spindle 12. The nut comprises several parts. The first portion includes a plurality of threads and a deformable second portion. The nut may be disposed on the inboard or outboard end of the axle spindle. This type of nut is typically secured to the axle spindle by a retaining nut.
The bearings are installed in the spindle to allow the wheel hub to rotate. While bearings are greased, they can dry out over time. Consequently, you may hear a loud clicking sound when turning your vehicle. Alternatively, you may notice grease on the edges of your tires. Bearing failure can cause severe damage to your axle spindle. If you notice any of these symptoms, you may need to replace the bearings on your axle spindle. Fortunately, you can purchase the necessary bearing parts at O’Reilly Auto Parts.
There are 3 ways to mount an axle spindle. A typical axle assembly has the spindles bolted to the ends of the tubular axle. A torsion beam is also used to mount the spindles on the axle. This torsion beam acts like a spring to help make the ride smooth and bump-free. Lastly, the axle spindle is sometimes mounted as a bolt-on component.

Cost

If your axle spindle has been damaged, you may need to have it replaced. This part of the axle is relatively easy to replace, but you need to know how to do it correctly. To replace your axle spindle, you must first remove the damaged one. To do this, a technician will cut the weld. They will then thread the new 1 into the axle tube and torque it to specification. After that, they will weld the new axle spindle into place.
When you are thinking about the cost of an axle spindle replacement, you must first determine if it is worth it for your vehicle. It is generally a good idea to replace the spindle only if it is causing damage to your vehicle. You can also replace your axle housing if it is deteriorating. If you do not replace the spindle, you can risk damaging the axle housing. To save money, you can consider using a repair kit.
You can also purchase an axle nut socket set. Most wrenches have an adjusting socket for this purpose. The socket set should be suitable for most vehicle types. Axle spindle replacement costs around $500 to $600 before tax. However, you should be aware that these costs vary widely based on the type of vehicle you have. The parts can cost between $430 and $480, and the labor can cost anywhere from $50 to 70.

China Best Sales Tractor Part Friction Torque Limiter / Pto Drive Cardan Shaft /Propeller Shaft for Agriculture Machinery CE Certificate   with Free Design CustomChina Best Sales Tractor Part Friction Torque Limiter / Pto Drive Cardan Shaft /Propeller Shaft for Agriculture Machinery CE Certificate   with Free Design Custom