China Good quality New Ccr or Private Label Cardan Shaft Inner CV Joint with DIN

Product Description

       ABS Ring Included : No

Axle Nut Locking Type: Self Lock

Axle Nut Supplied: Yes

Compressed Length: 21 1/4″

CV Axles Inboard Spline Count: 26

Emission Code : 1

Inboard Joint Type: Female

Input Shaft Connection Style: Spline

Input Shaft Spline Count: 26

Interchange Part Number: , GM-8047, 179047, GM-6120, GM6120, 9456N

Label Description – 80: New Constant Velocity Drive Axle

Length Measurement Method: Compressed

Life Cycle Status Code: 2

Life Cycle Status Description: Available to Order

Maximum Cases per Pallet Layer: 10

MSDS Required Flag: N

National Popularity Code : B

National Popularity Description: Next 20% of Product Group Sales Value

New or Remanufactured: New

Nut Head Size: 36mm Hex Head

Nut Length: OAH 20.8mm

Nut Locking Type: Self Lock

Nut Thread Size: M24 x 2.0

Other Part Number: 815-5270, GM-8232, 80-1507, , 80571

Outboard Joint Type: Male

Outboard Spline Count: 27

Output Shaft Connection Style: Spline

Output Shaft Spline Count: 27

Overall Length: 21 1/4″

Pallet Layer Maximum: 6

Product Condition: New

Product Description – Invoice – 40: CV Drive Axle New

Product Description – Long – 80: CV Drive Axle – Domestic New

Product Description – Short – 20: CV Drive Axle

Remanufactured Part: N

Spindle Nut Hex Head Size: 36mm

Spindle Nut Included: Yes

Spindle Nut Thread Size: M24 x 2.0

Drive Shaft | PATRON : PDS1507

  • Fitting Position: Front Axle Right

REF NO.

FactoryNumber

GSP208050

OE Number

MakeNumber

GMC93720063

MakeNumber

GMC

MakeNumber

CHINAMFG

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After-sales Service: Available
Condition: New
Certification: DIN, ISO, ISO, DIN
Type: C.V. Joint
Application Brand: GM
Material: Steel
Samples:
US$ 30/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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cardan shaft

What is the role of needle bearings in a cardan joint?

Needle bearings play a crucial role in the smooth operation and performance of a cardan joint. They are commonly used as a type of rolling element bearing within the joint’s design. The primary role of needle bearings in a cardan joint is to provide support, reduce friction, and facilitate the transmission of torque between the joint’s components. Here’s a detailed explanation of the role of needle bearings in a cardan joint:

  1. Load Distribution: Needle bearings are designed to distribute loads evenly across their cylindrical rolling elements. In a cardan joint, they help distribute the axial and radial loads between the input and output shafts, yokes, and cross members. This load distribution capability helps minimize stress concentrations and ensures efficient torque transmission.
  2. Reduced Friction: The rolling motion of the needle bearings reduces the friction between the joint’s components. By reducing friction, needle bearings help minimize power losses and energy consumption within the cardan joint. This is particularly important in applications where efficiency and power transmission are critical.
  3. Misalignment Compensation: Cardan joints are designed to accommodate misalignments between the input and output shafts. Needle bearings allow a certain degree of misalignment while maintaining smooth rotation and torque transmission. Their design and arrangement provide flexibility and allow for angular, parallel, and axial misalignment compensation.
  4. High Load Capacity: Needle bearings are specially designed to handle high radial and axial loads. In a cardan joint, they are subjected to varying loads and torque forces. The robust construction of needle bearings enables them to withstand these loads while maintaining their structural integrity and performance.
  5. Compact Design: Needle bearings offer a high load capacity relative to their size, allowing for a more compact cardan joint design. Their small size and high load-carrying capability make them well-suited for applications with limited space or weight constraints.
  6. Reduced Wear and Longevity: Needle bearings are designed to have high wear resistance and durability. Their rolling motion reduces the sliding contact between the joint’s components, minimizing wear and extending the joint’s service life. This is particularly important in high-speed or high-load applications where wear can lead to premature failure.
  7. Operating Conditions: Needle bearings are designed to operate in a variety of conditions, including high-speed and high-temperature environments. They are often manufactured with high-quality materials and heat treatments to enhance their performance and reliability, making them suitable for demanding operating conditions commonly encountered in cardan joint applications.

Overall, needle bearings play a critical role in the functionality, efficiency, and longevity of a cardan joint. By providing load distribution, reduced friction, misalignment compensation, and high load capacity, they contribute to the smooth operation and reliable torque transmission of the joint. Proper selection, lubrication, and maintenance of needle bearings are essential to ensure optimal performance and maximize the lifespan of the cardan joint.

cardan shaft

Can cardan joints be used in conveyor systems?

Yes, cardan joints can be used in conveyor systems, and they offer several advantages in certain applications. Cardan joints, also known as universal joints, are versatile mechanical couplings that provide flexibility in transmitting torque and accommodating misalignments between rotating shafts. Here’s a detailed explanation of the use of cardan joints in conveyor systems:

Conveyor systems are widely used in various industries for the efficient movement of bulk materials, goods, or components. These systems consist of multiple components, including conveyor belts, pulleys, rollers, and drive systems, that work together to transport materials from one location to another.

Cardan joints can be integrated into conveyor systems to enable torque transmission and accommodate misalignments in certain parts of the system. Here are some key considerations and advantages of using cardan joints in conveyor systems:

  1. Misalignment Compensation: Conveyor systems often require flexibility to accommodate misalignments between different components, such as pulleys and drive shafts. Cardan joints provide a flexible coupling solution that can handle angular, parallel, and axial misalignments, allowing smooth operation and minimizing stress on the system.
  2. Torque Transmission: Cardan joints are designed to transmit torque between shafts that are not aligned. In conveyor systems, they can be used to connect the drive shaft to the pulleys or rollers, allowing torque to be efficiently transferred throughout the system. This enables the movement of the conveyor belt and facilitates the transportation of materials along the desired path.
  3. Compact Design: Cardan joints offer a compact and space-saving design, making them suitable for conveyor systems with limited space constraints. Their small size allows for efficient integration into the system without compromising its overall footprint.
  4. High Load Capacity: Conveyor systems often handle significant loads, and the components must be capable of withstanding these loads. Cardan joints are designed to handle high torque and can transmit substantial loads, making them suitable for conveyor systems that require robust and reliable torque transmission.
  5. Variable Speed and Direction: Cardan joints provide the ability to transmit torque at various angles, allowing conveyor systems to operate at different speeds and change direction if needed. This flexibility allows for versatility in conveyor system design and adaptability to different material handling requirements.
  6. Reduced Vibrations and Noise: Cardan joints can help dampen vibrations and reduce noise levels in conveyor systems. The flexible coupling nature of the joint absorbs and dampens vibrations caused by the operation of the system, resulting in smoother and quieter performance.
  7. Application-Specific Considerations: The use of cardan joints in conveyor systems requires careful consideration of specific application requirements, such as the type of material being transported, system layout, operating conditions, and load characteristics. Proper selection of the cardan joint size, materials, lubrication, and maintenance practices is essential to ensure optimal performance and reliability.

It is worth noting that while cardan joints can offer advantages in certain conveyor system applications, other types of couplings or drive systems may be more suitable depending on the specific requirements and constraints of the system. Consulting with engineers and industry experts can help determine the most appropriate coupling solution for a given conveyor system.

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 Good quality New Ccr or Private Label Cardan Shaft Inner CV Joint with DIN  China Good quality New Ccr or Private Label Cardan Shaft Inner CV Joint with DIN
editor by CX 2024-01-22