China best ISO, DIN ISO Approved Ccr or Private Label Cardan Shaft Transmission Joint

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




OE Number







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

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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

How do you properly maintain and lubricate a cardan joint?

Proper maintenance and lubrication are essential for ensuring the optimal performance, longevity, and reliability of a cardan joint. Regular maintenance helps prevent premature wear, reduce friction, and minimize the risk of component failure. Here’s a detailed explanation of how to properly maintain and lubricate a cardan joint:

  1. Refer to Manufacturer’s Guidelines: Consult the manufacturer’s guidelines and documentation specific to the cardan joint being used. The manufacturer provides valuable information regarding recommended maintenance intervals, lubrication procedures, and compatible lubricants.
  2. Cleanliness: Before lubricating a cardan joint, ensure that the joint and its surrounding area are clean and free from dirt, debris, or contaminants. Use appropriate cleaning methods, such as wiping or brushing, to remove any buildup that could hinder proper lubrication.
  3. Lubrication Points: Identify the lubrication points on the cardan joint. These are typically located at the bearings or bushings where the joint pivots. Refer to the manufacturer’s documentation to determine the specific lubrication points and their recommended lubrication intervals.
  4. Selection of Lubricant: Select a lubricant that is recommended by the manufacturer and suitable for the operating conditions of the cardan joint. Consider factors such as temperature, load, speed, and environmental conditions when choosing the lubricant. Commonly used lubricants for cardan joints include grease or oil with appropriate viscosity and additives.
  5. Applying Grease: If using grease, apply a sufficient amount to the lubrication points. Use a grease gun or other suitable lubrication equipment to deliver the grease accurately. Ensure that the grease reaches the bearings or bushings, allowing it to coat the surfaces evenly.
  6. Applying Oil: If using oil, carefully apply a few drops to each lubrication point. Use a precision oiler or other suitable dispensing method to avoid over-lubrication. The oil should be applied in a controlled manner to prevent excess oil from dripping or spreading to unwanted areas.
  7. Distribution and Spread: After applying the lubricant, operate the cardan joint through its full range of motion several times. This helps distribute the lubricant evenly and ensures proper coverage of the joint’s surfaces. The motion of the joint helps the lubricant penetrate and adhere to the bearing surfaces, reducing friction and wear.
  8. Excess Lubricant: Remove any excess lubricant that may have accumulated around the lubrication points or other areas of the joint. Excess lubricant can attract dirt, debris, or contaminants, which can contribute to accelerated wear or hinder the joint’s operation.
  9. Regular Inspection: Implement a regular inspection schedule for the cardan joint. Periodically check the lubrication points for signs of excessive wear, contamination, or insufficient lubrication. Inspect for leaks, damaged seals, or any other issues that could affect the joint’s performance. Address any problems promptly to prevent further damage or failure.
  10. Maintenance Records: Maintain proper documentation of the maintenance activities performed on the cardan joint. This includes the dates of lubrication, the type of lubricant used, and any observations or issues noted during inspections. Keeping records helps track maintenance history and facilitates timely maintenance planning and troubleshooting.

It’s important to note that the specific maintenance and lubrication requirements may vary depending on the type, design, and application of the cardan joint. Therefore, always refer to the manufacturer’s guidelines and recommendations for the particular cardan joint being used, as they provide the most accurate and relevant information for proper maintenance and lubrication.

cardan shaft

How is a cardan joint different from other types of universal joints?

A cardan joint, also known as a universal joint or U-joint, is a specific type of universal joint design. While there are different variations of universal joints, the cardan joint has distinct characteristics that set it apart from other types. Here’s a detailed explanation of how a cardan joint differs from other universal joints:

1. Design and Structure: The cardan joint consists of two yokes and a cross-shaped member called the cross or spider. The yokes are typically fork-shaped and attached to the shafts, while the cross sits in the center, connecting the yokes. In contrast, other types of universal joints, such as the constant-velocity (CV) joint or Rzeppa joint, have different designs and structures. CV joints often use a combination of bearings and balls to transmit motion and maintain constant velocity, making them suitable for applications requiring smooth rotation without speed fluctuations.

2. Misalignment Compensation: One of the primary functions of a cardan joint is to accommodate misalignment between shafts. It can handle angular misalignment, axial misalignment, or a combination of both. The design of the cardan joint allows for the tilting of the cross as the input and output shafts rotate at different speeds. This tilting action compensates for misalignment and allows the joint to transmit motion. Other types of universal joints, such as the Oldham coupling or Hooke’s joint, have different mechanisms for compensating misalignment. For example, the Oldham coupling uses sliding slots and intermediate disks to accommodate misalignment, while Hooke’s joint uses a combination of rotating links and flexible connections.

3. Operating Range: Cardan joints are commonly used in applications where a wide range of operating angles is required. They can effectively transmit motion and torque at various angles, making them suitable for applications with non-collinear shafts. Other types of universal joints may have specific limitations or operating ranges. For instance, some types of CV joints are designed for constant velocity applications and are optimized for specific operating angles or speed ranges.

4. Applications: Cardan joints find applications in various industries, including automotive, industrial machinery, aerospace, and more. They are commonly used in drivetrain systems, power transmission systems, and applications that require flexibility, misalignment compensation, and reliable motion transmission. Other types of universal joints have their own specific applications. For example, CV joints are commonly used in automotive applications, particularly in front-wheel drive systems, where they provide smooth and constant power transmission while accommodating suspension movements.

5. Limitations: While cardan joints offer flexibility and misalignment compensation, they also have certain limitations. At extreme operating angles, cardan joints can introduce non-uniform motion, increased vibration, backlash, and potential loss of efficiency. Other types of universal joints may have their own limitations and considerations depending on their specific design and application requirements.

In summary, a cardan joint, or universal joint, is a specific type of universal joint design that can accommodate misalignment between shafts and transmit motion at various angles. Its structure, misalignment compensation mechanism, operating range, and applications differentiate it from other types of universal joints. Understanding these distinctions is crucial when selecting the appropriate joint for a specific application.

China best ISO, DIN ISO Approved Ccr or Private Label Cardan Shaft Transmission Joint  China best ISO, DIN ISO Approved Ccr or Private Label Cardan Shaft Transmission Joint
editor by CX 2023-12-15