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

/* 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

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)

|
Request Sample

Customization:
Available

|

Customized Request

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 address noise issues in a universal joint?

Noise issues in a universal joint can be addressed through various measures. Here’s a detailed explanation:

Noise in a universal joint can result from factors such as misalignment, imbalance, wear, or inadequate lubrication. Addressing noise issues involves identifying the underlying causes and implementing appropriate solutions. Here are some steps to mitigate noise problems in a universal joint:

  • Alignment: Ensuring proper alignment between the input and output shafts is crucial for reducing noise in a universal joint. Misalignment can lead to increased stress, vibration, and noise generation. Aligning the shafts within the manufacturer’s specified tolerances helps minimize the angular deflection and associated noise.
  • Balancing: Imbalance in the rotating components of a universal joint can contribute to noise generation. Balancing the yokes, crosses, or other relevant components helps minimize vibrations and noise. Techniques such as adding counterweights or using precision balancing equipment can help achieve better balance and reduce noise levels.
  • Lubrication: Inadequate or improper lubrication can result in increased friction, wear, and noise in a universal joint. Using the manufacturer-recommended lubricant and following the specified lubrication intervals help ensure smooth operation and minimize noise. Regular maintenance, including lubrication checks and replenishment, is essential to mitigate noise issues arising from insufficient lubrication.
  • Wear and Replacement: Wear in the universal joint components, such as the cross, bearings, or yokes, can contribute to noise. Regular inspection for signs of wear, such as pitting, scoring, or play, is necessary. If wear is detected, replacing the worn components with new ones that meet the manufacturer’s specifications can restore proper functionality and reduce noise.
  • Vibration Damping: Implementing vibration damping techniques can help reduce noise in a universal joint. This may involve using vibration-absorbing materials, such as rubber or elastomeric elements, at appropriate locations to absorb and dissipate vibrations. Dampening vibrations helps minimize the transmission of noise and improves the overall performance of the joint.
  • Proper Maintenance: Regular maintenance practices are vital for addressing noise issues in a universal joint. This includes periodic inspections, lubrication checks, and addressing any signs of misalignment, wear, or damage. Timely maintenance helps identify and rectify potential sources of noise before they escalate and affect the joint’s performance and reliability.

By implementing these measures and considering the specific operating conditions and requirements of the system, noise issues in a universal joint can be effectively addressed. It’s important to consult the manufacturer’s guidelines and recommendations for proper installation, operation, and maintenance to ensure optimal performance and minimize noise generation in the joint.

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 best Ccr or Private Label Drive Shaft Center Support Bearing Universal Joint  China best Ccr or Private Label Drive Shaft Center Support Bearing Universal Joint
editor by CX 2024-05-13

Universal Joint

As one of the universal joint manufacturers, suppliers, and exporters of mechanical products, We offer universal joint and many other products.

Please get in touch with us for details.

Manufacturer supplier exporter of the universal joint.

Recent Posts