Product Description
|
Type |
Universal Joint |
|
Brand |
Huihai |
|
Car Model |
For MITSUBISHI GMB NO. GUM77 KOYO.NO. M2578A MATSUBA NO. UJ617 |
|
OE NO. |
ST-0008 |
| Parameters |
27×81.75/20CR |
|
Condition |
100% new |
|
Warranty |
12 month |
The Universal Joint is a part of variable Angle power transmission, which is used to change the direction of the transmission axis. It is the “joint” part of the universal transmission device of the automobile drive system. The combination of universal joint and transmission shaft is called universal joint transmission device. On the front-engine rear-wheel drive vehicle, the universal joint transmission device is installed between the transmission output shaft and the drive axle main reducer input shaft; The front-engine front-wheel drive vehicle omits the drive shaft, and the universal joint is installed between the front axle axle and the wheel, which is responsible for both driving and steering.
Q1.What is your MOQ?
A: We accept lower quantity for your trial order.
Q2. How long is the production lead time?
A: For some item we keep some stock that can be deliveried in 2 weeks.
Q3.What is your payment term?
A: Discussed! T/T / L/C /Paypal etc.
Q4.Can I customized my own Brand ?
A: Yes, we can do however you need to reach certain quantity for each item
Q5. What is a package?
A: Neutral packaging or customer packaging.
Q6. Can you help with the delivery of the goods?
A: Yes. We can help deliver goods through our customer freight forwarders or our freight forwarders.
Q7. Which port does our company supply?
A: Usually in HangZhou Port. The port specified by the customer is acceptable.
/* 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: | One Year |
|---|---|
| Warranty: | One Year Warranty |
| Condition: | New |
| Color: | Silver |
| Certification: | ISO |
| Structure: | Single |
Can universal joints be used in precision manufacturing equipment?
Yes, universal joints can be used in precision manufacturing equipment, depending on the specific requirements and applications. Here’s a detailed explanation:
Precision manufacturing equipment often requires precise and reliable motion transmission between different components or subsystems. Universal joints can be employed in such equipment to facilitate the transmission of rotational motion and torque while accommodating misalignment or angular variations. However, their usage in precision manufacturing equipment is subject to certain considerations:
- Motion Transmission: Universal joints are effective in transmitting rotational motion and torque across misaligned or non-collinear shafts. In precision manufacturing equipment, where precise and synchronized motion is crucial, universal joints can provide flexibility and compensate for slight misalignments or angular variations, ensuring reliable motion transfer.
- Angular Accuracy: Precision manufacturing often requires maintaining precise angular accuracy during operation. While universal joints can accommodate misalignments, they introduce certain angular errors due to their design. These errors may be acceptable or manageable depending on the specific application. However, in cases where extremely tight angular accuracy is required, alternative motion transmission mechanisms, such as precision couplings or direct drives, might be preferred.
- Backlash and Play: Universal joints can exhibit a certain degree of backlash or play, which may affect the precision of the manufacturing process. Backlash refers to the slight movement or play that occurs when reversing the direction of rotation. In precision manufacturing equipment, minimizing backlash is often critical. Careful selection of high-quality universal joints or incorporating additional mechanisms to reduce backlash, such as preloading or anti-backlash devices, might be necessary to achieve the desired precision.
- Load and Speed Considerations: When using universal joints in precision manufacturing equipment, it is essential to consider the expected loads and operating speeds. Universal joints have specific load and speed limitations, and exceeding these limits can lead to premature wear, reduced precision, or even failure. Careful selection of universal joints with appropriate load and speed ratings based on the application’s requirements is necessary to ensure optimal performance.
- Maintenance and Lubrication: Regular maintenance and proper lubrication are crucial for the reliable and precise operation of universal joints in precision manufacturing equipment. Following manufacturer guidelines regarding lubrication intervals, lubricant types, and maintenance procedures is essential. Regular inspection of the joints for wear, damage, or misalignment is also necessary to identify any issues that could affect precision.
- Application-Specific Considerations: Each precision manufacturing application may have unique requirements and constraints. Factors such as available space, environmental conditions, required precision levels, and integration with other components should be taken into account when determining the feasibility and suitability of using universal joints. Consulting with experts or manufacturers specializing in precision manufacturing equipment can help in evaluating the best motion transmission solution for a specific application.
In summary, universal joints can be used in precision manufacturing equipment to facilitate motion transmission while accommodating misalignment. However, their usage should be carefully evaluated considering factors such as angular accuracy requirements, backlash and play limitations, load and speed considerations, maintenance needs, and application-specific constraints.
What are the signs of a failing universal joint and how do you diagnose it?
Diagnosing a failing universal joint involves identifying specific signs and symptoms that indicate potential problems. Here’s a detailed explanation:
A failing universal joint can exhibit several signs that indicate a need for inspection, repair, or replacement. Some common signs of a failing universal joint include:
- Clunking or Knocking Noise: One of the most noticeable signs is a clunking or knocking noise coming from the universal joint area. This noise is often more pronounced during acceleration, deceleration, or when changing gears. The noise may indicate excessive play or wear in the joint’s components.
- Vibration: A failing universal joint can cause vibrations that are felt throughout the vehicle. These vibrations may be more noticeable at higher speeds or under load conditions. The vibrations can be a result of imbalanced driveshafts or misaligned yokes due to worn or damaged universal joint bearings.
- Difficulty in Power Transfer: As a universal joint deteriorates, power transfer from the transmission to the driven wheels may become less efficient. This can lead to a decrease in acceleration, reduced towing capacity, or difficulty in maintaining consistent speed. Loss of power transfer efficiency can occur due to worn or seized universal joint components.
- Visible Wear or Damage: A visual inspection of the universal joint can reveal signs of wear or damage. Look for excessive play or movement in the joint, rust or corrosion on the components, cracked or broken yokes, or worn-out bearings. Any visible signs of damage indicate a potential issue with the universal joint.
- Grease Leakage: Universal joints are typically lubricated with grease to reduce friction and wear. If you notice grease leakage around the joint or on the surrounding components, it may indicate a failing seal or a damaged bearing, which can lead to joint failure.
To diagnose a failing universal joint, the following steps can be taken:
- Perform a visual inspection: Inspect the universal joint and surrounding components for any visible signs of wear, damage, or leakage. Pay attention to the condition of the yokes, bearings, seals, and grease fittings.
- Check for excessive play: While the vehicle is on a level surface and the parking brake is engaged, attempt to move the driveshaft back and forth. Excessive play or movement in the universal joint indicates wear or looseness.
- Listen for abnormal noises: During a test drive, listen for any clunking, knocking, or unusual noises coming from the universal joint area. Pay attention to noise changes during acceleration, deceleration, and gear changes.
- Monitor vibrations: Note any vibrations felt through the vehicle, especially at higher speeds or under load conditions. Excessive vibrations can indicate problems with the universal joint or driveshaft.
- Seek professional inspection: If you suspect a failing universal joint but are uncertain about the diagnosis, it’s recommended to consult a professional mechanic or technician with experience in drivetrain systems. They can perform a comprehensive inspection, including measurements and specialized tests, to accurately diagnose the condition of the universal joint.
It’s important to address any signs of a failing universal joint promptly to avoid further damage, drivability issues, or potential safety hazards. Regular maintenance, including periodic inspection and lubrication, can help prevent premature universal joint failure.
In summary, signs of a failing universal joint include clunking or knocking noises, vibrations, difficulty in power transfer, visible wear or damage, and grease leakage. Diagnosing a failing universal joint involves visual inspection, checking for excessive play, listening for abnormal noises, monitoring vibrations, and seeking professional inspection when necessary.
What are the applications of a universal joint?
A universal joint, also known as a U-joint, finds applications in various industries and mechanical systems where the transmission of rotary motion is required between misaligned shafts. Here are some common applications of universal joints:
- Automotive Drivelines: One of the most well-known applications of universal joints is in automotive drivelines. Universal joints are used in the drivetrain to transmit power from the engine to the wheels while accommodating the misalignment between the engine, transmission, and axle shafts. They are commonly found in rear-wheel drive and four-wheel drive vehicles, connecting the transmission output shaft to the drive shaft and allowing the wheels to receive power even when the suspension system causes changes in angles and positions.
- Industrial Machinery: Universal joints are widely used in industrial machinery where the transmission of motion at angles is required. They are employed in various types of machinery, such as conveyors, mixers, pumps, printing presses, and machine tools. Universal joints enable the transfer of rotary motion between misaligned shafts, allowing these machines to operate efficiently and effectively.
- Marine and Propulsion Systems: In marine applications, universal joints are used in propulsion systems to transmit power from the engine to the propeller shaft. They allow for the necessary flexibility to accommodate the movement of the vessel and changes in the propeller shaft angle. Universal joints are also used in marine steering systems to transfer motion between the steering wheel and the rudder or outboard motor.
- Agricultural Equipment: Universal joints are utilized in agricultural machinery and equipment such as tractors, combines, and harvesters. They enable the transmission of power between different components, such as the engine, gearbox, and wheels, even when these components are not perfectly aligned. Universal joints provide the necessary flexibility to accommodate the movement and articulation required in agricultural operations.
- Aerospace and Aviation: Universal joints are used in aerospace and aviation applications where motion transmission at angles is required. They can be found in control systems for aircraft wings, flaps, and landing gear. Universal joints allow for the transfer of motion and control inputs between different components, ensuring smooth and reliable operation.
- Heavy Machinery and Construction Equipment: Universal joints are employed in heavy machinery and construction equipment, such as cranes, excavators, and loaders. They enable the transmission of power and motion between different parts of the machinery, accommodating the misalignment that may arise due to the movement and articulation of these machines.
- Railway Systems: Universal joints are used in railway systems for various applications. They are employed in drivetrains and power transmission systems to transmit motion between different components, such as the engine, gearboxes, and axles. Universal joints allow for smooth power transfer while accommodating the misalignment caused by the suspension and movement of the train.
- Robotics and Automation: Universal joints find applications in robotics and automation systems where motion needs to be transmitted between misaligned components. They are used in robotic arms, manipulators, and other automated systems to enable flexible and precise movement while accommodating misalignment and articulation requirements.
These are just a few examples of the diverse range of applications for universal joints. Their ability to transmit rotary motion between misaligned shafts with flexibility and efficiency makes them an essential component in numerous industries and mechanical systems.
editor by CX 2024-04-13
China factory Cross Joint Bearing Guh-60 37401-1172 Universal Joint Cross Bearing Manufacturer 40.2X115mm
Product Description
|
Type |
Universal Joint |
|
Brand |
Huihai |
|
Car Model |
For HINO GMB NO. GUH60 MATSUBA NO. UJ510 |
|
OE NO. |
37401-1172 |
| Parameters |
27×81.75/20CR |
|
Condition |
100% new |
|
Warranty |
12 month |
The Universal Joint is a part of variable Angle power transmission, which is used to change the direction of the transmission axis. It is the “joint” part of the universal transmission device of the automobile drive system. The combination of universal joint and transmission shaft is called universal joint transmission device. On the front-engine rear-wheel drive vehicle, the universal joint transmission device is installed between the transmission output shaft and the drive axle main reducer input shaft; The front-engine front-wheel drive vehicle omits the drive shaft, and the universal joint is installed between the front axle axle and the wheel, which is responsible for both driving and steering.
Q1.What is your MOQ?
A: We accept lower quantity for your trial order.
Q2. How long is the production lead time?
A: For some item we keep some stock that can be deliveried in 2 weeks.
Q3.What is your payment term?
A: Discussed! T/T / L/C /Paypal etc.
Q4.Can I customized my own Brand ?
A: Yes, we can do however you need to reach certain quantity for each item
Q5. What is a package?
A: Neutral packaging or customer packaging.
Q6. Can you help with the delivery of the goods?
A: Yes. We can help deliver goods through our customer freight forwarders or our freight forwarders.
Q7. Which port does our company supply?
A: Usually in HangZhou Port. The port specified by the customer is acceptable.
/* 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: | One Year |
|---|---|
| Warranty: | One Year Warranty |
| Condition: | New |
| Color: | Silver |
| Certification: | ISO |
| Structure: | Single |
What is the role of a yoke in a universal joint assembly?
A yoke plays a crucial role in a universal joint assembly. Here’s a detailed explanation:
In a universal joint assembly, a yoke is a mechanical component that connects the universal joint to the shafts it is intended to transmit motion between. It acts as a link, providing a secure attachment point and facilitating the transfer of rotational motion. The yoke is typically made of strong and durable materials such as steel or cast iron.
The role of a yoke in a universal joint assembly can be summarized as follows:
- Connection Point: The yoke serves as a connection point between the universal joint and the shafts it is joining. It provides a secure and rigid attachment, ensuring that the universal joint and shafts operate as a cohesive unit. The yoke is designed to fit onto the shafts and is often secured using fasteners such as bolts or retaining rings.
- Transmitting Torque: One of the primary functions of the yoke is to transmit torque from one shaft to another through the universal joint assembly. When torque is applied to one shaft, the universal joint transfers it to the other shaft via the yoke. The yoke must be strong enough to handle the torque generated by the system and effectively transfer it without deformation or failure.
- Supporting Radial Loads: In addition to transmitting torque, the yoke also provides support for radial loads. Radial loads are forces acting perpendicular to the shaft’s axis. The yoke, along with other components in the universal joint assembly, helps distribute these loads and prevent excessive stress on the shafts and universal joint. This support ensures stable operation and prevents premature wear or failure.
- Alignment and Stability: The yoke contributes to the alignment and stability of the universal joint assembly. It helps maintain the proper positioning of the universal joint in relation to the shafts, ensuring that the rotational motion is transmitted accurately and efficiently. The yoke’s design and fitment play a crucial role in minimizing misalignment and maintaining the integrity of the assembly.
- Compatibility and Adaptability: Yokes are available in various shapes, sizes, and configurations to accommodate different shaft diameters, types, and connection methods. This versatility allows for compatibility with a wide range of applications and facilitates the adaptation of the universal joint assembly to specific requirements. The yoke’s design may include features such as keyways, splines, or flanges to suit different shaft and mounting arrangements.
In summary, the yoke in a universal joint assembly serves as a connection point, transmits torque, supports radial loads, contributes to alignment and stability, and provides compatibility and adaptability. It is an essential component that enables the efficient and reliable transmission of rotational motion between shafts in various applications.
What are the signs of a failing universal joint and how do you diagnose it?
Diagnosing a failing universal joint involves identifying specific signs and symptoms that indicate potential problems. Here’s a detailed explanation:
A failing universal joint can exhibit several signs that indicate a need for inspection, repair, or replacement. Some common signs of a failing universal joint include:
- Clunking or Knocking Noise: One of the most noticeable signs is a clunking or knocking noise coming from the universal joint area. This noise is often more pronounced during acceleration, deceleration, or when changing gears. The noise may indicate excessive play or wear in the joint’s components.
- Vibration: A failing universal joint can cause vibrations that are felt throughout the vehicle. These vibrations may be more noticeable at higher speeds or under load conditions. The vibrations can be a result of imbalanced driveshafts or misaligned yokes due to worn or damaged universal joint bearings.
- Difficulty in Power Transfer: As a universal joint deteriorates, power transfer from the transmission to the driven wheels may become less efficient. This can lead to a decrease in acceleration, reduced towing capacity, or difficulty in maintaining consistent speed. Loss of power transfer efficiency can occur due to worn or seized universal joint components.
- Visible Wear or Damage: A visual inspection of the universal joint can reveal signs of wear or damage. Look for excessive play or movement in the joint, rust or corrosion on the components, cracked or broken yokes, or worn-out bearings. Any visible signs of damage indicate a potential issue with the universal joint.
- Grease Leakage: Universal joints are typically lubricated with grease to reduce friction and wear. If you notice grease leakage around the joint or on the surrounding components, it may indicate a failing seal or a damaged bearing, which can lead to joint failure.
To diagnose a failing universal joint, the following steps can be taken:
- Perform a visual inspection: Inspect the universal joint and surrounding components for any visible signs of wear, damage, or leakage. Pay attention to the condition of the yokes, bearings, seals, and grease fittings.
- Check for excessive play: While the vehicle is on a level surface and the parking brake is engaged, attempt to move the driveshaft back and forth. Excessive play or movement in the universal joint indicates wear or looseness.
- Listen for abnormal noises: During a test drive, listen for any clunking, knocking, or unusual noises coming from the universal joint area. Pay attention to noise changes during acceleration, deceleration, and gear changes.
- Monitor vibrations: Note any vibrations felt through the vehicle, especially at higher speeds or under load conditions. Excessive vibrations can indicate problems with the universal joint or driveshaft.
- Seek professional inspection: If you suspect a failing universal joint but are uncertain about the diagnosis, it’s recommended to consult a professional mechanic or technician with experience in drivetrain systems. They can perform a comprehensive inspection, including measurements and specialized tests, to accurately diagnose the condition of the universal joint.
It’s important to address any signs of a failing universal joint promptly to avoid further damage, drivability issues, or potential safety hazards. Regular maintenance, including periodic inspection and lubrication, can help prevent premature universal joint failure.
In summary, signs of a failing universal joint include clunking or knocking noises, vibrations, difficulty in power transfer, visible wear or damage, and grease leakage. Diagnosing a failing universal joint involves visual inspection, checking for excessive play, listening for abnormal noises, monitoring vibrations, and seeking professional inspection when necessary.
What are the applications of a universal joint?
A universal joint, also known as a U-joint, finds applications in various industries and mechanical systems where the transmission of rotary motion is required between misaligned shafts. Here are some common applications of universal joints:
- Automotive Drivelines: One of the most well-known applications of universal joints is in automotive drivelines. Universal joints are used in the drivetrain to transmit power from the engine to the wheels while accommodating the misalignment between the engine, transmission, and axle shafts. They are commonly found in rear-wheel drive and four-wheel drive vehicles, connecting the transmission output shaft to the drive shaft and allowing the wheels to receive power even when the suspension system causes changes in angles and positions.
- Industrial Machinery: Universal joints are widely used in industrial machinery where the transmission of motion at angles is required. They are employed in various types of machinery, such as conveyors, mixers, pumps, printing presses, and machine tools. Universal joints enable the transfer of rotary motion between misaligned shafts, allowing these machines to operate efficiently and effectively.
- Marine and Propulsion Systems: In marine applications, universal joints are used in propulsion systems to transmit power from the engine to the propeller shaft. They allow for the necessary flexibility to accommodate the movement of the vessel and changes in the propeller shaft angle. Universal joints are also used in marine steering systems to transfer motion between the steering wheel and the rudder or outboard motor.
- Agricultural Equipment: Universal joints are utilized in agricultural machinery and equipment such as tractors, combines, and harvesters. They enable the transmission of power between different components, such as the engine, gearbox, and wheels, even when these components are not perfectly aligned. Universal joints provide the necessary flexibility to accommodate the movement and articulation required in agricultural operations.
- Aerospace and Aviation: Universal joints are used in aerospace and aviation applications where motion transmission at angles is required. They can be found in control systems for aircraft wings, flaps, and landing gear. Universal joints allow for the transfer of motion and control inputs between different components, ensuring smooth and reliable operation.
- Heavy Machinery and Construction Equipment: Universal joints are employed in heavy machinery and construction equipment, such as cranes, excavators, and loaders. They enable the transmission of power and motion between different parts of the machinery, accommodating the misalignment that may arise due to the movement and articulation of these machines.
- Railway Systems: Universal joints are used in railway systems for various applications. They are employed in drivetrains and power transmission systems to transmit motion between different components, such as the engine, gearboxes, and axles. Universal joints allow for smooth power transfer while accommodating the misalignment caused by the suspension and movement of the train.
- Robotics and Automation: Universal joints find applications in robotics and automation systems where motion needs to be transmitted between misaligned components. They are used in robotic arms, manipulators, and other automated systems to enable flexible and precise movement while accommodating misalignment and articulation requirements.
These are just a few examples of the diverse range of applications for universal joints. Their ability to transmit rotary motion between misaligned shafts with flexibility and efficiency makes them an essential component in numerous industries and mechanical systems.
editor by CX 2024-04-12
China Good quality Gum-77 Universal Joints Bearings Gum77 U Cross Joint Bearing Kits 27X65.3mm Manufacturer
Product Description
|
Type |
Universal Joint |
|
Brand |
Huihai |
|
Car Model |
For MITSUBISHI GMB NO. GUM77 KOYO.NO. M2578A MATSUBA NO. UJ617 |
|
OE NO. |
ST-0008 |
| Parameters |
27×81.75/20CR |
|
Condition |
100% new |
|
Warranty |
12 month |
The Universal Joint is a part of variable Angle power transmission, which is used to change the direction of the transmission axis. It is the “joint” part of the universal transmission device of the automobile drive system. The combination of universal joint and transmission shaft is called universal joint transmission device. On the front-engine rear-wheel drive vehicle, the universal joint transmission device is installed between the transmission output shaft and the drive axle main reducer input shaft; The front-engine front-wheel drive vehicle omits the drive shaft, and the universal joint is installed between the front axle axle and the wheel, which is responsible for both driving and steering.
Q1.What is your MOQ?
A: We accept lower quantity for your trial order.
Q2. How long is the production lead time?
A: For some item we keep some stock that can be deliveried in 2 weeks.
Q3.What is your payment term?
A: Discussed! T/T / L/C /Paypal etc.
Q4.Can I customized my own Brand ?
A: Yes, we can do however you need to reach certain quantity for each item
Q5. What is a package?
A: Neutral packaging or customer packaging.
Q6. Can you help with the delivery of the goods?
A: Yes. We can help deliver goods through our customer freight forwarders or our freight forwarders.
Q7. Which port does our company supply?
A: Usually in HangZhou Port. The port specified by the customer is acceptable.
/* 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: | One Year |
|---|---|
| Warranty: | One Year Warranty |
| Condition: | New |
| Color: | Silver |
| Certification: | ISO |
| Structure: | Single |
How do you calculate the torque capacity of a universal joint?
Calculating the torque capacity of a universal joint involves considering various factors such as the joint’s design, material properties, and operating conditions. Here’s a detailed explanation:
The torque capacity of a universal joint is determined by several key parameters:
- Maximum Allowable Angle: The maximum allowable angle, often referred to as the “operating angle,” is the maximum angle at which the universal joint can operate without compromising its performance and integrity. It is typically specified by the manufacturer and depends on the joint’s design and construction.
- Design Factor: The design factor accounts for safety margins and variations in load conditions. It is a dimensionless factor typically ranging from 1.5 to 2.0, and it is multiplied by the calculated torque to ensure the joint can handle occasional peak loads or unexpected variations.
- Material Properties: The material properties of the universal joint’s components, such as the yokes, cross, and bearings, play a crucial role in determining its torque capacity. Factors such as the yield strength, ultimate tensile strength, and fatigue strength of the materials are considered in the calculations.
- Equivalent Torque: The equivalent torque is the torque value that represents the combined effect of the applied torque and the misalignment angle. It is calculated by multiplying the applied torque by a factor that accounts for the misalignment angle and the joint’s design characteristics. This factor is often provided in manufacturer specifications or can be determined through empirical testing.
- Torque Calculation: To calculate the torque capacity of a universal joint, the following formula can be used:
Torque Capacity = (Equivalent Torque × Design Factor) / Safety Factor
The safety factor is an additional multiplier applied to ensure a conservative and reliable design. The value of the safety factor depends on the specific application and industry standards but is typically in the range of 1.5 to 2.0.
It is important to note that calculating the torque capacity of a universal joint involves complex engineering considerations, and it is recommended to consult manufacturer specifications, guidelines, or engineering experts with experience in universal joint design for accurate and reliable calculations.
In summary, the torque capacity of a universal joint is calculated by considering the maximum allowable angle, applying a design factor, accounting for material properties, determining the equivalent torque, and applying a safety factor. Proper torque capacity calculations ensure that the universal joint can reliably handle the expected loads and misalignments in its intended application.
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.
Can you provide examples of vehicles that use universal joints?
Universal joints are commonly used in various types of vehicles for transmitting torque between shafts that are not in a straight line or are at an angle to each other. Here are some examples of vehicles that use universal joints:
- Automobiles: Universal joints are widely used in automobiles for transmitting torque from the engine to the rear wheels in rear-wheel drive vehicles. They are commonly found in the driveline, connecting the transmission or gearbox to the driveshaft, and in the driveshaft itself. Universal joints are also used in front-wheel drive vehicles for transmitting torque from the transaxle to the front wheels.
- Trucks and commercial vehicles: Universal joints are utilized in trucks and commercial vehicles for transmitting torque between various components of the drivetrain. They can be found in the driveshaft, connecting the transmission or gearbox to the rear differential or axle assembly.
- Off-road vehicles and SUVs: Universal joints are extensively used in off-road vehicles and SUVs that have four-wheel drive or all-wheel drive systems. They are employed in the driveline to transmit torque from the transmission or transfer case to the front and rear differentials or axle assemblies.
- Military vehicles: Universal joints are utilized in military vehicles for transmitting torque between different components of the drivetrain, similar to their use in trucks and off-road vehicles. They provide reliable torque transfer in demanding off-road and rugged environments.
- Agricultural and construction machinery: Universal joints are commonly found in agricultural and construction machinery, such as tractors, combines, excavators, loaders, and other heavy equipment. They are used in the drivelines and power take-off (PTO) shafts to transmit torque from the engine or motor to various components, attachments, or implements.
- Marine vessels: Universal joints are employed in marine vessels for transmitting torque between the engine and the propeller shaft. They are used in various types of watercraft, including boats, yachts, ships, and other marine vessels.
- Aircraft: Universal joints are utilized in certain aircraft applications, such as helicopters, to transmit torque between the engine and the rotor assembly. They allow for angular displacement and smooth transmission of power in the complex rotor systems of helicopters.
- Industrial machinery: Universal joints find applications in various types of industrial machinery, including manufacturing equipment, conveyors, pumps, and other power transmission systems. They enable torque transmission between non-aligned or angularly displaced shafts in industrial settings.
Please note that the specific usage of universal joints may vary depending on the vehicle design, drivetrain configuration, and application requirements. Different types of universal joints, such as single joint, double joint, constant velocity (CV) joint, or Cardan joint, may be employed based on the specific needs of the vehicle or machinery.
editor by CX 2024-04-08
China factory Cross Joint Bearing Guh-60 37401-1172 Universal Joint Cross Bearing Manufacturer 40.2X115mm
Product Description
|
Type |
Universal Joint |
|
Brand |
Huihai |
|
Car Model |
For HINO GMB NO. GUH60 MATSUBA NO. UJ510 |
|
OE NO. |
37401-1172 |
| Parameters |
27×81.75/20CR |
|
Condition |
100% new |
|
Warranty |
12 month |
The Universal Joint is a part of variable Angle power transmission, which is used to change the direction of the transmission axis. It is the “joint” part of the universal transmission device of the automobile drive system. The combination of universal joint and transmission shaft is called universal joint transmission device. On the front-engine rear-wheel drive vehicle, the universal joint transmission device is installed between the transmission output shaft and the drive axle main reducer input shaft; The front-engine front-wheel drive vehicle omits the drive shaft, and the universal joint is installed between the front axle axle and the wheel, which is responsible for both driving and steering.
Q1.What is your MOQ?
A: We accept lower quantity for your trial order.
Q2. How long is the production lead time?
A: For some item we keep some stock that can be deliveried in 2 weeks.
Q3.What is your payment term?
A: Discussed! T/T / L/C /Paypal etc.
Q4.Can I customized my own Brand ?
A: Yes, we can do however you need to reach certain quantity for each item
Q5. What is a package?
A: Neutral packaging or customer packaging.
Q6. Can you help with the delivery of the goods?
A: Yes. We can help deliver goods through our customer freight forwarders or our freight forwarders.
Q7. Which port does our company supply?
A: Usually in HangZhou Port. The port specified by the customer is acceptable.
/* 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: | One Year |
|---|---|
| Warranty: | One Year Warranty |
| Condition: | New |
| Color: | Silver |
| Certification: | ISO |
| Structure: | Single |
What are the potential challenges in designing and manufacturing universal joints?
Designing and manufacturing universal joints can present various challenges that need to be addressed to ensure optimal performance and reliability. Here’s a detailed explanation:
1. Misalignment Compensation: Universal joints are primarily designed to accommodate angular misalignment between two shafts. Designing a universal joint that can effectively compensate for misalignment while maintaining smooth power transmission can be challenging. The joint must provide flexibility without sacrificing strength or introducing excessive play, which could lead to vibration, noise, or premature wear.
2. Torque Transmission: Universal joints are often used in applications that require the transfer of high torque loads. Designing the joint to handle these loads without failure or excessive wear is a significant challenge. The selection of appropriate materials, heat treatment processes, and bearing designs becomes crucial to ensure the strength, durability, and reliability of the joint.
3. Lubrication and Sealing: Universal joints require proper lubrication to minimize friction, heat generation, and wear between the moving components. Designing an effective lubrication system that ensures sufficient lubricant supply to all critical areas can be challenging. Additionally, designing seals and protective covers to prevent contamination and retain lubrication presents a challenge, as the joint must maintain flexibility while ensuring adequate sealing.
4. Bearing Design and Wear: Universal joints rely on bearings to facilitate smooth rotation and to support the shafts. Designing the bearing arrangement to withstand the loads, maintain proper alignment, and resist wear is essential. Choosing the appropriate bearing type, such as needle bearings or plain bearings, and optimizing their size, material, and lubrication conditions are key challenges in the design process.
5. Manufacturability: Manufacturing universal joints with precision and consistency can be challenging due to their complex geometries and the need for tight tolerances. The manufacturing process must ensure accurate machining, assembly, and balancing of the joint components to achieve proper fit, alignment, and balance. Specialized machining techniques and quality control measures are often required to meet the desired specifications.
6. Cost and Size Optimization: Designing universal joints that are cost-effective and compact while meeting performance requirements can be a challenging task. Balancing the need for robustness, durability, and material efficiency with cost considerations requires careful engineering and optimization. Designers must strike a balance between performance, weight, space constraints, and manufacturing costs to create an efficient and economical universal joint.
7. Application-Specific Considerations: Designing universal joints for specific applications may introduce additional challenges. Factors such as environmental conditions, temperature extremes, exposure to corrosive substances, high-speed operation, or heavy-duty applications need to be carefully considered and addressed in the design and material selection process. Customization and adaptation of universal joints to meet unique application requirements can pose additional challenges.
Addressing these challenges in the design and manufacturing process requires a combination of engineering expertise, material science knowledge, advanced manufacturing techniques, and thorough testing and validation procedures. Collaboration between design engineers, manufacturing engineers, and quality control personnel is crucial to ensure the successful development and production of reliable universal joints.
In summary, the potential challenges in designing and manufacturing universal joints include misalignment compensation, torque transmission, lubrication and sealing, bearing design and wear, manufacturability, cost and size optimization, and application-specific considerations. Overcoming these challenges requires careful engineering, precision manufacturing processes, and consideration of various factors to achieve high-performance and reliable universal joints.
What is the lifespan of a typical universal joint?
The lifespan of a typical universal joint can vary depending on several factors. Here’s a detailed explanation:
The lifespan of a universal joint depends on various factors, including the quality of the joint, operating conditions, maintenance practices, and the specific application. While it is challenging to provide an exact lifespan, considering the following factors can help estimate the longevity of a universal joint:
- Quality and Materials: The quality of the universal joint and the materials used in its construction play a significant role in determining its lifespan. High-quality joints made from durable materials, such as alloy steels or stainless steels, tend to have longer lifespans compared to lower-quality or less robust joints made from inferior materials.
- Operating Conditions: The operating conditions in which the universal joint is used can significantly impact its lifespan. Factors such as torque levels, rotational speed, angular misalignment, vibration, temperature, and exposure to contaminants can all affect the joint’s performance and longevity. Operating the joint within its specified limits, avoiding excessive or extreme conditions, and providing proper maintenance can help extend its lifespan.
- Maintenance Practices: Regular maintenance is essential for maximizing the lifespan of a universal joint. Proper lubrication, periodic inspection for wear or damage, and timely replacement of worn components can help prevent premature failure. Adhering to the manufacturer’s recommended maintenance schedule and guidelines is crucial to ensure optimal performance and longevity.
- Application Requirements: The specific application requirements and demands placed on the universal joint influence its lifespan. Heavy-duty applications with high torque, frequent load fluctuations, or extreme operating conditions may result in increased stress and wear on the joint, potentially shortening its lifespan. Selecting a universal joint that is specifically designed and rated for the application’s requirements can help ensure a longer lifespan.
Given these factors, it is challenging to provide a precise lifespan for a typical universal joint. In some applications with proper maintenance and suitable operating conditions, a universal joint can last for several years. However, in demanding or harsh operating environments, or if subjected to excessive loads or misalignment, the lifespan of the joint may be shorter, requiring more frequent replacements.
It’s important to consult the manufacturer’s guidelines and recommendations for the specific universal joint being used, as they can provide more accurate information regarding its expected lifespan under different operating conditions. Additionally, monitoring the joint’s performance, conducting regular inspections, and addressing any signs of wear or deterioration can help identify the need for replacement and ensure safe and reliable operation.
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:
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
editor by CX 2024-04-04
China Hot Sale 3429996M1 3765113M1 27×71 mm U Joint Cross & Bearing UNIVERSAL JOINT suitable For Massey Ferguson Tractor Parts manufacturer
Condition: New
Guarantee: 6 Months
Relevant Industries: Lodges, Creating Content Retailers, Manufacturing Plant, Machinery Restore Stores, Farms, House Use, Retail, Construction works , Energy & Mining, Promoting Company
Showroom Place: Thailand, Japan, Malaysia
Movie outgoing-inspection: Supplied
Machinery Test Report: Presented
Marketing and advertising Type: Regular Merchandise
Kind: Bearing
Use: Tractors
Bundle: Regular Deal
Shipping time: Inside 15 Days
Software: Agricultural Mahinery
Name: common joint
Dimensions: 27*seventy one
Major market place: Worldwide
OEM: Accepable
Utilization: Tractor Employ Farm Device
MOQ: 10 Pcs
High quality: Very first-course
Right after Warranty Support: On-line help
Regional Service Location: Thailand, Japan, Manufacturing facility immediate product sales GCR15 Deep Groove Ball Bearing ZZ 2rs1 6209 zz Malaysia
Packaging Details: Normal interior packaging and packing
Port: HangZhou
Items Description Specification
| Part name | Cross & Bearing |
| Replace amount | 3429996M1 3765113M1 |
| Size | 27*71mm |
| Fits | Suitable For massey ferguson 265S, 271, 281, 283UK, 285S, (365, 375 ->SN B18009),383, (390, 390T -> pto shaft plastic cover SN 18009), 393, (398 ->SN 18009), (399 w/ 1006.6 Motor),4225, 4233, 4235, 4240, 4243, 4245, 4253, 4255, extended tail boat motor straightforward V.1 with 6.5hp boat motor 4260, 4263, 4265, 4270,4325, 4335, 4245, 4355, 4360, 4365, 4370, 6265 |
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U Joint Servicing
If your u joint is starting to squeak, it is time for service. A professional u joint service can prevent your u joint from squeaking in the first place, and help you extend its life. You should also keep an eye on the type of u joint you have, its design and load capacity.
Symptoms of a failing u-joint
There are a number of warning signs that your u-joint may be failing. These signs include vibration, clunking, and a loss of steering control. The u-joint is responsible for transmitting torque from the transmission to the wheels. When it starts to fail, it can lead to a very bad accident.
The most common cause of a failing u joint is age and lack of maintenance. U-joints should be greased every 20,000 to 40,000 miles. Additionally, if the u-joint is made of cheap materials, it can dry out and break over time. Getting your vehicle checked for u-joint failure early will not only help keep your car running, but it will also help you save money on repair costs.
Another warning sign of a failing u-joint is a loud bang. This means the driveshaft is loosened. A loose driveshaft can damage the rest of the vehicle. In addition to the annoying noises, a loose driveshaft can also cause serious damage to the car.
If you hear any unusual noises or vibrations coming from your u-joint, you should immediately take your vehicle to a mechanic. Ignoring these noises can result in serious damage and costly repairs. Fortunately, u-joints are relatively inexpensive to replace. Just make sure you buy quality replacement parts from the manufacturer.
A failing u-joint usually gives only a few symptoms, but you should be aware of them. It can also cause your car to make noises and experience difficult handling. If you notice any of these symptoms, it may be a sign that you need to replace your u-joint.
You can also listen for vibrations when you drive. If your u-joint isn’t functioning properly, the vibrations will increase as you accelerate and decelerate. In addition to this, you’ll notice that the vibrations will become louder and higher in pitch as the drive shaft moves faster.
If your u-joint is failing, you should immediately take your vehicle to a mechanic for an examination. If the joint is loose or has become contaminated with dirt or water, it will eventually break and cause severe damage to your car. Ultimately, your car’s wheels may even fall off.
Types of u-joints
There are many different types of u joints. While most of them are similar, there are some differences. Some have grooves or plates while others do not. There are three main types of u-joints: plain, plate, and grooved. Plate-style U-joints feature a flat mounting plate. Grooved-style u-joints have a groove on the bottom. You will find these on a variety of types of u-joints.
U-joints are used in many different applications. They are commonly located on drive shafts and 4WD transfer cases. They also may be on the axle shafts of front-wheel drive vehicles. Some vehicles use another type of u-joint, called a constant-velocity joint (CV-joint), to transfer torque to the front wheels. And in the case of solid front-axle vehicles, there are u-joints behind each front wheel.
Another type of u-joint is the cardan style. This joint operates when the pinion and shafts are at an angle. The cross rotates around the center of the shaft, while the bearing caps rotate around the trunnions. This elliptical path causes a strain on the U-joint.
U-joints are important parts of your vehicle. They are also a part of your car’s drive shaft and should be replaced as often as your vehicle’s drive shaft. Ideally, you should replace u-joints every 50,000 miles, but depending on the type of driving conditions, they may need replacement more often.
You can easily tell if your u-joints are worn by inspecting them. A worn u-joint will give you squeaks or clunks when driving and a dangling driveshaft when braking. Likewise, an uneven seal can let water and foreign material leak.
You can also notice if the U-Joint is dry or over-lubricated by listening to the drive shaft. If you hear vibrations, your drive shaft may be damaged and could be on the verge of failure. If you hear a loud banging sound when driving, you may need to lubricate the U-Joint.
Load capacity
The U joint load capacity is a measurement of the amount of force a U joint can withstand. It is important to note that this capacity may not always be consistent. In addition, it depends on the type of steel used and the size of the bearings and caps. Typically, the load capacity is measured in terms of continuous torque loads that are calculated over the joint’s entire life. A catastrophic failure rating is two to three times the rated yield torque.
The load capacity of a U joint depends on the bending moment generated by the gear spindle, which is a combination of driving torque, operating misalignment angle, and frictional load on the gear teeth. The bending moment of a gear spindle can be up to two to five times that of the U joint. Gear spindle load capacity decreases as the misalignment angle increases, because fewer teeth are in full contact to share the load. However, the torque capacity of a U joint is not significantly affected by misalignment angle. This is because the bearing life is not affected by misalignment angle and does not depend on the misalignment angle.
The CZPT Extreme U joint series offers a number of features to increase its load capacity. These u-joints use needleless bearing caps and high-grade anti-seize lubrication. They are compatible with CZPT 30 axle shafts and CZPT 44 and 60 axles. They also feature full-circle snap rings that virtually eliminate the possibility of ring ejection under load.
A U joint is one of the oldest types of flexible couplings available. It is commonly found in automotive applications. The basic design of a u-joint consists of two shaft yokes arranged at right angles. A four-point cross rides inside the yokes and is attached to bearing caps through snap rings. It is designed to compensate for changes in the angle of the driveline – such as changes in terrain.
U-joints vary in size and type. Some have a narrower range of load capacity than others. Usually, they are 1.5 to 1.8 times more expensive than gear spindles. However, U-joints are more durable and require less cleaning and maintenance. In addition, they require less lubrication and fewer parts to be replaced.
Design
The u joint is one of the oldest flexible couplings. Today, it is commonly used in automobiles. It consists of two shaft yokes that are at right angles to each other. Each shaft yoke is fitted with a four-point cross that rides inside a bearing cap assembly. These components are pressed into eyelets in the yokes. In addition to their functional utility, the joints also have aesthetic value.
While U joints are slightly more expensive than gear spindles, they offer much longer life and require less maintenance. They also require less clean-up and lubricant. U joints are available in several designs. Some designs have a closed eye yoke design that surrounds the bearing housing. Another design uses a split yoke with two halves bolted together.
A single universal joint can transmit a torque of 20 in-lbs. This torque must be transmitted at a speed of 600 RPM. However, the output shaft does not follow the input shaft exactly; instead, it leads or lags the input shaft. This phenomenon is called “use factor”. In Figure 3 we see the angular-velocity variation as a function of operating angle. It also illustrates the peak displacement lead and angular-acceleration ratio.
Another problem with u joints is that they don’t always achieve the expected fatigue life. This can be due to poor lubrication or improper sealing. These can lead to poor traction, causing the u-joint to wear out faster. The increased friction causes increased heat to build up, which reduces its life.
This book contains a graphical method to design a universal joint. It is a preview of the full content available for subscribers. There are dozens of graphical illustrations, an extensive Taxonomy, and dozens of patents that are featured in the book.
The design of a universal joint can be complex. The two shafts in a joint must be linked in a series and must have the same angular-velocity ratio. In addition, the angle between the input shaft and the intermediate shaft must be equal. Moreover, yoke 1 and yoke 2 must be in the plane of input and intermediate shafts.
editor by czh 2023-02-19
China manufacturer made in China – replacement parts – in Pereira Colombia Supplider Wheel Hub Bearing Dac40780040 with top quality
We – EPG Team the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears manufacturing facility in China with 5 diverse branches. For far more particulars: Mobile/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828
China supplider Wheel Hub Bearing DAC40780040
Swift Details:
Model Variety: DAC40780040 Stomach muscles
Outdoors Diameter: 75 mm
Bore Dimension: 40 mm
Thinckness: 39 mm
Sevice: OEM
Assure: One yr
Certification: ISO9001: 2008
Vibration: Zv1, Zv2 and Zv3
Clearance: C0, C2, C3, C4, C5
Payment: T/T, L/C, Westren Union
Specifications:
one. Expert technology
two. Precision devices
three. Consistent good quality
4. Competitve Value
five. Shipping and delivery on time
Packaging & Supply:
Packaging Element: 1. Tube package+carton+pallet 2. Single box package+carton+pallet 3. In accordance to your require to decide on various way of packing
Shipping and delivery Element: 4-thirty days following payment
Application:
–Merchandise commonly used in pulley, toys, home furniture, plane model, textiles, machinery and electronics, energy resources, home appliances, medical gear, motorcycles, and health and fitness equipment and so on.
| Merchandise amount | Equivalent | Application |
| 191598625 | VKBA529 | AUDI REAR |
| 969106800 | VKBA 3441 | SKODA, VW |
| 2013305711 | VKBA 944 | OPEL Entrance/REAR |
| 2101-2403080 | VKBA 973 | LADA, FIAT,POLONEZ REAR |
| seventy seven 01 205 812 | VKBA 3525 | RENAULT |
| DAC 25520037 | FC 12571 S09 | CITROEN AX (ZA) /C2 /C3/Saxo(S8) / Visa/ Xsara / XsaraFL |
| DAC 37720033 | BAH-0051 B | CITROEN C 2-C 3-Saxo-Xsara |
| DAC 42820036 | BAH-0186 | CITROEN Berlingo-C 3-C 4-C five |
| DAC 37720037 | BAH-0012 Advertisement | FIAT Doblo-Brava-Bravo-Linea-Marea-Tempra-Tipo |
| DAC 39720037 | BAH-5716 DX | FORD Fiesta V-Target(98-04)-Fusion |
| DAC 4571037 | BAH-0068 D | FORD Mondeo III 1.8 2. 2.2 Tdci |
| DAC 49840048 | BAHB 329129 | FORD Transit (M 15) |
| DAC 38720040 | DE 571 | HONDA CIVIC |
| DAC 43790041/38 | forty three BWD 08 | HONDA Honda Civic 44300-ST3-E000M1 |
| DAC 38700037 | BAHB 636193 C | EPT Accent-Atos-Rio II-Getz-Lantra II |
| DAC 397434/36 | 396418 | EPT Elantra 1.6 Cerato 1.5 |
| DAC 40740036 | forty BWD fifteen | NIS EPT Nissan 45710-4M400 |
| DAC 42720038 | 42 KWD 02 | NIS EPT Sunny |
| DAC 25520037 | FC 12571 S09 | PEUGEO EPT 106 (S1) (S2) / 205 / 205 (741) / 206 (T1) / 206 SW / 306 (N3) / 306 II (N5) / 309 / 309 II / 1007 |
| DAC 42820036 | BAH-0185 | PEUGEO EPT 206-305-406-Associate |
| DAC 25520037 | FC 4571 S06 | RENAULT Clio I Section 1&2, 3/Clio II,/ Megane 1, 2/Megane Basic Period 1, 2/Modus/R9 /R11 /R19 /Twingo |
| DAC 35650035 | GB 12438 S20P | RENAULT Clio I Section 1&2, 3 / Clio II, II Facelift / R9 / R11 / R19 / Convey I, II / Tremendous 5 / EPT / Twingo (X65) / Added MK |
| DAC 37720037 | BAH-0012 Ad | RENAULT R-19-21-Manager-Specific-Megane I-Clio Sembol Diz. |
| DAC 356833/thirty | 35 BWD 07 | TOYOTA Toyota 90369-35030 |
| DAC 38720036/33 | 38 BWD 12 | TOYOTA Toyota Corolla 1.3 , 1.6 ’87-’94 90369-38016 |
| DAC 39680037 | BAHB 311315 BD | VW eighty-ninety-Golfing II-III-Passat |
| DAC 40720037 | BAHB 311443 B | VW Cordoba-Ibiza II-Polo-Toledo-Caddy II-Golfing II-III-IV |
We – EPG Team the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears manufacturing unit in China with 5 various branches. For a lot more particulars: Cell/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828 The use of original gear manufacturer’s (OEM) component figures or logos , e.g. CASE® and John Deere® are for reference functions only and for indicating product use and compatibility. Our business and the shown replacement areas contained herein are not sponsored, accepted, or manufactured by the OEM.
