Product Description
As a professional manufacturer for propeller shaft, we have +8/8822 0571 8
45710-S10-A01
12344543
27111-SC571
936-571
45710-S9A-E01
936-911
27111-AJ13D
936-034
45710-S9A-J01
936-916
27101-84C/8822 0571 8
45710-S10-A01
12344543
27111-SC571
936-571
45710-S9A-E01
936-911
27111-AJ13D
936-034
45710-S9A-J01
936-916
27101-84C00
for MITSUBISHI/NISSAN
for TOYOTA
CARDONE
OE
CARDONE
OE
65-3009
MR580626
65-5007
37140-35180
65-6000
3401A571
65-9842
37140-35040
65-9480
37000-JM14A
65-5571
37100-3D250
65-9478
37000-S3805
65-5030
37100-34120
65-6004
37000-S4203
65-9265
37110-3D070
65-6571
37041-90062
65-9376
37110-35880
936-262
37041-90014
65-5571
37110-3D220
938-030
37300-F3600
65-5571
37100-34111
936-363
37000-7C002
65-5018
37110-3D060
938-200
37000-7C001
65-5012
37100-5712
for KOREA CAR
for HYUNDAI/KIA
CARDONE
OE
CARDONE
OE
65-3502
49571-H1031
936-211
49100-3E450
65-3503
49300-2S000
936-210
49100-3E400
65-3500
49300-0L000
936-200
49300-2P500
After-sales Service: | 1 Year |
---|---|
Condition: | New |
Color: | Black |
Certification: | ISO, IATF |
Type: | Propeller Shaft/Drive Shaft |
Application Brand: | Nissan, Toyota, Europe Japan Korea |
Samples: |
US$ 300/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
What factors should be considered when selecting the right cardan shaft for an application?
When selecting a cardan shaft for a specific application, several crucial factors need to be considered to ensure optimal performance and longevity. The following factors should be taken into account during the selection process:
1. Torque Requirements:
– One of the primary considerations is the torque requirements of the application. The cardan shaft should be capable of transmitting the required torque without exceeding its rated capacity. It is essential to determine the maximum torque that the shaft will experience during operation and select a cardan shaft that can handle that torque while providing an appropriate safety margin.
2. Speed and RPM:
– The rotational speed or RPM (revolutions per minute) of the application is another critical factor. Cardan shafts have specific rotational speed limits, and exceeding these limits can lead to premature wear, vibration, and failure. It is crucial to select a cardan shaft that is rated for the speed requirements of the application to ensure reliable and smooth operation.
3. Angle of Misalignment:
– The angle of misalignment between the driving and driven components should be considered. Cardan shafts can accommodate angular misalignment up to a certain degree, typically specified by the manufacturer. It is important to select a cardan shaft that can handle the anticipated misalignment angle to ensure proper power transmission and prevent excessive wear or binding.
4. Operating Conditions:
– The operating conditions of the application play a vital role in cardan shaft selection. Factors such as temperature, humidity, presence of corrosive agents, and exposure to vibration or shock need to be considered. It is crucial to select a cardan shaft that is designed to withstand the specific operating conditions to ensure durability and reliability.
5. Length and Size:
– The length and size of the cardan shaft should be chosen appropriately for the application. The length of the shaft affects its ability to absorb vibrations and accommodate misalignments. It is important to consider the available space and the required length to ensure proper fitment and functionality. Additionally, the size of the cardan shaft should be selected based on the load requirements and the available torque capacity.
6. Maintenance and Serviceability:
– Consideration should be given to the ease of maintenance and serviceability of the cardan shaft. Some applications may require regular inspection, lubrication, or replacement of certain components. It is beneficial to select a cardan shaft that allows convenient access for maintenance and incorporates features such as grease fittings or easily replaceable universal joints.
7. Cost and Budget:
– Finally, the cost and budget constraints should be taken into account. Different cardan shaft manufacturers and suppliers may offer varying prices for their products. It is important to balance the desired quality, performance, and durability of the cardan shaft with the available budget.
By carefully considering these factors, engineers and designers can select the right cardan shaft for the application, ensuring optimal performance, longevity, and reliability. Collaboration with cardan shaft manufacturers and suppliers can also provide valuable insights and assistance in making the appropriate selection based on the specific requirements of the application.
How do cardan shafts enhance the performance of trucks and heavy-duty vehicles?
Cardan shafts play a significant role in enhancing the performance of trucks and heavy-duty vehicles. These vehicles often operate under demanding conditions, requiring robust and efficient power transmission systems. Here’s how cardan shafts contribute to the performance of trucks and heavy-duty vehicles:
1. Torque Transmission:
– Cardan shafts enable the efficient transmission of torque from the engine or transmission to the drivetrain and wheels of trucks and heavy-duty vehicles. They can handle high torque loads, ensuring that power is effectively transferred to propel the vehicle forward. This efficient torque transmission enhances acceleration, towing capacity, and overall performance.
2. Power Distribution:
– Trucks and heavy-duty vehicles often have multiple axles or wheels. Cardan shafts distribute power to each axle or wheel, ensuring balanced power delivery. This helps improve traction, stability, and control, especially when carrying heavy loads or operating on challenging terrains. By optimizing power distribution, cardan shafts enhance the vehicle’s performance and handling characteristics.
3. Flexibility and Misalignment Compensation:
– Cardan shafts are designed to accommodate misalignment between the engine, transmission, and drivetrain components. They can handle angular misalignment, parallel offset, and axial displacement. This flexibility allows for smooth power transmission even when the components are not perfectly aligned, reducing stress on the drivetrain and improving performance. It also helps absorb vibrations and shocks, enhancing driver comfort and reducing wear on other vehicle components.
4. Durability and Reliability:
– Heavy-duty vehicles operate in rugged and demanding conditions, such as construction sites, mining operations, or long-haul transportation. Cardan shafts are built to withstand these harsh environments, providing durability and reliability. They are designed using robust materials and undergo rigorous testing to ensure they can handle the high torque, heavy loads, and continuous operation that trucks and heavy-duty vehicles require. This reliability minimizes downtime and maintenance, improving overall vehicle performance.
5. Powertrain Efficiency:
– Cardan shafts help optimize powertrain efficiency in trucks and heavy-duty vehicles. By efficiently transmitting torque and minimizing power loss during power transfer, they contribute to improved fuel economy and reduced energy consumption. This increased efficiency translates to cost savings and reduced environmental impact.
6. Weight Reduction:
– Cardan shafts offer weight reduction benefits for trucks and heavy-duty vehicles. The use of lightweight materials and optimized designs helps reduce the overall weight of the propulsion system. Reduced weight improves fuel efficiency, increases payload capacity, and enhances vehicle maneuverability. Cardan shafts’ compactness and space-saving design also allow for more efficient packaging of the drivetrain components.
7. Adaptability to Various Configurations:
– Trucks and heavy-duty vehicles come in different configurations, such as rear-wheel drive (RWD), front-wheel drive (FWD), or all-wheel drive (AWD). Cardan shafts can be tailored to suit these various drivetrain setups, providing the necessary torque transmission and power distribution for each configuration. This adaptability allows manufacturers to optimize vehicle performance based on specific application requirements.
Overall, cardan shafts enhance the performance of trucks and heavy-duty vehicles by enabling efficient torque transmission, balancing power distribution, compensating for misalignment, providing durability and reliability, optimizing powertrain efficiency, reducing weight, and adapting to various drivetrain configurations. Their role in improving acceleration, towing capacity, traction, and fuel economy contributes to the overall performance and success of these vehicles in demanding environments.
How do cardan shafts contribute to power transmission and motion in various applications?
Cardan shafts, also known as propeller shafts or drive shafts, play a significant role in power transmission and motion in various applications. They are widely used in automotive, industrial, and marine sectors to transfer torque and rotational power between non-aligned components. Cardan shafts offer several benefits that contribute to efficient power transmission and enable smooth motion in different applications. Here’s a detailed look at how cardan shafts contribute to power transmission and motion:
1. Torque Transmission:
– Cardan shafts are designed to transmit torque from a driving source, such as an engine or motor, to a driven component, such as wheels, propellers, or machinery. They can handle high torque loads and transfer power over long distances. By connecting the driving and driven components, cardan shafts ensure the efficient transmission of rotational power, enabling the motion of vehicles, machinery, or equipment.
2. Angular Misalignment Compensation:
– One of the key advantages of cardan shafts is their ability to accommodate angular misalignment between the driving and driven components. The universal joints present in cardan shafts allow for flexibility and articulation, compensating for variations in the relative positions of the components. This flexibility is crucial in applications where the driving and driven components may not be perfectly aligned, such as vehicles with suspension movement or machinery with adjustable parts. The cardan shaft’s universal joints enable the transmission of torque even when there are angular deviations, ensuring smooth power transfer.
3. Axial Misalignment Compensation:
– In addition to angular misalignment compensation, cardan shafts can also accommodate axial misalignment between the driving and driven components. Axial misalignment refers to the displacement along the axis of the shafts. The design of cardan shafts with telescopic sections or sliding splines allows for axial movement, enabling the shaft to adjust its length to compensate for variations in the distance between the components. This feature is particularly useful in applications where the distance between the driving and driven components can change, such as vehicles with adjustable wheelbases or machinery with variable attachment points.
4. Vibration Damping:
– Cardan shafts contribute to vibration damping in various applications. The flexibility provided by the universal joints helps absorb and dampen vibrations generated during operation. By allowing slight angular deflection and accommodating misalignment, cardan shafts help reduce the transmission of vibrations from the driving source to the driven component. This vibration damping feature improves the overall smoothness of operation, enhances ride comfort in vehicles, and reduces stress on machinery.
5. Balancing:
– To ensure smooth and efficient operation, cardan shafts are carefully balanced. Even minor imbalances in rotational components can result in vibration, noise, and reduced performance. Balancing the cardan shaft minimizes these issues by redistributing mass along the shaft, eliminating or minimizing vibrations caused by centrifugal forces. Proper balancing improves the overall stability, reduces wear on bearings and other components, and extends the lifespan of the shaft and associated equipment.
6. Safety Features:
– Cardan shafts often incorporate safety features to protect against mechanical failures. For example, some cardan shafts have guards or shielding to prevent contact with rotating components, reducing the risk of accidents or injuries. In applications where excessive forces or torques can occur, cardan shafts may include safety mechanisms such as shear pins or torque limiters. These features are designed to protect the shaft and other components from damage by shearing or disengaging in case of overload or excessive torque.
7. Versatility in Applications:
– Cardan shafts offer versatility in their applications. They are widely used in various industries, including automotive, agriculture, mining, marine, and industrial sectors. In automotive applications, cardan shafts transmit power from the engine to the wheels, enabling vehicle propulsion. In industrial machinery, they transfer power between motors and driven components such as conveyors, pumps, or generators. In marine applications, cardan shafts transmit power from the engine to propellers, enabling ship propulsion. The versatility of cardan shafts makes them suitable for a wide range of power transmission needs in different environments.
In summary, cardan shafts are essential components that contribute to efficient power transmission and motion in various applications. Their ability to accommodate angular and axial misalignment, dampen vibrations, balance rotational components, and incorporate safety features enables smooth and reliable operation in vehicles, machinery, and equipment. The versatility of cardan shafts makes them a valuable solution for transmitting torque and rotational power in diverse industries and environments.
editor by CX 2023-11-20
China Good quality +800 Items Auto Parts Propeller Shaft Drive Shaft Cardan Shaft Factory for CZPT Honda Jeep Subaru Benz BMW
Product Description
As a professional manufacturer for propeller shaft, we have +8/8822 0571 8
45710-S10-A01
12344543
27111-SC571
936-571
45710-S9A-E01
936-911
27111-AJ13D
936-034
45710-S9A-J01
936-916
27101-84C/8822 0571 8
45710-S10-A01
12344543
27111-SC571
936-571
45710-S9A-E01
936-911
27111-AJ13D
936-034
45710-S9A-J01
936-916
27101-84C00
for MITSUBISHI/NISSAN
for TOYOTA
CARDONE
OE
CARDONE
OE
65-3009
MR580626
65-5007
37140-35180
65-6000
3401A571
65-9842
37140-35040
65-9480
37000-JM14A
65-5571
37100-3D250
65-9478
37000-S3805
65-5030
37100-34120
65-6004
37000-S4203
65-9265
37110-3D070
65-6571
37041-90062
65-9376
37110-35880
936-262
37041-90014
65-5571
37110-3D220
938-030
37300-F3600
65-5571
37100-34111
936-363
37000-7C002
65-5018
37110-3D060
938-200
37000-7C001
65-5012
37100-5712
for KOREA CAR
for HYUNDAI/KIA
CARDONE
OE
CARDONE
OE
65-3502
49571-H1031
936-211
49100-3E450
65-3503
49300-2S000
936-210
49100-3E400
65-3500
49300-0L000
936-200
49300-2P500
After-sales Service: | 1 Year |
---|---|
Condition: | New |
Color: | Black |
Certification: | ISO, IATF |
Type: | Propeller Shaft/Drive Shaft |
Application Brand: | Nissan, Toyota, Europe Japan Korea |
Samples: |
US$ 300/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
Are there any limitations or disadvantages associated with cardan shaft systems?
While cardan shaft systems offer numerous advantages, they also have some limitations and disadvantages that should be considered. Let’s explore these limitations in detail:
1. Angular Misalignment:
– Cardan shafts are designed to accommodate angular misalignment between the driving and driven components. However, excessive misalignment can lead to increased wear, vibration, and decreased efficiency. If the misalignment exceeds the recommended limits, it can put additional stress on the universal joints and other components, reducing the lifespan of the shaft and potentially causing mechanical failures.
2. Noise and Vibration:
– Cardan shaft systems can introduce noise and vibration into the equipment or vehicle. The universal joints and slip yokes in the shaft assembly can generate vibrations as they rotate, especially at high speeds. These vibrations can contribute to increased noise levels, potentially causing discomfort for passengers or affecting the performance of sensitive equipment. Proper balancing and maintenance of the shaft can help mitigate these effects, but they may still be present to some extent.
3. Maintenance and Lubrication:
– Cardan shaft systems require regular maintenance and lubrication to ensure optimal performance and longevity. The universal joints and slip yokes need to be properly lubricated to minimize friction and wear. If maintenance is neglected, the joints can wear out quickly, leading to increased vibration, noise, and potential failure. Regular inspections and lubrication are necessary to maintain the efficiency and reliability of cardan shaft systems.
4. Limited Flexibility in High-Speed Applications:
– Cardan shafts have limitations when it comes to high-speed applications. At high rotational speeds, the centrifugal forces acting on the rotating components can cause significant stress on the shaft and universal joints. This can result in increased wear, reduced lifespan, and potential failure. In such cases, alternative power transmission systems such as constant-velocity (CV) joints or direct drives may be more suitable.
5. Space and Weight Constraints:
– Cardan shaft systems require sufficient space for installation due to their length and telescopic design. In applications with limited space constraints, it may be challenging to accommodate the full length of the shaft, or modifications may be necessary to ensure proper fit. Additionally, the weight of the shaft can be a consideration, especially in applications where weight reduction is crucial. In such cases, alternative lightweight materials or drive systems may be more appropriate.
6. Cost:
– Cardan shaft systems can be relatively costly compared to other power transmission options. The complexity of their design, the need for customization, and the use of multiple components contribute to higher manufacturing and installation costs. However, it’s important to consider the overall benefits and performance of cardan shaft systems when evaluating their cost-effectiveness for specific applications.
7. Limited Misalignment Compensation:
– While cardan shafts can accommodate angular misalignment, they have limitations when it comes to compensating for other types of misalignment, such as parallel offset or axial displacement. In applications that require significant compensation for these types of misalignment, alternative power transmission systems with more advanced flexibility, such as flexible couplings or CV joints, may be more suitable.
Despite these limitations, cardan shaft systems remain widely used and offer numerous advantages in various applications. By understanding these limitations and considering the specific requirements of the application, engineers can make informed decisions regarding the suitability of cardan shaft systems or explore alternative power transmission options.
How do cardan shafts enhance the performance of trucks and heavy-duty vehicles?
Cardan shafts play a significant role in enhancing the performance of trucks and heavy-duty vehicles. These vehicles often operate under demanding conditions, requiring robust and efficient power transmission systems. Here’s how cardan shafts contribute to the performance of trucks and heavy-duty vehicles:
1. Torque Transmission:
– Cardan shafts enable the efficient transmission of torque from the engine or transmission to the drivetrain and wheels of trucks and heavy-duty vehicles. They can handle high torque loads, ensuring that power is effectively transferred to propel the vehicle forward. This efficient torque transmission enhances acceleration, towing capacity, and overall performance.
2. Power Distribution:
– Trucks and heavy-duty vehicles often have multiple axles or wheels. Cardan shafts distribute power to each axle or wheel, ensuring balanced power delivery. This helps improve traction, stability, and control, especially when carrying heavy loads or operating on challenging terrains. By optimizing power distribution, cardan shafts enhance the vehicle’s performance and handling characteristics.
3. Flexibility and Misalignment Compensation:
– Cardan shafts are designed to accommodate misalignment between the engine, transmission, and drivetrain components. They can handle angular misalignment, parallel offset, and axial displacement. This flexibility allows for smooth power transmission even when the components are not perfectly aligned, reducing stress on the drivetrain and improving performance. It also helps absorb vibrations and shocks, enhancing driver comfort and reducing wear on other vehicle components.
4. Durability and Reliability:
– Heavy-duty vehicles operate in rugged and demanding conditions, such as construction sites, mining operations, or long-haul transportation. Cardan shafts are built to withstand these harsh environments, providing durability and reliability. They are designed using robust materials and undergo rigorous testing to ensure they can handle the high torque, heavy loads, and continuous operation that trucks and heavy-duty vehicles require. This reliability minimizes downtime and maintenance, improving overall vehicle performance.
5. Powertrain Efficiency:
– Cardan shafts help optimize powertrain efficiency in trucks and heavy-duty vehicles. By efficiently transmitting torque and minimizing power loss during power transfer, they contribute to improved fuel economy and reduced energy consumption. This increased efficiency translates to cost savings and reduced environmental impact.
6. Weight Reduction:
– Cardan shafts offer weight reduction benefits for trucks and heavy-duty vehicles. The use of lightweight materials and optimized designs helps reduce the overall weight of the propulsion system. Reduced weight improves fuel efficiency, increases payload capacity, and enhances vehicle maneuverability. Cardan shafts’ compactness and space-saving design also allow for more efficient packaging of the drivetrain components.
7. Adaptability to Various Configurations:
– Trucks and heavy-duty vehicles come in different configurations, such as rear-wheel drive (RWD), front-wheel drive (FWD), or all-wheel drive (AWD). Cardan shafts can be tailored to suit these various drivetrain setups, providing the necessary torque transmission and power distribution for each configuration. This adaptability allows manufacturers to optimize vehicle performance based on specific application requirements.
Overall, cardan shafts enhance the performance of trucks and heavy-duty vehicles by enabling efficient torque transmission, balancing power distribution, compensating for misalignment, providing durability and reliability, optimizing powertrain efficiency, reducing weight, and adapting to various drivetrain configurations. Their role in improving acceleration, towing capacity, traction, and fuel economy contributes to the overall performance and success of these vehicles in demanding environments.
What benefits do cardan shafts offer for different types of vehicles and equipment?
Cardan shafts, also known as propeller shafts or drive shafts, offer numerous benefits for different types of vehicles and equipment. Their versatile design and functionality make them an essential component in various applications. Here are the key benefits that cardan shafts provide for different types of vehicles and equipment:
1. Efficient Power Transmission:
– Cardan shafts ensure efficient power transmission from the engine or power source to the wheels or driven components. In vehicles, such as cars, trucks, and buses, cardan shafts transmit torque from the gearbox or transmission to the differential, enabling the wheels to rotate and propel the vehicle forward. In equipment and machinery, cardan shafts transfer rotational power from the power source, such as an engine or motor, to driven components like pumps, conveyors, or generators. By efficiently transmitting power, cardan shafts contribute to the overall performance and productivity of vehicles and equipment.
2. Flexibility and Misalignment Compensation:
– Cardan shafts offer flexibility and the ability to compensate for misalignment between the driving and driven components. This flexibility is crucial in vehicles and equipment where the engine or power source may not be directly aligned with the wheels or driven machinery. Cardan shafts incorporate universal joints at each end, allowing for angular misalignment and accommodating variations in the relative positions of the components. This feature ensures smooth power transmission, reduces stress on the drivetrain, and enhances the overall maneuverability and performance of vehicles and equipment.
3. Adaptability to Variable Configurations:
– Cardan shafts are adaptable to variable configurations and adjustable setups. In vehicles, they can accommodate changes in the wheelbase or suspension system, allowing for different vehicle sizes and configurations. For example, in trucks with multiple axles, cardan shafts can be adjusted to compensate for varying distances between the axles. In equipment and machinery, cardan shafts can be designed with telescopic sections or sliding splines, enabling length adjustment to accommodate changes in the distance between the power source and driven components. This adaptability makes cardan shafts suitable for a wide range of vehicle and equipment configurations.
4. Vibration Damping and Smooth Operation:
– Cardan shafts contribute to vibration damping and enable smooth operation in vehicles and equipment. The universal joints in cardan shafts help absorb and dampen vibrations that may arise from the power source or drivetrain. By allowing slight angular deflection and compensating for misalignment, cardan shafts reduce the transmission of vibrations to the vehicle or equipment, resulting in a smoother and more comfortable ride for passengers or operators. Additionally, the balanced design of cardan shafts minimizes vibration-induced wear and extends the lifespan of associated components.
5. Safety and Protection:
– Cardan shafts incorporate safety features to ensure the protection of both the vehicle or equipment and the operator. For example, in vehicles, cardan shafts often have shielding or guards to prevent contact with rotating components, reducing the risk of accidents or injuries. In some applications, cardan shafts may also include safety mechanisms such as shear pins or torque limiters. These features are designed to protect the shaft and other components from damage by shearing or disengaging in the event of overload or excessive torque, preventing costly repairs and downtime.
6. Suitable for Various Applications:
– Cardan shafts find applications in a wide range of vehicles and equipment across different industries. In the automotive sector, they are used in passenger cars, commercial vehicles, buses, and off-road vehicles to transmit power to the wheels. In the agricultural industry, cardan shafts connect tractors to various implements, such as mowers, balers, or tillers. In the construction and mining sectors, they are employed in machinery like excavators, loaders, and crushers to transfer power to different components. The versatility of cardan shafts makes them well-suited for various applications, providing reliable power transmission and motion.
In summary, cardan shafts offer several benefits for different types of vehicles and equipment. They ensure efficient power transmission, flexibility, and misalignment compensation, adaptability to variable configurations, vibration damping, and smooth operation. Additionally, they incorporate safety features and are suitable for a wide range of applications in automotive, agricultural, construction, and other industries. Cardan shafts play a vital role in enhancing the performance, maneuverability, and safety of vehicles and equipment, contributing to overall productivity and reliability.
editor by CX 2023-11-18
China supplier +800 Items Auto Parts Propeller Shaft Drive Shaft Cardan Shaft Factory for CZPT Honda Jeep Subaru Benz BMW
Product Description
As a professional manufacturer for propeller shaft, we have +8/8822 0571 8
45710-S10-A01
12344543
27111-SC571
936-571
45710-S9A-E01
936-911
27111-AJ13D
936-034
45710-S9A-J01
936-916
27101-84C/8822 0571 8
45710-S10-A01
12344543
27111-SC571
936-571
45710-S9A-E01
936-911
27111-AJ13D
936-034
45710-S9A-J01
936-916
27101-84C00
for MITSUBISHI/NISSAN
for TOYOTA
CARDONE
OE
CARDONE
OE
65-3009
MR580626
65-5007
37140-35180
65-6000
3401A571
65-9842
37140-35040
65-9480
37000-JM14A
65-5571
37100-3D250
65-9478
37000-S3805
65-5030
37100-34120
65-6004
37000-S4203
65-9265
37110-3D070
65-6571
37041-90062
65-9376
37110-35880
936-262
37041-90014
65-5571
37110-3D220
938-030
37300-F3600
65-5571
37100-34111
936-363
37000-7C002
65-5018
37110-3D060
938-200
37000-7C001
65-5012
37100-5712
for KOREA CAR
for HYUNDAI/KIA
CARDONE
OE
CARDONE
OE
65-3502
49571-H1031
936-211
49100-3E450
65-3503
49300-2S000
936-210
49100-3E400
65-3500
49300-0L000
936-200
49300-2P500
After-sales Service: | 1 Year |
---|---|
Condition: | New |
Color: | Black |
Certification: | ISO, IATF |
Type: | Propeller Shaft/Drive Shaft |
Application Brand: | Nissan, Toyota, Europe Japan Korea |
Samples: |
US$ 300/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
| Customized Request |
---|
How do manufacturers ensure the compatibility of cardan shafts with different equipment?
Manufacturers take several measures to ensure the compatibility of cardan shafts with different equipment. These measures involve careful design, engineering, and manufacturing processes to meet the specific requirements of diverse applications. Let’s explore how manufacturers ensure compatibility:
1. Application Analysis:
– Manufacturers begin by analyzing the application requirements and specifications provided by customers. This analysis includes understanding factors such as torque, speed, misalignment, operating conditions, space limitations, and other specific needs. By evaluating these parameters, manufacturers can determine the appropriate design and configuration of the cardan shaft to ensure compatibility with the equipment.
2. Customization Options:
– Manufacturers offer customization options for cardan shafts to meet the unique requirements of different equipment. This includes providing various lengths, sizes, torque capacities, connection methods, and material options. Customers can work closely with manufacturers to select or design a cardan shaft that fits their specific equipment and ensures compatibility with the system’s power transmission needs.
3. Engineering Expertise:
– Manufacturers employ experienced engineers who specialize in cardan shaft design and engineering. These experts have in-depth knowledge of mechanical power transmission and understand the complexities involved in ensuring compatibility. They use their expertise to design cardan shafts that can handle the specific torque, speed, misalignment, and other parameters required by different equipment.
4. Computer-Aided Design (CAD) and Simulation:
– Manufacturers utilize advanced computer-aided design (CAD) software and simulation tools to model and simulate the behavior of cardan shafts in different equipment scenarios. These tools allow engineers to analyze the stress distribution, bearing performance, and other critical factors to ensure the shaft’s compatibility and performance. By simulating the cardan shaft’s behavior under various loading conditions, manufacturers can optimize its design and validate its compatibility.
5. Quality Control and Testing:
– Manufacturers have stringent quality control processes in place to ensure the reliability, durability, and compatibility of cardan shafts. They conduct thorough testing to verify the performance and functionality of the shafts in real-world conditions. This may involve testing for torque capacity, speed limits, vibration resistance, misalignment tolerance, and other relevant parameters. By subjecting the cardan shafts to rigorous testing, manufacturers can ensure their compatibility with different equipment and validate their ability to deliver reliable power transmission.
6. Adherence to Standards and Regulations:
– Manufacturers follow industry standards and regulations when designing and manufacturing cardan shafts. Compliance with these standards ensures that the shafts meet the necessary safety, performance, and compatibility requirements. Examples of such standards include ISO 9001 for quality management and ISO 14001 for environmental management. By adhering to these standards, manufacturers demonstrate their commitment to producing compatible and high-quality cardan shafts.
7. Collaboration with Customers:
– Manufacturers actively collaborate with customers to understand their equipment and system requirements. They engage in discussions, provide technical support, and offer guidance to ensure the compatibility of the cardan shafts. By fostering a collaborative relationship, manufacturers can address specific challenges and tailor the design and specifications of the shaft to meet the unique requirements of different equipment.
In summary, manufacturers ensure the compatibility of cardan shafts with different equipment through application analysis, customization options, engineering expertise, CAD and simulation tools, quality control and testing, adherence to standards, and collaboration with customers. These measures allow manufacturers to design and produce cardan shafts that meet the specific torque, speed, misalignment, and other requirements of various equipment, ensuring optimal compatibility and efficient power transmission.
Are there any emerging trends in cardan shaft technology, such as lightweight materials?
Yes, there are several emerging trends in cardan shaft technology, including the use of lightweight materials and advancements in design and manufacturing techniques. These trends aim to improve the performance, efficiency, and durability of cardan shafts. Here are some of the notable developments:
1. Lightweight Materials:
– The automotive and manufacturing industries are increasingly exploring the use of lightweight materials in cardan shaft construction. Materials such as aluminum alloys and carbon fiber-reinforced composites offer significant weight reduction compared to traditional steel shafts. The use of lightweight materials helps reduce the overall weight of the vehicle or machinery, leading to improved fuel efficiency, increased payload capacity, and enhanced performance.
2. Advanced Composite Materials:
– Advanced composite materials, such as carbon fiber and fiberglass composites, are being utilized in cardan shafts to achieve a balance between strength, stiffness, and weight reduction. These materials offer high tensile strength, excellent fatigue resistance, and corrosion resistance. By incorporating advanced composites, cardan shafts can achieve reduced weight while maintaining the necessary structural integrity and durability.
3. Enhanced Design and Optimization:
– Advanced computer-aided design (CAD) and simulation techniques are being employed to optimize the design of cardan shafts. Finite element analysis (FEA) and computational fluid dynamics (CFD) simulations allow for better understanding of the structural behavior, stress distribution, and performance characteristics of the shafts. This enables engineers to design more efficient and lightweight cardan shafts that meet specific performance requirements.
4. Additive Manufacturing (3D Printing):
– Additive manufacturing, commonly known as 3D printing, is gaining traction in the production of cardan shafts. This technology allows for complex geometries and customized designs to be manufactured with reduced material waste. Additive manufacturing also enables the integration of lightweight lattice structures, which further enhances weight reduction without compromising strength. The flexibility of 3D printing enables the production of cardan shafts that are tailored to specific applications, optimizing performance and reducing costs.
5. Surface Coatings and Treatments:
– Surface coatings and treatments are being employed to improve the durability, corrosion resistance, and friction characteristics of cardan shafts. Advanced coatings such as ceramic coatings, diamond-like carbon (DLC) coatings, and nanocomposite coatings enhance the surface hardness, reduce friction, and protect against wear and corrosion. These treatments extend the lifespan of cardan shafts and contribute to the overall efficiency and reliability of the power transmission system.
6. Integrated Sensor Technology:
– The integration of sensor technology in cardan shafts is an emerging trend. Sensors can be embedded in the shafts to monitor parameters such as torque, vibration, and temperature. Real-time data from these sensors can be used for condition monitoring, predictive maintenance, and performance optimization. Integrated sensor technology allows for proactive maintenance, reducing downtime and improving the overall operational efficiency of vehicles and machinery.
These emerging trends in cardan shaft technology, including the use of lightweight materials, advanced composites, enhanced design and optimization, additive manufacturing, surface coatings, and integrated sensor technology, are driving advancements in the performance, efficiency, and reliability of cardan shafts. These developments aim to meet the evolving demands of various industries and contribute to more sustainable and high-performing power transmission systems.
Can you explain the components and structure of a cardan shaft system?
A cardan shaft system, also known as a propeller shaft or drive shaft, consists of several components that work together to transmit torque and rotational power between non-aligned components. The structure of a cardan shaft system typically includes the following components:
1. Shaft Tubes:
– The shaft tubes are the main structural elements of a cardan shaft system. They are cylindrical tubes made of durable and high-strength materials such as steel or aluminum alloy. The shaft tubes provide the backbone of the system and are responsible for transmitting torque and rotational power. They are designed to withstand high loads and torsional forces without deformation or failure.
2. Universal Joints:
– Universal joints, also known as U-joints or Cardan joints, are crucial components of a cardan shaft system. They are used to connect and articulate the shaft tubes, allowing for angular misalignment between the driving and driven components. Universal joints consist of a cross-shaped yoke with needle bearings at each end. The yoke connects the shaft tubes, while the needle bearings enable the rotational motion and flexibility required for misalignment compensation. Universal joints allow the cardan shaft system to transmit torque even when the driving and driven components are not perfectly aligned.
3. Slip Yokes:
– Slip yokes are components used in cardan shaft systems that can accommodate axial misalignment. They are typically located at one or both ends of the shaft tubes and provide a sliding connection between the shaft and the driving or driven component. Slip yokes allow the shaft to adjust its length and compensate for changes in the distance between the components. This feature is particularly useful in applications where the distance between the driving and driven components can vary, such as vehicles with adjustable wheelbases or machinery with variable attachment points.
4. Flanges and Yokes:
– Flanges and yokes are used to connect the cardan shaft system to the driving and driven components. Flanges are typically bolted or welded to the ends of the shaft tubes and provide a secure connection point. They have a flange face with bolt holes that align with the corresponding flange on the driving or driven component. Yokes, on the other hand, are cross-shaped components that connect the universal joints to the flanges. They have holes or grooves that accommodate the needle bearings of the universal joints, allowing for rotational motion and torque transfer.
5. Balancing Weights:
– Balancing weights are used to balance the cardan shaft system and minimize vibrations. As the shaft rotates, imbalances in the mass distribution can lead to vibrations, noise, and reduced performance. Balancing weights are strategically placed along the shaft tubes to counterbalance these imbalances. They redistribute the mass, ensuring that the rotational components of the cardan shaft system are properly balanced. Proper balancing improves stability, reduces wear on bearings and other components, and enhances the overall performance and lifespan of the shaft system.
6. Safety Features:
– Some cardan shaft systems incorporate safety features to protect against mechanical failures. For example, protective guards or shielding may be installed to prevent contact with rotating components, reducing the risk of accidents or injuries. In applications where excessive forces or torques can occur, cardan shaft systems may include safety mechanisms such as shear pins or torque limiters. These features are designed to protect the shaft and other components from damage by shearing or disengaging in case of overload or excessive torque.
In summary, a cardan shaft system consists of shaft tubes, universal joints, slip yokes, flanges, and yokes, as well as balancing weights and safety features. These components work together to transmit torque and rotational power between non-aligned components, allowing for angular and axial misalignment compensation. The structure and components of a cardan shaft system are carefully designed to ensure efficient power transmission, flexibility, durability, and safety in various applications.
editor by CX 2023-10-24
China 52105728ad Prop Drive Shaft / Propeller Shaft for Jeep Grand Cherokee 2005-2006 Over 600+Items drive shaft shop
Item Description
Propeller Shaft for JEEP |
|||||
OEM |
Application |
OEM |
Application |
||
sixty five-9820 |
for JEEP Cherokee |
52111597AA |
for JEEP Liberty |
||
530 0571 2AC |
for JEEP Cherokee |
sixty five-9326 |
for JEEP Liberty |
||
5215710AD/ 5215710AB |
for JEEP Commander |
sixty five-3/8822 0571 8 |
45710-S10-A01 |
12344543 |
27111-SC571 |
936-571 |
45710-S9A-E01 |
936-911 |
27111-AJ13D |
||
936-034 |
45710-S9A-J01 |
936-916 |
27101-84C00 |
||
for MITSUBISHI/NISSAN |
for TOYOTA |
||||
CARDONE |
OE |
CARDONE |
OE |
||
65-3009 |
MR580626 |
65-5007 |
37140-35180 |
||
sixty five-6000 |
3401A571 |
sixty five-9842 |
37140-35040 |
||
sixty five-9480 |
37000-JM14A |
sixty five-5571 |
37100-3D250 |
||
65-9478 |
37000-S3805 |
65-5030 |
37100-34120 |
||
65-6004 |
37000-S4203 |
sixty five-9265 |
37110-3D070 |
||
sixty five-6571 |
37041-90062 |
sixty five-9376 |
37110-35880 |
||
936-262 |
37041-90014 |
65-5571 |
37110-3D220 |
||
938-030 |
37300-F3600 |
sixty five-5571 |
37100-34111 |
||
936-363 |
37000-7C002 |
65-5018 |
37110-3D060 |
||
938-two hundred |
37000-7C001 |
65-5012 |
37100-5712 |
||
for KOREA Auto |
|||||
for HYUNDAI/KIA |
|||||
CARDONE |
OE |
CARDONE |
OE |
||
sixty five-3502 |
49571-H1031 |
936-211 |
49100-3E450 |
||
65-3503 |
49300-2S000 |
936-210 |
49100-3E400 |
||
65-3500 |
49300-0L000 |
936-two hundred |
49300-2P500 |
KOWA is a particular brand focus on Propeller shaft main for America and Europe market.
It is a model developed by NINGBNO CZPT Vehicle PARTSCo.,ltd, who has been producing
and investing all types of automobile parts for much more than ten several years.
KOWA model with 1 12 months quality assurance at the manufacturing facility price by MOQ 5pcs
After-sales Service: | 1 Year |
---|---|
Condition: | New |
Color: | Black |
Certification: | ISO, Ts16949 |
Type: | Drive Shaft |
Application Brand: | Jeep |
###
Samples: |
US$ 300/Piece
1 Piece(Min.Order) |
---|
###
Customization: |
Available
|
---|
###
Propeller Shaft for JEEP
|
|||
OEM
|
Application
|
OEM
|
Application
|
65-9820
|
for JEEP Cherokee
|
52111597AA
|
for JEEP Liberty
|
53005542AC
|
for JEEP Cherokee
|
65-9326
|
for JEEP Liberty
|
52105760AD/ 52105760AB
|
for JEEP Commander
|
65-3002
|
for JEEP Patriot
|
52853431AA
|
for JEEP Commander
|
65-9766
|
for JEEP Wrangler
|
5273310AB
|
for JEEP Compass
|
65-9765
|
for JEEP Wrangler
|
52853641AD
|
for JEEP Durango
|
65-9315
|
for JEEP Wrangler
|
52853642AD
|
for JEEP Durango
|
65-9316
|
for JEEP Wrangler
|
65-9767
|
for JEEP Grand Cherokee
|
68060040AA
|
for JEEP Grand Cherokee
|
52105728AE
|
for JEEP Grand Cherokee
|
52853646AE
|
for JEEP Grand Cherokee
|
For more items pls contact us
|
###
for AMERICA CAR
|
|||
for BUICK/CADILLAC
|
for CHRYSLER
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-1000
|
22829136
|
65-9196
|
52123196AA
|
65-9353
|
15036982
|
65-3014
|
4593679AC
|
65-1011
|
15902927
|
65-9195
|
52853017AB
|
65-9361
|
22845694
|
65-3013
|
52853017AF
|
65-1010
|
25822589
|
65-3015
|
52123197AA
|
for JEEP
|
for CHEVY/CHEVROLET
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-9766
|
52111597AA
|
65-9146
|
15113831
|
65-9779
|
52123558AA
|
65-9145
|
15763590
|
65-9669
|
52853346AD
|
65-9359
|
15011500
|
65-9773
|
52853321AC
|
65-9348
|
15114531
|
65-9761
|
52105884AA
|
65-9351
|
19259831
|
65-9771
|
52105758AC
|
65-9336
|
19152721
|
65-9765
|
52105726AE
|
65-9344
|
15024402
|
65-9315
|
52123514AD
|
65-9338
|
15109388
|
65-9764
|
52853646AC
|
65-9827
|
15087453
|
65-9326
|
52123627A
|
65-9528
|
15090195
|
65-9767
|
52853119AC
|
65-9333
|
15719954
|
65-3005
|
52853329AB
|
65-9306
|
15769055
|
65-3018
|
52099498AD
|
65-9347
|
25976620
|
65-9324
|
52123612AC
|
65-9369
|
15016994
|
65-9313
|
22713657
|
65-9337
|
15016993
|
65-9776
|
52853432AA
|
65-9339
|
10382040
|
65-9820
|
52099486AC
|
65-9346
|
15024431
|
65-3007
|
52105728AC
|
65-9329
|
15271519
|
65-9751
|
68022107AC
|
65-9527
|
25775919
|
for FORD
|
for DODGE
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-9451
|
F77A4376BB
|
65-9514
|
52105981AC
|
65-9293
|
XL2Z4A376AA
|
65-9327
|
52105993AB
|
65-9453
|
ZZR025100
|
65-9711
|
52853143AB
|
65-9112
|
8L3Z4R602B
|
65-9103
|
52105931AE
|
65-9451
|
5L344K145TC
|
65-9197
|
4593857AB
|
65-9293
|
5L344K145TD
|
65-9539
|
5273310AA
|
65-9792
|
XL2Z-4A376-AA
|
65-9541
|
9064104301
|
65-9462
|
ZZR0-25-100
|
65-9198
|
52853642AC
|
65-9400
|
1L2Z4A376AA
|
65-9536
|
53005551
|
65-9823
|
DL3Z4R602B
|
65-9538
|
52123112AA
|
65-9440
|
6R3Z4602B
|
65-9151
|
52853364AF
|
65-9110
|
7A2Z4R602N
|
65-9534
|
52105860AA
|
65-9114
|
F75Z4A376BB
|
65-9319
|
52853363AB
|
65-9116
|
F81Z4A376PA
|
65-9537
|
52853363AE
|
65-9442
|
5C3Z4A376A
|
65-9548
|
53006781
|
65-9443
|
BL8Z4R602A
|
65-9701
|
68006622AA
|
for GMC/HUMMER
|
|||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-9371
|
25776616
|
65-9492
|
10376298
|
for EUROPE CAR
|
|||
FOR AUDI/BMW
|
for LAND ROVER/VOLVO/VW
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-7011
|
26107551199
|
65-9271
|
TVB000190
|
65-7004
|
26107527355
|
657-050
|
TVB000040
|
65-7045
|
26101226417
|
65-7022
|
LR007035
|
65-7058
|
26111226439
|
65-7012
|
30735027
|
65-7061
|
26103402134
|
65-7009
|
302510056
|
65-7016
|
26203401609
|
65-7010
|
7L6521101G
|
65-7018
|
7L0521101D
|
936-881
|
30735566
|
65-7019
|
7L0521101H
|
936-879
|
31256001
|
65-7020
|
4B0521106C
|
936-877
|
30713272
|
65-7048
|
4F0521101F
|
976-252
|
8689886
|
65-7055
|
4F0521101B
|
936-880
|
30783345
|
65-7017
|
8R0521101B
|
936-876
|
30713371
|
for MERCEDES
|
|||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-7041
|
9064102116
|
65-7042
|
9064100106
|
65-7002
|
9064104406
|
65-7040
|
2E1521293
|
65-7053
|
9064102016
|
65-7003
|
6394103606
|
936-337
|
1634100702
|
936-037
|
2044102601
|
936-321
|
6394107006
|
938-241
|
2514102102
|
for JAPAN CAR
|
|||
for ACURA/HONDA
|
for SUBARU
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-4004
|
40100-S3V-A21
|
65-7013
|
27111-AG01A
|
65-4002
|
40100-S3V-A22
|
65-7032
|
27111-AG05A
|
65-4003
|
40100-TZ6-A21
|
65-7005
|
27111-AG07A
|
986-298
|
40100-S10-A01
|
12344543
|
27111-SC021
|
936-024
|
40100-S9A-E01
|
936-911
|
27111-AJ13D
|
936-034
|
40100-S9A-J01
|
936-916
|
27101-84C00
|
for MITSUBISHI/NISSAN
|
for TOYOTA
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-3009
|
MR580626
|
65-5007
|
37140-35180
|
65-6000
|
3401A022
|
65-9842
|
37140-35040
|
65-9480
|
37000-JM14A
|
65-5023
|
37100-3D250
|
65-9478
|
37000-S3805
|
65-5030
|
37100-34120
|
65-6004
|
37000-S4203
|
65-9265
|
37110-3D070
|
65-6010
|
37041-90062
|
65-9376
|
37110-35880
|
936-262
|
37041-90014
|
65-5027
|
37110-3D220
|
938-030
|
37300-F3600
|
65-5010
|
37100-34111
|
936-363
|
37000-7C002
|
65-5018
|
37110-3D060
|
938-200
|
37000-7C001
|
65-5012
|
37100-04342
|
for KOREA CAR
|
|||
for HYUNDAI/KIA
|
|||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-3502
|
49010-H1031
|
936-211
|
49100-3E450
|
65-3503
|
49300-2S000
|
936-210
|
49100-3E400
|
65-3500
|
49300-0L000
|
936-200
|
49300-2P500
|
After-sales Service: | 1 Year |
---|---|
Condition: | New |
Color: | Black |
Certification: | ISO, Ts16949 |
Type: | Drive Shaft |
Application Brand: | Jeep |
###
Samples: |
US$ 300/Piece
1 Piece(Min.Order) |
---|
###
Customization: |
Available
|
---|
###
Propeller Shaft for JEEP
|
|||
OEM
|
Application
|
OEM
|
Application
|
65-9820
|
for JEEP Cherokee
|
52111597AA
|
for JEEP Liberty
|
53005542AC
|
for JEEP Cherokee
|
65-9326
|
for JEEP Liberty
|
52105760AD/ 52105760AB
|
for JEEP Commander
|
65-3002
|
for JEEP Patriot
|
52853431AA
|
for JEEP Commander
|
65-9766
|
for JEEP Wrangler
|
5273310AB
|
for JEEP Compass
|
65-9765
|
for JEEP Wrangler
|
52853641AD
|
for JEEP Durango
|
65-9315
|
for JEEP Wrangler
|
52853642AD
|
for JEEP Durango
|
65-9316
|
for JEEP Wrangler
|
65-9767
|
for JEEP Grand Cherokee
|
68060040AA
|
for JEEP Grand Cherokee
|
52105728AE
|
for JEEP Grand Cherokee
|
52853646AE
|
for JEEP Grand Cherokee
|
For more items pls contact us
|
###
for AMERICA CAR
|
|||
for BUICK/CADILLAC
|
for CHRYSLER
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-1000
|
22829136
|
65-9196
|
52123196AA
|
65-9353
|
15036982
|
65-3014
|
4593679AC
|
65-1011
|
15902927
|
65-9195
|
52853017AB
|
65-9361
|
22845694
|
65-3013
|
52853017AF
|
65-1010
|
25822589
|
65-3015
|
52123197AA
|
for JEEP
|
for CHEVY/CHEVROLET
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-9766
|
52111597AA
|
65-9146
|
15113831
|
65-9779
|
52123558AA
|
65-9145
|
15763590
|
65-9669
|
52853346AD
|
65-9359
|
15011500
|
65-9773
|
52853321AC
|
65-9348
|
15114531
|
65-9761
|
52105884AA
|
65-9351
|
19259831
|
65-9771
|
52105758AC
|
65-9336
|
19152721
|
65-9765
|
52105726AE
|
65-9344
|
15024402
|
65-9315
|
52123514AD
|
65-9338
|
15109388
|
65-9764
|
52853646AC
|
65-9827
|
15087453
|
65-9326
|
52123627A
|
65-9528
|
15090195
|
65-9767
|
52853119AC
|
65-9333
|
15719954
|
65-3005
|
52853329AB
|
65-9306
|
15769055
|
65-3018
|
52099498AD
|
65-9347
|
25976620
|
65-9324
|
52123612AC
|
65-9369
|
15016994
|
65-9313
|
22713657
|
65-9337
|
15016993
|
65-9776
|
52853432AA
|
65-9339
|
10382040
|
65-9820
|
52099486AC
|
65-9346
|
15024431
|
65-3007
|
52105728AC
|
65-9329
|
15271519
|
65-9751
|
68022107AC
|
65-9527
|
25775919
|
for FORD
|
for DODGE
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-9451
|
F77A4376BB
|
65-9514
|
52105981AC
|
65-9293
|
XL2Z4A376AA
|
65-9327
|
52105993AB
|
65-9453
|
ZZR025100
|
65-9711
|
52853143AB
|
65-9112
|
8L3Z4R602B
|
65-9103
|
52105931AE
|
65-9451
|
5L344K145TC
|
65-9197
|
4593857AB
|
65-9293
|
5L344K145TD
|
65-9539
|
5273310AA
|
65-9792
|
XL2Z-4A376-AA
|
65-9541
|
9064104301
|
65-9462
|
ZZR0-25-100
|
65-9198
|
52853642AC
|
65-9400
|
1L2Z4A376AA
|
65-9536
|
53005551
|
65-9823
|
DL3Z4R602B
|
65-9538
|
52123112AA
|
65-9440
|
6R3Z4602B
|
65-9151
|
52853364AF
|
65-9110
|
7A2Z4R602N
|
65-9534
|
52105860AA
|
65-9114
|
F75Z4A376BB
|
65-9319
|
52853363AB
|
65-9116
|
F81Z4A376PA
|
65-9537
|
52853363AE
|
65-9442
|
5C3Z4A376A
|
65-9548
|
53006781
|
65-9443
|
BL8Z4R602A
|
65-9701
|
68006622AA
|
for GMC/HUMMER
|
|||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-9371
|
25776616
|
65-9492
|
10376298
|
for EUROPE CAR
|
|||
FOR AUDI/BMW
|
for LAND ROVER/VOLVO/VW
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-7011
|
26107551199
|
65-9271
|
TVB000190
|
65-7004
|
26107527355
|
657-050
|
TVB000040
|
65-7045
|
26101226417
|
65-7022
|
LR007035
|
65-7058
|
26111226439
|
65-7012
|
30735027
|
65-7061
|
26103402134
|
65-7009
|
302510056
|
65-7016
|
26203401609
|
65-7010
|
7L6521101G
|
65-7018
|
7L0521101D
|
936-881
|
30735566
|
65-7019
|
7L0521101H
|
936-879
|
31256001
|
65-7020
|
4B0521106C
|
936-877
|
30713272
|
65-7048
|
4F0521101F
|
976-252
|
8689886
|
65-7055
|
4F0521101B
|
936-880
|
30783345
|
65-7017
|
8R0521101B
|
936-876
|
30713371
|
for MERCEDES
|
|||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-7041
|
9064102116
|
65-7042
|
9064100106
|
65-7002
|
9064104406
|
65-7040
|
2E1521293
|
65-7053
|
9064102016
|
65-7003
|
6394103606
|
936-337
|
1634100702
|
936-037
|
2044102601
|
936-321
|
6394107006
|
938-241
|
2514102102
|
for JAPAN CAR
|
|||
for ACURA/HONDA
|
for SUBARU
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-4004
|
40100-S3V-A21
|
65-7013
|
27111-AG01A
|
65-4002
|
40100-S3V-A22
|
65-7032
|
27111-AG05A
|
65-4003
|
40100-TZ6-A21
|
65-7005
|
27111-AG07A
|
986-298
|
40100-S10-A01
|
12344543
|
27111-SC021
|
936-024
|
40100-S9A-E01
|
936-911
|
27111-AJ13D
|
936-034
|
40100-S9A-J01
|
936-916
|
27101-84C00
|
for MITSUBISHI/NISSAN
|
for TOYOTA
|
||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-3009
|
MR580626
|
65-5007
|
37140-35180
|
65-6000
|
3401A022
|
65-9842
|
37140-35040
|
65-9480
|
37000-JM14A
|
65-5023
|
37100-3D250
|
65-9478
|
37000-S3805
|
65-5030
|
37100-34120
|
65-6004
|
37000-S4203
|
65-9265
|
37110-3D070
|
65-6010
|
37041-90062
|
65-9376
|
37110-35880
|
936-262
|
37041-90014
|
65-5027
|
37110-3D220
|
938-030
|
37300-F3600
|
65-5010
|
37100-34111
|
936-363
|
37000-7C002
|
65-5018
|
37110-3D060
|
938-200
|
37000-7C001
|
65-5012
|
37100-04342
|
for KOREA CAR
|
|||
for HYUNDAI/KIA
|
|||
CARDONE
|
OE
|
CARDONE
|
OE
|
65-3502
|
49010-H1031
|
936-211
|
49100-3E450
|
65-3503
|
49300-2S000
|
936-210
|
49100-3E400
|
65-3500
|
49300-0L000
|
936-200
|
49300-2P500
|
Driveshaft structure and vibrations associated with it
The structure of the drive shaft is critical to its efficiency and reliability. Drive shafts typically contain claw couplings, rag joints and universal joints. Other drive shafts have prismatic or splined joints. Learn about the different types of drive shafts and how they work. If you want to know the vibrations associated with them, read on. But first, let’s define what a driveshaft is.
transmission shaft
As the demand on our vehicles continues to increase, so does the demand on our drive systems. Higher CO2 emission standards and stricter emission standards increase the stress on the drive system while improving comfort and shortening the turning radius. These and other negative effects can place significant stress and wear on components, which can lead to driveshaft failure and increase vehicle safety risks. Therefore, the drive shaft must be inspected and replaced regularly.
Depending on your model, you may only need to replace one driveshaft. However, the cost to replace both driveshafts ranges from $650 to $1850. Additionally, you may incur labor costs ranging from $140 to $250. The labor price will depend on your car model and its drivetrain type. In general, however, the cost of replacing a driveshaft ranges from $470 to $1850.
Regionally, the automotive driveshaft market can be divided into four major markets: North America, Europe, Asia Pacific, and Rest of the World. North America is expected to dominate the market, while Europe and Asia Pacific are expected to grow the fastest. Furthermore, the market is expected to grow at the highest rate in the future, driven by economic growth in the Asia Pacific region. Furthermore, most of the vehicles sold globally are produced in these regions.
The most important feature of the driveshaft is to transfer the power of the engine to useful work. Drive shafts are also known as propeller shafts and cardan shafts. In a vehicle, a propshaft transfers torque from the engine, transmission, and differential to the front or rear wheels, or both. Due to the complexity of driveshaft assemblies, they are critical to vehicle safety. In addition to transmitting torque from the engine, they must also compensate for deflection, angular changes and length changes.
type
Different types of drive shafts include helical shafts, gear shafts, worm shafts, planetary shafts and synchronous shafts. Radial protruding pins on the head provide a rotationally secure connection. At least one bearing has a groove extending along its circumferential length that allows the pin to pass through the bearing. There can also be two flanges on each end of the shaft. Depending on the application, the shaft can be installed in the most convenient location to function.
Propeller shafts are usually made of high-quality steel with high specific strength and modulus. However, they can also be made from advanced composite materials such as carbon fiber, Kevlar and fiberglass. Another type of propeller shaft is made of thermoplastic polyamide, which is stiff and has a high strength-to-weight ratio. Both drive shafts and screw shafts are used to drive cars, ships and motorcycles.
Sliding and tubular yokes are common components of drive shafts. By design, their angles must be equal or intersect to provide the correct angle of operation. Unless the working angles are equal, the shaft vibrates twice per revolution, causing torsional vibrations. The best way to avoid this is to make sure the two yokes are properly aligned. Crucially, these components have the same working angle to ensure smooth power flow.
The type of drive shaft varies according to the type of motor. Some are geared, while others are non-geared. In some cases, the drive shaft is fixed and the motor can rotate and steer. Alternatively, a flexible shaft can be used to control the speed and direction of the drive. In some applications where linear power transmission is not possible, flexible shafts are a useful option. For example, flexible shafts can be used in portable devices.
put up
The construction of the drive shaft has many advantages over bare metal. A shaft that is flexible in multiple directions is easier to maintain than a shaft that is rigid in other directions. The shaft body and coupling flange can be made of different materials, and the flange can be made of a different material than the main shaft body. For example, the coupling flange can be made of steel. The main shaft body is preferably flared on at least one end, and the at least one coupling flange includes a first generally frustoconical projection extending into the flared end of the main shaft body.
The normal stiffness of fiber-based shafts is achieved by the orientation of parallel fibers along the length of the shaft. However, the bending stiffness of this shaft is reduced due to the change in fiber orientation. Since the fibers continue to travel in the same direction from the first end to the second end, the reinforcement that increases the torsional stiffness of the shaft is not affected. In contrast, a fiber-based shaft is also flexible because it uses ribs that are approximately 90 degrees from the centerline of the shaft.
In addition to the helical ribs, the drive shaft 100 may also contain reinforcing elements. These reinforcing elements maintain the structural integrity of the shaft. These reinforcing elements are called helical ribs. They have ribs on both the outer and inner surfaces. This is to prevent shaft breakage. These elements can also be shaped to be flexible enough to accommodate some of the forces generated by the drive. Shafts can be designed using these methods and made into worm-like drive shafts.
vibration
The most common cause of drive shaft vibration is improper installation. There are five common types of driveshaft vibration, each related to installation parameters. To prevent this from happening, you should understand what causes these vibrations and how to fix them. The most common types of vibration are listed below. This article describes some common drive shaft vibration solutions. It may also be beneficial to consider the advice of a professional vibration technician for drive shaft vibration control.
If you’re not sure if the problem is the driveshaft or the engine, try turning on the stereo. Thicker carpet kits can also mask vibrations. Nonetheless, you should contact an expert as soon as possible. If vibration persists after vibration-related repairs, the driveshaft needs to be replaced. If the driveshaft is still under warranty, you can repair it yourself.
CV joints are the most common cause of third-order driveshaft vibration. If they are binding or fail, they need to be replaced. Alternatively, your CV joints may just be misaligned. If it is loose, you can check the CV connector. Another common cause of drive shaft vibration is improper assembly. Improper alignment of the yokes on both ends of the shaft can cause them to vibrate.
Incorrect trim height can also cause driveshaft vibration. Correct trim height is necessary to prevent drive shaft wobble. Whether your vehicle is new or old, you can perform some basic fixes to minimize problems. One of these solutions involves balancing the drive shaft. First, use the hose clamps to attach the weights to it. Next, attach an ounce of weight to it and spin it. By doing this, you minimize the frequency of vibration.
cost
The global driveshaft market is expected to exceed (xxx) million USD by 2028, growing at a compound annual growth rate (CAGR) of XX%. Its soaring growth can be attributed to several factors, including increasing urbanization and R&D investments by leading market players. The report also includes an in-depth analysis of key market trends and their impact on the industry. Additionally, the report provides a comprehensive regional analysis of the Driveshaft Market.
The cost of replacing the drive shaft depends on the type of repair required and the cause of the failure. Typical repair costs range from $300 to $750. Rear-wheel drive cars usually cost more. But front-wheel drive vehicles cost less than four-wheel drive vehicles. You may also choose to try repairing the driveshaft yourself. However, it is important to do your research and make sure you have the necessary tools and equipment to perform the job properly.
The report also covers the competitive landscape of the Drive Shafts market. It includes graphical representations, detailed statistics, management policies, and governance components. Additionally, it includes a detailed cost analysis. Additionally, the report presents views on the COVID-19 market and future trends. The report also provides valuable information to help you decide how to compete in your industry. When you buy a report like this, you are adding credibility to your work.
A quality driveshaft can improve your game by ensuring distance from the tee and improving responsiveness. The new material in the shaft construction is lighter, stronger and more responsive than ever before, so it is becoming a key part of the driver. And there are a variety of options to suit any budget. The main factor to consider when buying a shaft is its quality. However, it’s important to note that quality doesn’t come cheap and you should always choose an axle based on what your budget can handle.
editor by czh 2022-12-30
Best Cost made in China – replacement parts – PTO shaft manufacturer & factory Drive jeep tj driveshaft Gear Speed Reducer for Electric Motor with ce certificate top quality low price
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Ever-energy expert in creating all types of mechanical transmission and hydraulic transmission like: planetary gearboxes, worm reducers, in-line helical equipment pace reducers, parallel shaft helical equipment reducers, helical bevel reducers, helical worm gear reducers, agricultural gearboxes, tractor gearboxes, car gearboxes, pto travel shafts, EPT reducer & connected gear factors and other related products, sprockets, hydraulic method, vaccum pumps, fluid coupling, equipment racks, chains, timing pulleys, udl pace variators, v pulleys, hydraulic cylinder, gear pumps, screw air compressors, shaft collars reduced backlash worm reducers and so on. additionally, we can produce personalized variators, geared motors, electric motors and other hydraulic products according to customers’ drawings.
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Mini cycloidal gear motor
Thorough Solution Description
Mini cycloidal gear motor
one.smaller product
2.more compact electricity
3.greater ratio
4.ISO900:2000&CE
Mini cycloidal gea motor
one. Equipment motor have big ratio of deceleration, higher effectiveness.
two.The ratio of gear motor’s deceleration in single-phase is 9-87, in double phase 121-1894, in triple-stage the mechanical
effectiveness of ratio achieve 80%.
three.gear mtor making use of the planetary driving framework and the input shaft and output shaft on the 1 axis.
four.Geat motor making use of rolling bearing for making contact with and substantial-carbonate crsteel(GCr15) hardened by warmth treatment method and with a hardness
up to HRC58-sixty two for the main parts.
five.Apart from all equipment motor’s attributes the ordinary decelerators have, this collection decelerator also functions currently being not simple to
oil leak thanks to the use of grease for lubrication and able to be mounted in any directions to satisfy with the needs of the
users.
Part No.: | 2841325710E |
Type: | Y2E1 132 S-four |
Power: | 5.5 (kW) |
Poles: | 4 |
Mounting: | B3 |
Voltage: | 400/690V |
Speed: | 1400 min-1 |
Automatic China 97 jeep wrangler front drive shaft in Uberlandia Brazil Potato Harvester for Digging Potato Onion Garlic Potato Carrot Harvester Machine with ce certificate top quality low price
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Automated Potato Harvester For Digging Potato Onion garlic potato carrot harvester machine
Advantages:
one.This collection potato harvester not only used for potato and also for sweet potato, garlic, onion and other root crops.
two.4U Series Potato Harvester has the merits of high efficiency, lower breakage, running fast without trembling,
and no blocking by the grasses
3.With ISO certificate and international technology.
4.two several years promise.
Description:
4U collection potato harvester is 3 pointed mounted with the tractor, dirve by rear pto shaft. This tractor potato harvester is supposed for potato excavation , tubers partial separation from the soil and tubers laying on subject surface for their further picking up. A triangular beater is set on the potato harvester.
The functioning theory of this potato harvester is that the digging shovel digs up the soil and crops via the impetus of the tractor. And the digging shovel make crop and soil different although vibration sieve, the soil very first drip down from the clearance of vibration sieve, finally the crop crashed down on to the road from the back.
Machine element:
1.This potato harvester equipment for twenty five-80hp four wheel tractor.
two.Dig the potatoes properly without cutting solitary potato or damaging potato skin.
three.Not to affect the following crop’s growth.
four.Pushed by PTO in rotating pace 540 r/min.
Main Specifications:
Kind | 4UD-one | 4U-one | 4U-two |
All round proportions (L×W×H) (cm) | 240×90×100 | 240×100×100 | 280×220×100 |
Weight(kg) | 180 | 220 | 600 |
Rows | one | one | 2 |
Area of rows | 55-80 | ||
Productiveness(ha/h) | .2-.33 | .two-one.33 | .33-.fifty four |
Working depth (cm) | twenty-35 | ||
Operating width (mm) | 600 | 850 | 1650 |
Netrate of harvesting | 97% | ||
PTO velocity (RPM) | 540/760 | ||
Linkage | three-level mounted | ||
Matched Tractor Energy(hp) | twelve-35 | 15-35 | 50-eighty |
FAQ:
one.After-revenue: usually, this type of device sel EPT happens difficulties. But, if there is any defeacts, just speak to with us, we will consider our ideal to solve your problems and give a hand for fixing your troubles.
2. Totally free parts: free spare components is obtainable for our consumers. If you have other EPT specifications for the components of equipment, we can give you that.
3. Phrases of payment: TT, Western Union, L/C or other ways of payment.
four. Shipping: five-8days soon after getting payment.
five. Warrantee itme: 24 months.
6. Shipping and delivery: by sea, by highway or other techniques which buyer desire.
Welcome to contact us!