Product Description
Product Name | Cardan Shaft |
Product Model | SWC-I75A-335+40 |
Main Material | 35CrMo or 45# Steel |
Nominal Torque | 500 N.M |
Normal Length | 335 mm |
Length Compensation | 40 mm |
/* 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(/(.*?):(.*)$/))&&1
Standard Or Nonstandard: | Nonstandard |
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Shaft Hole: | 19-32 |
Torque: | >80N.M |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | Order Sample |
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Customization: |
Available
| Customized Request |
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.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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Payment Method: |
|
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Initial Payment Full Payment |
Currency: | US$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How do cardan shafts handle variations in length and connection methods?
Cardan shafts are designed to handle variations in length and connection methods, allowing for flexibility in their installation and use. These shafts incorporate several features and mechanisms that enable them to accommodate different lengths and connection methods. Let’s explore how cardan shafts handle these variations:
1. Telescopic Design:
– Cardan shafts often employ a telescopic design, which consists of multiple sections that can slide in and out. These sections allow for adjustment of the overall length of the shaft to accommodate variations in distance between the driving and driven components. By telescoping the shaft, it can be extended or retracted as needed, ensuring proper alignment and power transmission.
2. Slip Yokes:
– Slip yokes are components used in cardan shafts that allow for axial movement. They are typically located at one or both ends of the telescopic sections. Slip yokes provide a sliding connection that compensates for changes in length and helps to maintain proper alignment between the driving and driven components. When the length of the shaft needs to change, the slip yokes slide along the shaft, allowing for the necessary adjustment without disrupting power transmission.
3. Flange Connections:
– Cardan shafts can utilize flange connections to attach the shaft to the driving and driven components. Flange connections provide a secure and rigid connection, ensuring efficient power transfer. The flanges are typically bolted or welded to the shaft and the corresponding components, such as the transmission, differential, or axle. Flange connections allow for easy installation and removal of the cardan shaft while maintaining stability and alignment.
4. Universal Joints:
– Universal joints, or U-joints, are essential components in cardan shafts that allow for angular misalignment between the driving and driven components. They consist of a cross-shaped yoke and needle bearings at each end. The universal joints provide flexibility and compensate for variations in angle and alignment. This flexibility enables cardan shafts to handle different connection methods, such as non-parallel or offset connections, while maintaining efficient power transmission.
5. Splined Connections:
– Some cardan shafts employ splined connections, where the shaft and the driving/driven components have matching splined profiles. Splined connections provide a precise and secure connection that allows for torque transmission while accommodating length variations. The splined profiles enable the shaft to slide in and out, adjusting the length as needed while maintaining a positive connection.
6. Customization and Adaptable Designs:
– Cardan shafts can be customized and designed to handle specific variations in length and connection methods based on the requirements of the application. Manufacturers offer a range of cardan shaft options with different lengths, sizes, and connection configurations. By collaborating with cardan shaft manufacturers and suppliers, engineers can select or design shafts that match the specific needs of their systems, ensuring optimal performance and compatibility.
In summary, cardan shafts handle variations in length and connection methods through telescopic designs, slip yokes, flange connections, universal joints, splined connections, and customizable designs. These features allow the shafts to adjust their length, compensate for misalignment, and establish secure connections while maintaining efficient power transmission. By incorporating these mechanisms, cardan shafts offer flexibility and adaptability in various applications where length variations and different connection methods are encountered.
How do cardan shafts contribute to the efficiency of vehicle propulsion and power distribution?
Cardan shafts play a crucial role in the efficiency of vehicle propulsion and power distribution. They enable the transfer of torque from the engine to the wheels, allowing for effective power transmission and optimized performance. Here’s how cardan shafts contribute to the efficiency of vehicle propulsion and power distribution:
1. Torque Transmission:
– Cardan shafts are responsible for transmitting torque from the engine or power source to the wheels. By efficiently transferring rotational force, they enable propulsion and movement of the vehicle. The design and construction of the cardan shaft ensure minimal power loss during torque transmission, contributing to the overall efficiency of the propulsion system.
2. Power Distribution:
– In vehicles with multiple axles or wheels, cardan shafts distribute power to each axle or wheel, ensuring balanced power delivery. This allows for improved traction, stability, and control, especially in situations such as acceleration, cornering, or off-road driving. By evenly distributing power, cardan shafts optimize the utilization of the available engine power and contribute to the overall efficiency of the vehicle.
3. Flexibility and Misalignment Compensation:
– Cardan shafts offer flexibility and the ability to accommodate misalignment between the engine, drivetrain, and wheels. They can handle angular misalignment, parallel offset, and axial displacement, allowing for smooth power transmission even when the components are not perfectly aligned. This flexibility helps reduce mechanical stresses and energy losses caused by misalignment, thus improving the efficiency of power transfer.
4. Vibration Damping:
– Cardan shafts can help dampen vibrations transmitted from the engine or other drivetrain components. The universal joints in the shaft assembly allow for slight angular movement, which helps absorb and dampen vibrations generated during operation. By reducing vibrations, cardan shafts contribute to a smoother and more efficient power distribution, enhancing overall vehicle performance and comfort.
5. Weight Reduction:
– Cardan shafts, when compared to alternative drivetrain systems such as chain or belt drives, can contribute to weight reduction in vehicles. The use of lightweight materials and optimized designs helps reduce the overall weight of the propulsion system. Reduced weight improves fuel efficiency, as less energy is required to propel the vehicle. Cardan shafts’ compactness and space-saving design also allow for more efficient packaging of the drivetrain components.
6. Durability and Reliability:
– Cardan shafts are designed to withstand the demands of vehicle propulsion and power distribution over extended periods. They are engineered using durable materials and undergo rigorous testing to ensure reliability and longevity. By providing a robust and dependable power transmission solution, cardan shafts contribute to the overall efficiency of the propulsion system by minimizing downtime and maintenance requirements.
Overall, cardan shafts contribute to the efficiency of vehicle propulsion and power distribution by effectively transmitting torque, balancing power distribution, compensating for misalignment, dampening vibrations, reducing weight, and ensuring durability and reliability. Their role in optimizing power transfer and enhancing overall vehicle performance makes cardan shafts an integral component of efficient propulsion 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 2024-03-03
China Hot selling High Quality SWC Industrial Flexible Steel Coupling Without Expansion Flange Type Cross Shaft Universal Coupling
Product Description
SWC Universal Coupling / Cardan shaft for rolling mill
Description:
The SWC-CH long flexible welded universal joint is a Universal joint designed to transmit power between 2 misaligned shafts. It is a flexible coupling, which means it can compensate for misalignment up to 25 degrees. The SWC-CH long bend welded universal coupling is made of 35CrMo material and comes in various sizes to meet the needs of different applications. SWC-CH long bend welded universal couplings are widely used in mechanical applications such as rolling mills, punches, straighteners, crushers, ship transmissions, papermaking equipment, ordinary machinery, water pump equipment, test benches, etc.
Features:
1. Possess the ability to compensate for large angles.
2. The structure is compact and reasonable. The SWC-CH universal coupling is equipped with an integrated fork, making it more reliable in carrying capacity.
3. Carrying capacity. Compared to other types of rotating joint shafts with the same diameter, it provides more torque, limits the turning diameter of mechanical equipment, and has a wider range.
4. High transmission efficiency. Its transmission efficiency is 98-99.8%, suitable for high-power transmission and has energy-saving effect.
5. Smooth carrying, low noise, easy disassembly and maintenance.
Paramters:
Application:
(1) Construction machinery: SWC-CH long flexible welded universal couplings are used in various construction machinery, such as excavators, bulldozers, and cranes. It helps to ensure smooth and efficient operation of the machine, even when the shafts are not fully aligned.
(2) Mining machinery: SWC-CH long flexible welded universal couplings are also used in mining machinery, such as loaders, conveyors, and drilling rigs. It helps to transfer power from the engine to the working components of the machine, even if the shaft is affected by high loads and vibrations.
(3) Agricultural machinery: SWC-CH long flexible welded universal coupling is used for tractors, harvesters, Combine harvester and other agricultural machinery. It helps to ensure smooth and efficient operation of the machine, even when the shafts are not fully aligned.
(4) Marine machinery: SWC-CH long flexible welded universal coupling is used for marine machinery such as ships. It helps to transfer power from the engine to the propeller, even if the shaft is affected by high loads and vibrations.
(5) Power generation equipment: SWC-CH long flexible welded universal coupling is used for power generation equipment, such as turbines and generators. It helps to transfer power from the prime mover to the generator, even if the shafts are not fully aligned.
Packing & shipping:
1 Prevent from damage.
2. As customers’ requirements, in perfect condition.
3. Delivery : As per contract delivery on time
4. Shipping : As per client request. We can accept CIF, Door to Door etc. or client authorized agent we supply all the necessary assistant.
FAQ:
Q 1: Are you a trading company or a manufacturer?
A: We are a professional manufacturer specializing in manufacturing various series of couplings.
Q 2:Can you do OEM?
Yes, we can. We can do OEM & ODM for all the customers with customized artworks in PDF or AI format.
Q 3:How long is your delivery time?
Generally, it is 20-30 days if the goods are not in stock. It is according to quantity.
Q 4: How long is your warranty?
A: Our Warranty is 12 months under normal circumstances.
Q 5: Do you have inspection procedures for coupling?
A:100% self-inspection before packing.
Q 6: Can I have a visit to your factory before the order?
A: Sure, welcome to visit our factory.
/* 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
Standard Or Nonstandard: | Standard |
---|---|
Shaft Hole: | 19-32 |
Torque: | >80N.M |
Bore Diameter: | 19mm |
Speed: | 4000r/M |
Structure: | Flexible |
Customization: |
Available
| Customized Request |
---|
How do cardan shafts handle variations in length and connection methods?
Cardan shafts are designed to handle variations in length and connection methods, allowing for flexibility in their installation and use. These shafts incorporate several features and mechanisms that enable them to accommodate different lengths and connection methods. Let’s explore how cardan shafts handle these variations:
1. Telescopic Design:
– Cardan shafts often employ a telescopic design, which consists of multiple sections that can slide in and out. These sections allow for adjustment of the overall length of the shaft to accommodate variations in distance between the driving and driven components. By telescoping the shaft, it can be extended or retracted as needed, ensuring proper alignment and power transmission.
2. Slip Yokes:
– Slip yokes are components used in cardan shafts that allow for axial movement. They are typically located at one or both ends of the telescopic sections. Slip yokes provide a sliding connection that compensates for changes in length and helps to maintain proper alignment between the driving and driven components. When the length of the shaft needs to change, the slip yokes slide along the shaft, allowing for the necessary adjustment without disrupting power transmission.
3. Flange Connections:
– Cardan shafts can utilize flange connections to attach the shaft to the driving and driven components. Flange connections provide a secure and rigid connection, ensuring efficient power transfer. The flanges are typically bolted or welded to the shaft and the corresponding components, such as the transmission, differential, or axle. Flange connections allow for easy installation and removal of the cardan shaft while maintaining stability and alignment.
4. Universal Joints:
– Universal joints, or U-joints, are essential components in cardan shafts that allow for angular misalignment between the driving and driven components. They consist of a cross-shaped yoke and needle bearings at each end. The universal joints provide flexibility and compensate for variations in angle and alignment. This flexibility enables cardan shafts to handle different connection methods, such as non-parallel or offset connections, while maintaining efficient power transmission.
5. Splined Connections:
– Some cardan shafts employ splined connections, where the shaft and the driving/driven components have matching splined profiles. Splined connections provide a precise and secure connection that allows for torque transmission while accommodating length variations. The splined profiles enable the shaft to slide in and out, adjusting the length as needed while maintaining a positive connection.
6. Customization and Adaptable Designs:
– Cardan shafts can be customized and designed to handle specific variations in length and connection methods based on the requirements of the application. Manufacturers offer a range of cardan shaft options with different lengths, sizes, and connection configurations. By collaborating with cardan shaft manufacturers and suppliers, engineers can select or design shafts that match the specific needs of their systems, ensuring optimal performance and compatibility.
In summary, cardan shafts handle variations in length and connection methods through telescopic designs, slip yokes, flange connections, universal joints, splined connections, and customizable designs. These features allow the shafts to adjust their length, compensate for misalignment, and establish secure connections while maintaining efficient power transmission. By incorporating these mechanisms, cardan shafts offer flexibility and adaptability in various applications where length variations and different connection methods are encountered.
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.
What is a cardan shaft and how does it function in vehicles and machinery?
A cardan shaft, also known as a propeller shaft or drive shaft, is a mechanical component used in vehicles and machinery to transmit torque and rotational power between two points that are not in line with each other. It consists of a tubular shaft with universal joints at each end, allowing for flexibility and accommodating misalignment between the driving and driven components. The cardan shaft plays a crucial role in transferring power from the engine or power source to the wheels or driven machinery. Here’s how it functions in vehicles and machinery:
1. Torque Transmission:
– In vehicles, the cardan shaft connects the transmission or gearbox to the differential, which then distributes torque to the wheels. When the engine generates rotational power, it is transmitted through the transmission to the cardan shaft. The universal joints at each end of the shaft allow for angular misalignment and compensate for variations in the suspension, axle movement, and road conditions. As the cardan shaft rotates, it transfers torque from the transmission to the differential, enabling power delivery to the wheels.
– In machinery, the cardan shaft serves a similar purpose of transmitting torque between the power source and driven components. For example, in agricultural equipment, the cardan shaft connects the tractor’s PTO (Power Take-Off) to various implements such as mowers, balers, or tillers. The rotational power from the tractor’s engine is transferred through the PTO driveline to the cardan shaft, which then transmits the torque to the driven machinery, enabling their operation.
2. Flexibility and Compensation:
– The cardan shaft’s design with universal joints provides flexibility and compensates for misalignment between the driving and driven components. The universal joints allow the shaft to bend and articulate while maintaining a continuous torque transmission. This flexibility is essential in vehicles and machinery where the driving and driven components may be at different angles or positions due to suspension movement, axle articulation, or uneven terrain. The cardan shaft absorbs these variations and ensures smooth power delivery without causing excessive stress or vibration.
3. Balancing and Vibration Control:
– Cardan shafts also contribute to balancing and vibration control in vehicles and machinery. The rotation of the shaft generates centrifugal forces, and any imbalance can result in vibration and reduced performance. To counterbalance this, cardan shafts are carefully designed and balanced to minimize vibration and provide smooth operation. Additionally, the universal joints help in absorbing minor vibrations and reducing their transmission to the vehicle or machinery.
4. Length Adjustment:
– Cardan shafts offer the advantage of adjustable length, allowing for variations in the distance between the driving and driven components. This adjustability is particularly useful in vehicles and machinery with adjustable wheelbases or variable attachment points. By adjusting the length of the cardan shaft, the driveline can be appropriately sized and positioned to accommodate different configurations, ensuring optimal power transmission efficiency.
5. Safety Features:
– Cardan shafts in vehicles and machinery often incorporate safety features to protect against mechanical failures. These may include shielding or guards to prevent contact with rotating components, such as the driveshaft or universal joints. In the event of a joint failure or excessive force, some cardan shafts may also incorporate shear pins or torque limiters to prevent damage to the driveline and protect other components from excessive loads.
In summary, a cardan shaft is a tubular component with universal joints at each end used to transmit torque and rotational power between non-aligned driving and driven components. It provides flexibility, compensates for misalignment, and enables torque transmission in vehicles and machinery. By efficiently transferring power, accommodating variations, and balancing vibrations, cardan shafts play a critical role in ensuring smooth and reliable operation in a wide range of applications.
editor by CX 2024-03-02
China Hot selling Flexible Nonstandard Woodon China Gear Coupling Cardan Shaft Balancing Machine
Product Description
Product Name | Cardan Shaft |
Product Model | SWC-I75A-335+40 |
Main Material | 35CrMo or 45# Steel |
Nominal Torque | 500 N.M |
Normal Length | 335 mm |
Length Compensation | 40 mm |
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Standard Or Nonstandard: | Nonstandard |
---|---|
Shaft Hole: | 19-32 |
Torque: | >80N.M |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | Order Sample |
---|
Customization: |
Available
| Customized Request |
---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
---|
Payment Method: |
|
---|---|
Initial Payment Full Payment |
Currency: | US$ |
---|
Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
---|
Can cardan shafts be adapted for use in both automotive and industrial settings?
Yes, cardan shafts can be adapted for use in both automotive and industrial settings. They are versatile components that offer efficient power transmission and can be customized to meet the specific requirements of various applications. Let’s explore how cardan shafts can be adapted for both automotive and industrial settings:
1. Automotive Applications:
– Cardan shafts have long been used in automotive applications, especially in vehicles with rear-wheel drive or all-wheel drive systems. They are commonly found in cars, trucks, SUVs, and commercial vehicles. In the automotive sector, cardan shafts are primarily used to transmit torque from the engine or transmission to the differential or axle, allowing power to be distributed to the wheels. They provide a reliable and efficient means of transferring power, even in vehicles that experience varying loads, vibration, and misalignment. Cardan shafts in automotive applications are typically designed to handle specific torque and speed requirements, taking into account factors such as vehicle weight, horsepower, and intended use.
2. Industrial Applications:
– Cardan shafts are also widely used in various industrial settings where torque needs to be transmitted between two rotating components. They are employed in a diverse range of industries, including manufacturing, mining, agriculture, construction, and more. In industrial applications, cardan shafts are utilized in machinery, equipment, and systems that require efficient power transmission over long distances or in situations where angular misalignment is present. Industrial cardan shafts can be customized to accommodate specific torque, speed, and misalignment requirements, considering factors such as the load, rotational speed, operating conditions, and space constraints. They are commonly used in applications such as conveyors, pumps, generators, mixers, crushers, and other industrial machinery.
3. Customization and Adaptability:
– Cardan shafts can be adapted for various automotive and industrial applications through customization. Manufacturers offer a range of cardan shaft options with different lengths, sizes, torque capacities, and speed ratings to suit specific requirements. Universal joints, slip yokes, telescopic sections, and other components can be selected or designed to meet the demands of different settings. Additionally, cardan shafts can be made from different materials, such as steel or aluminum alloy, depending on the application’s needs for strength, durability, or weight reduction. By collaborating with cardan shaft manufacturers and suppliers, automotive and industrial engineers can adapt these components to their specific settings, ensuring optimal performance and reliability.
4. Consideration of Application-Specific Factors:
– When adapting cardan shafts for automotive or industrial settings, it is crucial to consider application-specific factors. These factors may include torque requirements, speed limits, operating conditions (temperature, humidity, etc.), space limitations, and the need for maintenance and serviceability. By carefully evaluating these factors and collaborating with experts, engineers can select or design cardan shafts that meet the unique demands of the automotive or industrial application.
In summary, cardan shafts can be adapted and customized for use in both automotive and industrial settings. Their versatility, efficient power transmission capabilities, and ability to accommodate misalignment make them suitable for a wide range of applications. By considering the specific requirements and collaborating with cardan shaft manufacturers, engineers can ensure that these components provide reliable and efficient power transfer in automotive and industrial systems.
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.
What is a cardan shaft and how does it function in vehicles and machinery?
A cardan shaft, also known as a propeller shaft or drive shaft, is a mechanical component used in vehicles and machinery to transmit torque and rotational power between two points that are not in line with each other. It consists of a tubular shaft with universal joints at each end, allowing for flexibility and accommodating misalignment between the driving and driven components. The cardan shaft plays a crucial role in transferring power from the engine or power source to the wheels or driven machinery. Here’s how it functions in vehicles and machinery:
1. Torque Transmission:
– In vehicles, the cardan shaft connects the transmission or gearbox to the differential, which then distributes torque to the wheels. When the engine generates rotational power, it is transmitted through the transmission to the cardan shaft. The universal joints at each end of the shaft allow for angular misalignment and compensate for variations in the suspension, axle movement, and road conditions. As the cardan shaft rotates, it transfers torque from the transmission to the differential, enabling power delivery to the wheels.
– In machinery, the cardan shaft serves a similar purpose of transmitting torque between the power source and driven components. For example, in agricultural equipment, the cardan shaft connects the tractor’s PTO (Power Take-Off) to various implements such as mowers, balers, or tillers. The rotational power from the tractor’s engine is transferred through the PTO driveline to the cardan shaft, which then transmits the torque to the driven machinery, enabling their operation.
2. Flexibility and Compensation:
– The cardan shaft’s design with universal joints provides flexibility and compensates for misalignment between the driving and driven components. The universal joints allow the shaft to bend and articulate while maintaining a continuous torque transmission. This flexibility is essential in vehicles and machinery where the driving and driven components may be at different angles or positions due to suspension movement, axle articulation, or uneven terrain. The cardan shaft absorbs these variations and ensures smooth power delivery without causing excessive stress or vibration.
3. Balancing and Vibration Control:
– Cardan shafts also contribute to balancing and vibration control in vehicles and machinery. The rotation of the shaft generates centrifugal forces, and any imbalance can result in vibration and reduced performance. To counterbalance this, cardan shafts are carefully designed and balanced to minimize vibration and provide smooth operation. Additionally, the universal joints help in absorbing minor vibrations and reducing their transmission to the vehicle or machinery.
4. Length Adjustment:
– Cardan shafts offer the advantage of adjustable length, allowing for variations in the distance between the driving and driven components. This adjustability is particularly useful in vehicles and machinery with adjustable wheelbases or variable attachment points. By adjusting the length of the cardan shaft, the driveline can be appropriately sized and positioned to accommodate different configurations, ensuring optimal power transmission efficiency.
5. Safety Features:
– Cardan shafts in vehicles and machinery often incorporate safety features to protect against mechanical failures. These may include shielding or guards to prevent contact with rotating components, such as the driveshaft or universal joints. In the event of a joint failure or excessive force, some cardan shafts may also incorporate shear pins or torque limiters to prevent damage to the driveline and protect other components from excessive loads.
In summary, a cardan shaft is a tubular component with universal joints at each end used to transmit torque and rotational power between non-aligned driving and driven components. It provides flexibility, compensates for misalignment, and enables torque transmission in vehicles and machinery. By efficiently transferring power, accommodating variations, and balancing vibrations, cardan shafts play a critical role in ensuring smooth and reliable operation in a wide range of applications.
editor by CX 2024-02-21
China wholesaler Woodon Flexible China Cardan Pin Bush Factory Shaft Coupling with Cheap Price
Product Description
Product Name | Cardan Shaft |
Product Model | SWC-I75A-335+40 |
Main Material | 35CrMo or 45# Steel |
Nominal Torque | 500 N.M |
Normal Length | 335 mm |
Length Compensation | 40 mm |
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Standard Or Nonstandard: | Nonstandard |
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Shaft Hole: | 19-32 |
Torque: | >80N.M |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | Order Sample |
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Customization: |
Available
| Customized Request |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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Payment Method: |
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Initial Payment Full Payment |
Currency: | US$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Can cardan shafts be adapted for use in both automotive and industrial settings?
Yes, cardan shafts can be adapted for use in both automotive and industrial settings. They are versatile components that offer efficient power transmission and can be customized to meet the specific requirements of various applications. Let’s explore how cardan shafts can be adapted for both automotive and industrial settings:
1. Automotive Applications:
– Cardan shafts have long been used in automotive applications, especially in vehicles with rear-wheel drive or all-wheel drive systems. They are commonly found in cars, trucks, SUVs, and commercial vehicles. In the automotive sector, cardan shafts are primarily used to transmit torque from the engine or transmission to the differential or axle, allowing power to be distributed to the wheels. They provide a reliable and efficient means of transferring power, even in vehicles that experience varying loads, vibration, and misalignment. Cardan shafts in automotive applications are typically designed to handle specific torque and speed requirements, taking into account factors such as vehicle weight, horsepower, and intended use.
2. Industrial Applications:
– Cardan shafts are also widely used in various industrial settings where torque needs to be transmitted between two rotating components. They are employed in a diverse range of industries, including manufacturing, mining, agriculture, construction, and more. In industrial applications, cardan shafts are utilized in machinery, equipment, and systems that require efficient power transmission over long distances or in situations where angular misalignment is present. Industrial cardan shafts can be customized to accommodate specific torque, speed, and misalignment requirements, considering factors such as the load, rotational speed, operating conditions, and space constraints. They are commonly used in applications such as conveyors, pumps, generators, mixers, crushers, and other industrial machinery.
3. Customization and Adaptability:
– Cardan shafts can be adapted for various automotive and industrial applications through customization. Manufacturers offer a range of cardan shaft options with different lengths, sizes, torque capacities, and speed ratings to suit specific requirements. Universal joints, slip yokes, telescopic sections, and other components can be selected or designed to meet the demands of different settings. Additionally, cardan shafts can be made from different materials, such as steel or aluminum alloy, depending on the application’s needs for strength, durability, or weight reduction. By collaborating with cardan shaft manufacturers and suppliers, automotive and industrial engineers can adapt these components to their specific settings, ensuring optimal performance and reliability.
4. Consideration of Application-Specific Factors:
– When adapting cardan shafts for automotive or industrial settings, it is crucial to consider application-specific factors. These factors may include torque requirements, speed limits, operating conditions (temperature, humidity, etc.), space limitations, and the need for maintenance and serviceability. By carefully evaluating these factors and collaborating with experts, engineers can select or design cardan shafts that meet the unique demands of the automotive or industrial application.
In summary, cardan shafts can be adapted and customized for use in both automotive and industrial settings. Their versatility, efficient power transmission capabilities, and ability to accommodate misalignment make them suitable for a wide range of applications. By considering the specific requirements and collaborating with cardan shaft manufacturers, engineers can ensure that these components provide reliable and efficient power transfer in automotive and industrial systems.
Can cardan shafts be customized for specific vehicle or equipment requirements?
Yes, cardan shafts can be customized to meet the specific requirements of different vehicles or equipment. Manufacturers offer a range of customization options to ensure that the cardan shafts are tailored to the unique needs of each application. Let’s explore how cardan shafts can be customized:
1. Length and Size:
– Cardan shafts can be manufactured in various lengths and sizes to accommodate the specific dimensions of the vehicle or equipment. Manufacturers can customize the overall length of the shaft to ensure proper alignment between the driving and driven components. Additionally, the size of the shaft, including the diameter and wall thickness, can be adjusted to meet the torque and load requirements of the application.
2. Torque Capacity:
– The torque capacity of the cardan shaft can be customized based on the power requirements of the vehicle or equipment. Manufacturers can design and manufacture the shaft with appropriate materials, dimensions, and reinforcement to ensure that it can transmit the required torque without failure or excessive deflection. Customizing the torque capacity of the shaft ensures optimal performance and reliability.
3. Connection Methods:
– Cardan shafts can be customized to accommodate different connection methods based on the specific requirements of the vehicle or equipment. Manufacturers offer various types of flanges, splines, and other connection options to ensure compatibility with the existing drivetrain components. Customizing the connection methods allows for seamless integration of the cardan shaft into the system.
4. Material Selection:
– Cardan shafts can be manufactured using different materials to suit the specific application requirements. Manufacturers consider factors such as strength, weight, corrosion resistance, and cost when selecting the material for the shaft. Common materials used for cardan shafts include steel alloys, stainless steel, and aluminum. By customizing the material selection, manufacturers can optimize the performance and durability of the shaft.
5. Balancing and Vibration Control:
– Cardan shafts can be customized with balancing techniques to minimize vibration and ensure smooth operation. Manufacturers employ dynamic balancing processes to reduce vibration caused by uneven distribution of mass. Customized balancing ensures that the shaft operates efficiently and minimizes stress on other components.
6. Protective Coatings and Finishes:
– Cardan shafts can be customized with protective coatings and finishes to enhance their resistance to corrosion, wear, and environmental factors. Manufacturers can apply coatings such as zinc plating, powder coating, or specialized coatings to prolong the lifespan of the shaft and ensure its performance in challenging operating conditions.
7. Collaboration with Manufacturers:
– Manufacturers actively engage in collaboration with customers to understand their specific vehicle or equipment requirements. They provide technical support and expertise to customize the cardan shaft accordingly. By collaborating closely with manufacturers, customers can ensure that the cardan shaft is designed and manufactured to meet their precise needs.
Overall, cardan shafts can be customized for specific vehicle or equipment requirements in terms of length, size, torque capacity, connection methods, material selection, balancing, protective coatings, and finishes. By leveraging customization options and working closely with manufacturers, engineers can obtain cardan shafts that are precisely tailored to the application’s needs, ensuring optimal performance, efficiency, and compatibility.
What is a cardan shaft and how does it function in vehicles and machinery?
A cardan shaft, also known as a propeller shaft or drive shaft, is a mechanical component used in vehicles and machinery to transmit torque and rotational power between two points that are not in line with each other. It consists of a tubular shaft with universal joints at each end, allowing for flexibility and accommodating misalignment between the driving and driven components. The cardan shaft plays a crucial role in transferring power from the engine or power source to the wheels or driven machinery. Here’s how it functions in vehicles and machinery:
1. Torque Transmission:
– In vehicles, the cardan shaft connects the transmission or gearbox to the differential, which then distributes torque to the wheels. When the engine generates rotational power, it is transmitted through the transmission to the cardan shaft. The universal joints at each end of the shaft allow for angular misalignment and compensate for variations in the suspension, axle movement, and road conditions. As the cardan shaft rotates, it transfers torque from the transmission to the differential, enabling power delivery to the wheels.
– In machinery, the cardan shaft serves a similar purpose of transmitting torque between the power source and driven components. For example, in agricultural equipment, the cardan shaft connects the tractor’s PTO (Power Take-Off) to various implements such as mowers, balers, or tillers. The rotational power from the tractor’s engine is transferred through the PTO driveline to the cardan shaft, which then transmits the torque to the driven machinery, enabling their operation.
2. Flexibility and Compensation:
– The cardan shaft’s design with universal joints provides flexibility and compensates for misalignment between the driving and driven components. The universal joints allow the shaft to bend and articulate while maintaining a continuous torque transmission. This flexibility is essential in vehicles and machinery where the driving and driven components may be at different angles or positions due to suspension movement, axle articulation, or uneven terrain. The cardan shaft absorbs these variations and ensures smooth power delivery without causing excessive stress or vibration.
3. Balancing and Vibration Control:
– Cardan shafts also contribute to balancing and vibration control in vehicles and machinery. The rotation of the shaft generates centrifugal forces, and any imbalance can result in vibration and reduced performance. To counterbalance this, cardan shafts are carefully designed and balanced to minimize vibration and provide smooth operation. Additionally, the universal joints help in absorbing minor vibrations and reducing their transmission to the vehicle or machinery.
4. Length Adjustment:
– Cardan shafts offer the advantage of adjustable length, allowing for variations in the distance between the driving and driven components. This adjustability is particularly useful in vehicles and machinery with adjustable wheelbases or variable attachment points. By adjusting the length of the cardan shaft, the driveline can be appropriately sized and positioned to accommodate different configurations, ensuring optimal power transmission efficiency.
5. Safety Features:
– Cardan shafts in vehicles and machinery often incorporate safety features to protect against mechanical failures. These may include shielding or guards to prevent contact with rotating components, such as the driveshaft or universal joints. In the event of a joint failure or excessive force, some cardan shafts may also incorporate shear pins or torque limiters to prevent damage to the driveline and protect other components from excessive loads.
In summary, a cardan shaft is a tubular component with universal joints at each end used to transmit torque and rotational power between non-aligned driving and driven components. It provides flexibility, compensates for misalignment, and enables torque transmission in vehicles and machinery. By efficiently transferring power, accommodating variations, and balancing vibrations, cardan shafts play a critical role in ensuring smooth and reliable operation in a wide range of applications.
editor by CX 2023-12-28
China Standard Flexible Nonstandard Woodon China Gear Coupling Cardan Shaft Balancing Machine
Product Description
Product Name | Cardan Shaft |
Product Model | SWC-I75A-335+40 |
Main Material | 35CrMo or 45# Steel |
Nominal Torque | 500 N.M |
Normal Length | 335 mm |
Length Compensation | 40 mm |
Standard Or Nonstandard: | Nonstandard |
---|---|
Shaft Hole: | 19-32 |
Torque: | >80N.M |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | Order Sample |
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Customization: |
Available
| Customized Request |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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Payment Method: |
|
---|---|
Initial Payment Full Payment |
Currency: | US$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How do cardan shafts ensure efficient power transfer while maintaining balance?
Cardan shafts are designed to ensure efficient power transfer while maintaining balance between the driving and driven components. They employ various mechanisms and features that contribute to both aspects. Let’s explore how cardan shafts achieve efficient power transfer and balance:
1. Universal Joints:
– Cardan shafts utilize universal joints, also known as U-joints, to transmit torque from the driving component to the driven component. Universal joints consist of a cross-shaped yoke with needle bearings at each end. These needle bearings allow the joints to pivot and accommodate angular misalignment between the driving and driven components. By allowing for flexibility in movement, universal joints ensure efficient power transfer even when the components are not perfectly aligned, minimizing energy losses and maintaining balance.
2. Misalignment Compensation:
– Cardan shafts are designed to compensate for misalignment between the driving and driven components. The universal joints, along with slip yokes and telescopic sections, allow the shaft to adjust its length and accommodate variations in alignment. This misalignment compensation capability ensures that the cardan shaft can transmit power smoothly and efficiently, reducing stress on the components and maintaining balance during operation.
3. Balanced Design:
– Cardan shafts are engineered with a balanced design to minimize vibration and maintain smooth operation. The shaft tubes are typically symmetrically constructed, and the universal joints are positioned to distribute the mass evenly. This balanced design helps to reduce vibration and minimize the occurrence of unbalanced forces that can negatively impact power transfer and overall system performance. By maintaining balance, cardan shafts contribute to efficient power transmission and improve the lifespan of the components involved.
4. High-Quality Materials and Manufacturing:
– The materials used in the construction of cardan shafts, such as steel or aluminum alloy, are carefully selected for their strength, durability, and ability to maintain balance. High-quality materials ensure that the shafts can withstand the torque and operational stresses without deformation or failure, promoting efficient power transfer. Additionally, precise manufacturing processes and quality control measures are employed to ensure that the cardan shafts are accurately balanced during production, further enhancing their efficiency and balance.
5. Regular Maintenance and Inspection:
– To ensure continued efficient power transfer and balance, regular maintenance and inspection of cardan shafts are essential. This includes periodic lubrication of the universal joints, checking for wear or damage, and addressing any misalignment issues. Regular maintenance helps to preserve the balance of the shaft and ensures optimal performance and longevity.
Overall, cardan shafts ensure efficient power transfer while maintaining balance through the use of universal joints for torque transmission, misalignment compensation mechanisms, balanced design, high-quality materials, and regular maintenance. By incorporating these features, cardan shafts contribute to the smooth operation, reliability, and longevity of various applications in automotive, industrial, and other sectors that rely on efficient power transmission.
Can you provide real-world examples of vehicles and machinery that use cardan shafts?
Cardan shafts are widely used in various vehicles and machinery across different industries. They are employed in applications where torque transmission, power distribution, and flexibility are crucial. Here are some real-world examples of vehicles and machinery that utilize cardan shafts:
1. Automotive Vehicles:
– Cars, trucks, and SUVs: Cardan shafts are commonly found in rear-wheel drive (RWD) and four-wheel drive (4WD) vehicles. They connect the transmission or transfer case to the rear differential or front differential, respectively, enabling torque transmission to the wheels. Examples include sedans, pickup trucks, and SUVs like Jeep Wrangler, Ford F-150, and Toyota Land Cruiser.
– Buses and commercial vehicles: Cardan shafts are used in buses and commercial vehicles that have rear-wheel drive or all-wheel drive configurations. They transmit torque from the engine or transmission to the rear axle or multiple axles. Examples include city buses, coaches, and delivery trucks.
2. Off-Road and Utility Vehicles:
– Off-road vehicles: Many off-road vehicles, such as off-road trucks, SUVs, and all-terrain vehicles (ATVs) utilize cardan shafts. These shafts provide the necessary torque transfer and power distribution to all wheels for improved traction and off-road capabilities. Examples include the Land Rover Defender, Jeep Wrangler Rubicon, and Yamaha Grizzly ATV.
– Agricultural machinery: Farm equipment like tractors and combine harvesters often employ cardan shafts to transmit power from the engine to various attachments such as mowers, balers, and harvesters. The shafts enable efficient power distribution and flexibility for different agricultural tasks.
– Construction and mining machinery: Equipment used in construction and mining applications, such as excavators, loaders, and bulldozers, utilize cardan shafts to transfer power from the engine or transmission to the different components of the machinery. These shafts enable power distribution and torque transmission to various attachments, allowing for efficient operation in demanding environments.
3. Industrial Machinery:
– Manufacturing machinery: Cardan shafts are used in industrial equipment such as conveyors, mixers, and rotary equipment. They provide torque transmission and power distribution within the machinery, enabling efficient operation and movement of materials.
– Paper and pulp industry: Cardan shafts are employed in paper and pulp processing machinery, including paper machines and pulp digesters. These shafts facilitate power transmission and torque distribution to various parts of the machinery, contributing to smooth operation and high productivity.
– Steel and metal processing machinery: Equipment used in steel mills and metal processing facilities, such as rolling mills, extruders, and coil winding machines, often utilize cardan shafts. These shafts enable power transmission and torque distribution to the different components involved in metal forming, shaping, and processing.
These examples represent just a few of the many applications where cardan shafts are employed. Their versatility, durability, and ability to handle torque transmission and power distribution make them essential components in a wide range of vehicles and machinery across industries.
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 2023-11-10
Best Cost made in China – replacement parts – PTO shaft manufacturer & factory Flexible cutting a pto shaft Double-Disc Coupling Diaphragm Coupling Manufacturer with ce certificate top quality low price
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JMIJ Type With Intermediate Diaphragm Shaft Coupling (JMIJ)
JM collection diaphragm adaptable coupling is widely utilised in equipment and products business, metallurgy, mines, petroleum, chemical, electric electrical power, shipbuilding, lifting transportation, textile, light-weight industry, agricultural machinery, printing equipment and water pump, fan, and so forth. in the transmission of energy machine.
The principal attributes of JM Collection Diaphragm Coupling:
one.Compensation two axis misalignment of the capability, and tooth kind coupling can be considerably a lot more than a double angle displacement, radial displacement of the tiny, versatile, enabling a particular axial, radial and angular displacement.
two. Obvious damping effect, no sounds, no put on and tear.
3.Substantial transmission effectiveness, up to ninety nine.86%. Specially suited for medium and substantial speed large electricity transmission.
four.Adapt to large temperature (-eighty+300) and harsh atmosphere, and can be in shock, vibration, basic safety and dynamic situations.
five.Basic framework, gentle excess weight, tiny size, convenient assembly and disassembly. Without relocating the device can be disassembled (with intermediate type), no require of lubrication.
6.Correctly express the rotational speed, the operation has not turned undesirable, can be utilized for the transmission of precision machinery.
JM sequence diaphragm adaptable coupling is commonly utilised in equipment and products industry, metallurgy, mines, petroleum, chemical, electric powered power, shipbuilding, lifting transport, textile, gentle market, agricultural equipment, printing machinery and water pump, admirer, and so forth. in the transmission of energy device.
JMIJ Sort Diaphragm Coupling Principal Dimension(JB/T9147-1999)
Type | Nominal torque Tn |
Peak torque Tmax |
Max Speed np |
Bore diameter d |
Bore Length | D | t | Ltwo min |
Mass | Rotary inertia | |||
Y kind | J,J1,Z,Z1 sort | L(advise) | |||||||||||
L | L | Lone | |||||||||||
N·m | N·m | r·min-one | mm | kg | kg·mtwo | ||||||||
JMIJ1 | 25 | 80 | 6000 | 14 | 32 | – | J127 Zone20 |
35 | 90 | 8.eight | 100 | 1.8 | 0.0013 |
sixteen,18,19 | 42 | thirty | |||||||||||
twenty,22 | fifty two | 38 | |||||||||||
JMIJ2 | 63 | 180 | 5000 | eighteen,19 | forty two | 30 | 45 | 100 | 9.5 | 2.4 | 0.002 | ||
20,22,24 | 52 | 38 | |||||||||||
25 | 62 | forty four | |||||||||||
JMIJ3 | 100 | 315 | 5000 | twenty,22,24 | fifty two | – | 38 | 50 | 120 | 11 | 120 | 4.one | 0.0047 |
twenty five,28 | sixty two | forty four | |||||||||||
30 | 82 | sixty | |||||||||||
JMIJ4 | 160 | 500 | 4500 | 24 | 52 | 38 | 55 | 130 | 12.five | 5.four | 0.0069 | ||
twenty five,28 | sixty two | forty four | |||||||||||
thirty,32,35 | 82 | sixty | |||||||||||
JMIJ5 | 250 | 710 | 4000 | 28 | 62 | 44 | 60 | 150 | 14 | 140 | 8.8 | 0.5711 | |
30,32,35,38 | 82 | 60 | |||||||||||
40 | 112 | 84 | |||||||||||
JMIJ6 | 400 | 1120 | 3600 | 32,35,38 | eighty two | eighty two | 60 | 65 | 170 | 15.5 | 13.4 | 0.5711 | |
40,42,45,48, 50 |
112 | 112 | eighty four | ||||||||||
JMIJ7 | 630 | 1800 | 3000 | forty,42,45,forty eight, 50,fifty five,fifty six |
112 | 112 | eighty four | 70 | 210 | 19 | 150 | 22.three | 0..76 |
60 | 142 | – | 107 | ||||||||||
JMIJ8 | 1000 | 2500 | 2800 | 45,forty eight,fifty,55, 56 |
112 | 112 | eighty four | 80 | 240 | 22.five | 180 | 36 | 0.1602 |
sixty,63,sixty five,70 | 142 | 107 | |||||||||||
JMIJ9 | 1600 | 4000 | 2500 | fifty five,fifty six | 112 | 84 | 85 | 260 | 24 | 220 | 48 | 0.2509 | |
sixty,63,70,71, 75 |
142 | 107 | |||||||||||
80 | 172 | 132 | |||||||||||
JMIJ10 | 2500 | 6300 | 2000 | sixty three,65,70,seventy one,75 | 142 | 142 | 107 | 90 | 280 | 17 | 250 | 85 | 0.5159 |
eighty,eighty five,ninety,95 | 172 | – | 132 | ||||||||||
JMIJ11 | 4000 | 9000 | 1800 | 75 | 142 | 142 | 107 | 95 | 300 | 19.5 | 290 | 112 | 0.8223 |
eighty,85,90,ninety five | 172 | 172 | 132 | ||||||||||
100,110 | 212 | – | 167 | ||||||||||
JMIJ12 | 6300 | 12500 | 1600 | 90,95 | 172 | 132 | 120 | 340 | 23 | 300 | 152 | 1.4109 | |
one hundred,one hundred ten,one hundred twenty,one hundred twenty five | 212 | 167 |
Production Photos
♦Other Merchandise Checklist
Transmission Machinery Components Name |
Product |
Universal Coupling | WS,WSD,WSP |
Cardan Shaft | SWC,SWP,SWZ |
Tooth Coupling | CL,CLZ,GCLD,GIICL, GICL,NGCL,GGCL,GCLK |
Disc Coupling | JMI,JMIJ,JMII,JMIIJ |
Higher Adaptable Coupling | LM |
Chain Coupling | GL |
Jaw Coupling | LT |
Grid Coupling | JS |
♦Our Organization
Our firm supplies different varieties of products. Substantial high quality and affordable value. We adhere to the principle of “high quality initial, service 1st, ongoing improvement and innovation to satisfy the consumers” for the administration and “zero defect, zero grievances” as the top quality goal. To EPT our provider, we offer the items with excellent quality at the affordable value.
Welcome to customise products from our manufacturing facility and make sure you give your design drawings or speak to us if you want other requirements.
♦Our Services
1.Design and style Providers
Our style team has expertise in cardan shaft relating to solution design and style and growth. If you have any wants for your new product or desire to make additional enhancements, we are right here to provide our assist.
2.Merchandise Services
raw materia EPT → Reducing → Forging →Rough machining →Shot blasting →Heat treatment method →Testing →Fashioning →Cleaning→ Assembly→Packing→Shipping
three.Samples Procedure
We could create the sample according to your need and amend the sample continuously to meet up with your want.
four.Analysis & Advancement
We normally investigation the new demands of the industry and create the new model when there is new automobiles in the marketplace.
five.Good quality Management
Every phase should be EPT check by Skilled Staff in accordance to the stHangZhourd of ISO9001 and TS16949.
♦FAQ
Q 1: Are you investing business or manufacturer?
A: We are a expert producer specializing in manufacturing
numerous series of couplings.
Q 2:Can you do OEM?
Indeed, we can. We can do OEM & ODM for all the clients with tailored artworks of PDF or AI format.
Q 3:How extended is your shipping time?
Normally it is 20-30 times if the products are not in stock. It is according to quantity.
Q 4: Do you offer samples ? Is it free or extra ?
Of course, we could offer you the sample but not for free of charge.Truly we have a very very good price tag theory, when you make the bulk order then value of sample will be deducted.
Q 5: How long is your guarantee?
A: Our Guarantee is twelve thirty day period beneath typical circumstance.
Q 6: What is the MOQ?
A:Normally our MOQ is 1pcs.
Q 7: Do you have inspection methods for coupling ?
A:100% self-inspection prior to packing.
Q 8: Can I have a pay a visit to to your manufacturing facility before the get?
A: Sure,welcome to check out our manufacturing facility.
Q 9: What is actually your payment?
A:1) T/T. 2) L/C
♦Speak to Us
World wide web:
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JS500 Series Grid Coupling
Grid Coupling is commonly utilized in metallurgy, mining, lifting, transportation, petroleum, chemical, ships, textile, light-weight business, agricultural machinery, printing machines and pumps, followers, compressors, machine way too EPT and other mechanical products and industry shaft transmission.
♦Attribute
one.The serpentine spring as the elastic component, the elastic sturdy at the identical time, tremendously increases the grid coupling torque, commonly employed in heavy equipment and general equipment.The serpentine spring EPT technological innovation department, has extended service lifestyle, enabling higher velocity, has very good capability to compensate in the axial, radial and angle
2.Substantial transmission performance, commence basic safety. Transmission effectiveness of up to 99.47%, limited-time overload potential is two times the rated torque, operation protection.
three.Straightforward framework, convenient assembly and disassembly, extended support existence
four.Damping influence is great to steer clear of the resonance.
♦Basic Parameter And Primary Dimension
Model | Nominal Torque Nm |
Speed r/min |
Y,Z Bore d1,dtwo |
A | BE Min |
D | E | N | L | M | P | J | SB | SD | Clearance (K) | No bore mass Kg |
|||
Max | Min | Min | StHangZhourd | Max | |||||||||||||||
JS502 | 125 | 4500 | 35 | 14 | fifty | one hundred sixty | 120 | eighty | 80 | 52 | seventy eight | 27 | 50 | 32 | 38 | 1.five | three | 5 | four |
JS504 | four hundred | 4500 | forty eight | 14 | sixty five | 195 | one hundred sixty | one hundred and five | one hundred and five | 62 | ninety five | 36 | 60 | 32 | 38 | one.5 | three | five | nine |
JS506 | 900 | 3900 | 65 | 19 | ninety | 210 | 185 | a hundred twenty five | a hundred thirty | eighty two | 105 | 50 | 65 | 45 | fifty | one.five | 3 | 5 | 15.five |
JS507 | 1800 | 3500 | seventy five | 28 | 105 | 275 | 218 | 150 | 156 | 112 | one hundred thirty five | fifty two | 86 | 60 | 65 | one.5 | three | five | 26 |
JS508 | 3150 | 3500 | eighty five | 28 | a hundred twenty five | 295 | 245 | a hundred and eighty | one hundred seventy five | 112 | a hundred forty five | 58 | ninety two | 70 | 75 | 1.5 | 3 | 5 | 37 |
JS509 | 5600 | 2450 | 100 | 42 | 140 | 370 | 286 | 210 | 208 | 142 | a hundred and eighty | 70 | 118 | 90 | ninety five | one.5 | three | five | 63 |
JS510 | 8000 | 2300 | 110 | forty two | one hundred sixty | 390 | 325 | 245 | 230 | 142 | 190 | 74 | a hundred twenty five | one hundred | one zero five | one.5 | 4 | 6.5 | 83 |
JS511 | 12500 | 2000 | one hundred twenty five | sixty | a hundred and eighty | 450 | 330 | a hundred and eighty | 258 | 142 | 220 | 85 | one hundred fifty | a hundred and fifteen | a hundred and twenty | one.5 | four | six.five | 97 |
JS512 | 18000 | 1800 | a hundred and fifty | 70 | 220 | 465 | 365 | 220 | 295 | 172 | 225 | 95 | a hundred and fifty | 130 | one hundred thirty five | one.5 | six | ten | 139 |
JS513 | 25000 | 1600 | one hundred eighty | 70 | 255 | 480 | 420 | 255 | 335 | 172 | 235 | 115 | 156 | a hundred and forty | one hundred forty five | 1.5 | 6 | 10 | 208 |
JS514 | 35500 | 1500 | 200 | one hundred ten | 270 | 550 | 480 | 270 | 390 | 212 | 270 | one zero five | 178 | 160 | a hundred sixty five | three | six | 13 | 275 |
JS515 | 50000 | 1300 | 220 | a hundred and twenty | 305 | 590 | 550 | 305 | 440 | 212 | 290 | a hundred and ten | 190 | 200 | 205 | 3 | 6 | thirteen | 378 |
JS516 | 63000 | 1200 | 250 | 130 | 360 | 620 | 605 | 355 | 495 | 252 | 305 | 125 | two hundred | 200 | 205 | 3 | six | 13 | 515 |
JS517 | 90000 | 1100 | 275 | 395 | 675 | 665 | 395 | 550 | 252 | 330 | one hundred forty | 227 | 225 | 230 | three | 6 | thirteen | 712 | |
JS518 | 125000 | 1000 | 305 | 440 | 710 | 710 | 430 | 600 | 302 | 350 | 160 | 242 | 250 | 255 | three | six | 13 | 890 | |
JS519 | 180000 | 900 | 330 | 500 | 745 | 780 | 495 | 660 | 302 | 365 | one hundred seventy five | 252 | 275 | 280 | three | six | thirteen | 1196 |
♦Product Screen
♦Other Products Listing
Transmission Machinery Areas Title |
Design |
Common Coupling | WS,WSD,WSP |
Cardan Shaft | SWC,SWP,SWZ |
Tooth Coupling | CL,CLZ,GCLD,GIICL, GICL,NGCL,GGCL,GCLK |
Disc Coupling | JMI,JMIJ,JMII,JMIIJ |
Large Adaptable Coupling | LM |
Chain Coupling | GL |
Jaw Coupling | LT |
Grid Coupling | JS |
♦Our Firm
Our firm materials distinct kinds of goods. Substantial top quality and sensible price tag. We stick to the principle of “good quality first, provider initial, continuous enhancement and innovation to satisfy the customers” for the management and “zero defect, zero grievances” as the good quality aim. To EPT our support, we offer the goods with excellent quality at the reasonable price.
Welcome to customize merchandise from our manufacturing unit and please supply your design drawings or get in touch with us if you need to have other specifications.
♦Our Companies
1.Style Services
Our layout staff has experience in cardan shaft relating to solution design and style and development. If you have any wants for your new solution or desire to make more improvements, we are right here to offer our assistance.
two.Item Solutions
raw materia EPT → Reducing → Forging →Rough machining →Shot blasting →Heat treatment →Testing →Fashioning →Cleaning→ Assembly→Packing→Shipping
three.Samples Procedure
We could produce the sample in accordance to your requirement and amend the sample continuously to fulfill your require.
4.Analysis & Development
We normally investigation the new requirements of the market and develop the new product when there is new cars in the marketplace.
five.High quality Control
Each and every step should be EPT examination by Professional Employees according to the stHangZhourd of ISO9001 and TS16949.
♦FAQ
Q 1: Are you investing firm or company?
A: We are a professional manufacturer specializing in producing
various series of couplings.
Q 2:Can you do OEM?
Indeed, we can. We can do OEM & ODM for all the consumers with personalized artworks of PDF or AI structure.
Q 3:How lengthy is your delivery time?
Typically it is 20-30 times if the merchandise are not in inventory. It is in accordance to amount.
Q 4: Do you give samples ? Is it totally free or extra ?
Sure, we could offer you the sample but not for free.Truly we have a really great value principle, when you make the bulk get then cost of sample will be deducted.
Q 5: How extended is your warranty?
A: Our Guarantee is twelve thirty day period underneath normal circumstance.
Q 6: What is the MOQ?
A:Usually our MOQ is 1pcs.
Q 7: Do you have inspection methods for coupling ?
A:100% self-inspection before packing.
Q 8: Can I have a visit to your manufacturing unit prior to the order?
A: Confident,welcome to pay a visit to our manufacturing facility.
Q 9: What’s your payment?
A:1) T/T. 2) L/C
♦Contact Us
Net:
Incorporate: No.1 HangZhou Highway,Chengnan park,HangZhou City,ZheJiang Province,China
Construction Custom made in China – replacement parts – in Jammu India Machines Elastic Rubber & L Jaw Flexible Shaft Couplings & L Type Coupling L035, L050, L70, L75, L90, L95, L099, L 100 with top quality
We – EPG Team the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears factory in China with 5 different branches. For more specifics: Mobile/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828
Design Devices Elastic Rubber & L Jaw Flexible Shaft Couplings & L Sort Coupling L035, L050, L70, L75, L90, L95, L099, L 100
Versatile Jaw L Couplings
- couplings are ideal for versatile transmission and very good at correcting axial, radial and angular misalignments.
- The L coupling is one particular of our principal merchandise widely used in variour machanical and hydraulic fields.
- Jaw coupling L-035 050 070 075 090 095 099 one hundred a hundred and ten 150 190 225
- Jaw L type coupling is one particular of the mo EPT ecnomical fexible couplings, simple on and effortless off. Its construction is easy.
- Good elasticity
- minimal weight
Firm Info
ZheJiang EPT EPT Co., Ltd. specializes in producing Mechanical Electricity Transmission Products.
We EPT is the division/department of SCMC Group, which is a wholly state-owned company, established in 1980.
About Mighty:
-3 production factories, we have 5 technical employees, our F EPT have powerful capability for design and process style, and more than
70 personnel and double change eveyday.
-Massive good quality of various content purchase and inventory in warhouse which make sure the minimal co EPT for the substance and generation in
time.
-Strick quality handle are utilize in the total prodution. we have incoming inspection,method inspection and ultimate production
inspection which can make sure the excellent of the merchandise top quality.
-fourteen many years of machining expertise. Extended time cooperate with the Global Buyer, make us easy to realize the csutomer and deal with the export.
MIGHTY’s items are largely exported to Europe, The usa and the Center Ea EPT market. With the leading-position administration, skilled specialized support and plentiful export expertise, EPT has recognized long lasting and steady enterprise partnership with numerous planet popular companies and has received excellent status from EPT consumers in global revenue.
FAQ
Q: Are you buying and selling business or company ?
A: We are manufacturing facility.
Q: How prolonged is your shipping and delivery time?
A: Normally it is 5-ten days if the products are in inventory. or it is 15-twenty times if the items are not in inventory, it is according to
quantity.
Q: Do you offer samples ? is it free of charge or further ?
A: Indeed, we could supply the sample for free cost but do not spend the co EPT of freight.
Q: What is your phrases of payment ?
A: Payment=10000USD, 30% T/T in progress ,stability prior to shippment
We – EPG Team the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears factory in China with 5 different branches. For more specifics: Cellular/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828 The use of unique equipment manufacturer’s (OEM) element figures or logos , e.g. CASE® and John Deere® are for reference functions only and for indicating merchandise use and compatibility. Our business and the listed substitution areas contained herein are not sponsored, authorized, or created by the OEM.
China price made in China – replacement parts – in Tangerang Indonesia DIY Plum Coupling and Flexible Couplings and Exhaust Flexible Coupling and FCL Flexible Encoder Shaft Coupling FCL560 with top quality
We – EPG Group the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears manufacturing facility in China with 5 diverse branches. For more specifics: Cellular/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828
Item Description
FCL Coupling/Shaft Coupling /Pin & Bush Coupling /FCL Adaptable Coupling/NBK FCL Coupling is widely utilised for its compacts designing, simple installation, handy servicing, tiny and gentle fat.
As prolonged as the relative displacement amongst shafts is retained in the specified tolerance, couplings will function the be EPT operate and have a longer functioning lifestyle.
Thus it is drastically demanded in medium and small electricity transmission methods pushed by motors, this kind of as pace reducers, hoists, compressors, conveyors, spinning and weaving equipment and ball mills.
Complex Day
EPT No. | A | d | L | C1 | C2 | B | F1 | F2 | n | a | M | t | PartsNo. | Max. Torque | Max.R.P.M | Eccentricity | Angularity | Finish-Perform |
FCL 100 | a hundred | 11~twenty five | 35.5 | forty two.5 | forty two.five | 67 | 16 | 16 | four | ten | 23 | 3 | #two | 29N.m | 4000 | .one | 1/6° | ±2.1 |
FCL 112 | 112 | 13~28 | 40 | 50 | 50 | 75 | sixteen | 16 | four | 10 | 23 | three | #two | 33N.m | 4000 | .1 | 1/6° | ±2.one |
FCL 125 | a hundred twenty five | thirteen~32 | forty five | fifty six | 50 | 85 | eighteen | 18 | 4 | 14 | 32 | three | #three | 73N.m | 4000 | .one | one/6° | ±2.1 |
FCL one hundred forty | one hundred forty | 13~38 | 50 | seventy one | sixty three | 100 | 18 | eighteen | 6 | fourteen | 32 | 3 | #three | 130N.m | 4000 | .2 | 1/6° | ±2.1 |
FCL a hundred and sixty | a hundred and sixty | 15~45 | fifty six | 80 | eighty | one hundred fifteen | 18 | eighteen | 8 | 14 | 32 | three | #three | 200N.m | 4000 | .two | one/6° | ±2.1 |
FCL 180 | 180 | fifteen~50 | sixty three | 90 | 90 | 132 | 18 | eighteen | 8 | 14 | 32 | three | #three | 230N.m | 3500 | .2 | one/6° | ±2.one |
FCL two hundred | two hundred | 21~fifty six | 71 | a hundred | a hundred | a hundred forty five | 22.4 | 22.4 | 8 | twenty | forty one | 4 | #four | 440N.m | 3200 | .two | 1/6° | ±2.8 |
FCL 224 | 224 | 21~sixty three | eighty | 112 | 112 | one hundred seventy | 22.four | 22.four | 8 | 20 | 41 | 4 | #4 | 510N.m | 2850 | .two | 1/6° | ±2.8 |
FCL 250 | 250 | twenty five~seventy one | ninety | a hundred twenty five | a hundred twenty five | 180 | 28 | 28 | 8 | twenty five | fifty one | four | #five | 850N.m | 2550 | .2 | one/6° | ±2.eight |
FCL 280 | 280 | 34~eighty | 100 | one hundred forty | one hundred forty | two hundred | 28 | 40 | eight | 28 | fifty seven | four | #six | 1500N.m | 2300 | .three | one/6° | ±2.eight |
FCL 315 | 315 | 41~ninety | 112 | one hundred sixty | one hundred sixty | 236 | 28 | 40 | ten | 28 | 57 | four | #6 | 2200N.m | 2050 | .three | one/6° | ±2.8 |
FCL 355 | 355 | 60~one hundred | 125 | 180 | 180 | 260 | 35.5 | fifty six | 8 | 35.5 | 72 | five | #eight | 3500N.m | 1800 | .3 | one/6° | ±3.5 |
FCL 400 | four hundred | sixty~one hundred ten | a hundred twenty five | two hundred | two hundred | 300 | 35.5 | fifty six | ten | 35.five | seventy two | five | #8 | 5000N.m | 1600 | .three | 1/6° | ±3.five |
FCL 450 | 450 | 65~a hundred twenty five | one hundred forty | 224 | 224 | 355 | 35.5 | fifty six | twelve | 35.five | seventy two | 5 | #8 | 7100N.m | 1400 | .3 | one/6° | ±3.five |
FCL 560 | 560 | eighty five~140 | one hundred sixty | 250 | 250 | 450 | 35.five | 56 | 14 | 35.five | seventy two | 5 | #8 | 10000N.m | 1150 | .3 | 1/6° | ±3.five |
FCL 630 | 630 | ninety five~a hundred and sixty | a hundred and eighty | 280 | 280 | 530 | 35.five | fifty six | eighteen | 35.five | 72 | five | #eight | 16000N.m | 1000 | .three | 1/6° | ±3.five |
Associated Products & Exhibitioin
Roller Chain coupling NM Coupling Curved Jaw Coupling
Manufacturing
About Us
Kasin group was established in 1989, and its fir EPT solution is casting provider trolley for power & free conveyor method. In 1995, EPT purchased HangZhou Guoping Forging Manufacturing unit (LYGP), a marketer of forging bolts & nuts to power & free line market place in china. With this acquisition, EPT positioned alone as one particular of main elements suppliers of monorail and power & free conveyor system in china.
In 2005, H&H Corp., a professional company of big measurement conveyor chain, was acquired a portion as sharehould by Kasin, and labored as export window to all more than the globe, specially bucket elevator chain, sugar mill chain, welded mill scaper chain.
In 2015, EPT set up by itself equipment company/ EPT machinery(ZheJiang )Co.,Ltd., made fleixible coupling, eg: FCL Coupling, NM Coupling, Curved Jaw Coupling, Chain Coupling andJaw Coupling.
Nowadays, EPT is 1 of the bigge EPT skilled speciali EPT of EPT Class EPT Chain, Drop Forged Rivetless Chain, Forged Chain, Sugar Mill Chain, Bucket EPT Chain, Flexible Couplings and 100% to oversea marketplace, masking Japan, U.S. and Europ and so forth.
With the certification of ISO 9001 and GB/T 19001, EPT supply best high quality goods at the reasonable cost, to earn-acquire scenario in extended-terms cooperation, adhering to the slogan: “FIR EPT TIME, Every TIME“.
Our mission is to provide highest quality goods at the be EPT attainable cost. And in carrying out so, to offer an unmatched consumer encounter and to build customer tru EPT and fulfillment. Truthful, Top quality, Effective, Developing, Security the five crucial factors constituting KASIN, which is the essential motto for all of the EPT employees. Therefore, we preserve striving to construct a corporate program that is highly appreciated and we hope that you continue to select and use EPT goods with pride and gratification.
Certificates
Packing & Delivery
EPT Packing Carton & Wooden Circumstance
FAQ
Q: Are you trading organization or manufacturer ?
A: We are skillfully maker in china and possess ourself casting-workshop, warmly welcome to pay a visit to our factory at any time.
Q: How prolonged is your delivery time?
A: Normally it is 5-ten days if the items are in inventory. or it is 15-25 times if the products are not in inventory, it is in accordance to quantity.
Q: Do you give samples ? is it free of charge or further ?
A: Of course, it is available for EPT to post sample for acceptance free of cost, however it really is EPT regulation: for new potentioal client, sample is cost-free but client is responsilble for logistic charge.
Q: What is your conditions of payment ?
A: one hundred%T/T Before cargo after inspect nicely
If you have an EPT query, p EPT come to feel cost-free to contact us as beneath:
EPT Industries(ZheJiang ) Co.,Ltd.
No.989,Guoshun Highway, ZheJiang FengPu Industrial Park,
FengXian District, ZheJiang , P.R.China, 201400
Tel: 86~571-8822571/8822 0571 -57152031 Fax: 0086-571-88220971: 86~571-8822571/8822 0571 -57152030
Http://
We – EPG Team the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears manufacturing unit in China with 5 distinct branches. For far more particulars: Cell/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828 The use of authentic products manufacturer’s (OEM) portion numbers or logos , e.g. CASE® and John Deere® are for reference purposes only and for indicating item use and compatibility. Our firm and the listed alternative areas contained herein are not sponsored, approved, or manufactured by the OEM.
Flexible China 2004 toyota highlander drive shaft in Reynosa Mexico Single-Disc Coupling Diaphragm Coupling Manufacturer with ce certificate top quality low price
We – EPG Group the most significant agricultural gearbox and pto factory in China with five various branches. For more details: Cellular/whatsapp/telegram/Kakao us at: 0086-13083988828
common pto shaft Our 540 rpm pto company john deere 4630 pto shaft size has 04 jeep grand cherokee entrance drive shaft strong pto gear reducer economic pto travel shaft kinds strength, measuring pto shaft duration builds tractor pto shaft mend up driveline driveshaft a drive shaft for 2006 chevy silverado crew cab technician crew contingent with substantial quality, possesses the creation assembly line of technicalization in China and perfect system examining on merchandise high quality and operates advertising networks through the region. Principal items contain: manure spreading truck, potato planting/harvesting machine, disc plough, disc harrow, grass Mower/slasher, corn and wheat thershers, seeder, mouldboard plow, deep subsoiler equipment, rotary tiller, rear blade, fertilizer spreader, blend rice harvester, corn thresher, farm trailer, ridger, trencher, stubble cleaner, earth auger, cultivator and its add-ons: Plow disc blades, harrowing movie, plough suggestion and share, cultivator tine, casting components etc.
JMI Kind Diaphragm Coupling(JB/T9147-1999)
Features
1.Unitized disc pack.
2.Infinite daily life when effectively aligned.
3.Torsionally rigid with out any back lash.
4.No need to have for lubrication or servicing.
5.No donning parts and higher resistance to harsh environmental circumstances.
6.Bigger dimensions are offered on ask for.
·JMI Variety Coupling Major Dimension(JB/T9147-1999)
Kind | Nominal torque Tn |
Peak torque Tmax |
Max Pace np |
Bore diameter d |
Bore Duration | D | t | Torsional stiffness C |
Mass | Rotary inertia | |||
Y kind | J,Jone,Z,Z1 type | L(recommend) | |||||||||||
L | L | L1 | |||||||||||
N·m | N·m | r·min-one | mm | N·m/rad | kg | kg·m2 | |||||||
JMI1 | 25 | 80 | 6000 | 14 | 32 | – | J127 Zone20 |
35 | ninety | eight.eight | 1×104 | one | .0007 |
sixteen,eighteen,19 | 42 | 30 | |||||||||||
20,22 | 52 | 38 | |||||||||||
JMI2 | 63 | one hundred eighty | 5000 | 18,19 | 42 | 30 | forty five | a hundred | 9.5 | one.4×10four | 2.3 | .001 | |
twenty,22,24 | fifty two | 38 | |||||||||||
25 | 62 | 44 | |||||||||||
JMI3 | a hundred | 315 | 5000 | twenty,22,24 | 52 | – | 38 | 50 | a hundred and twenty | eleven | 1.87×10four | two.three | .0571 |
25,28 | 62 | forty four | |||||||||||
thirty | eighty two | sixty | |||||||||||
JMI4 | one hundred sixty | five hundred | 4500 | 24 | 52 | 38 | 55 | a hundred thirty | 12.5 | three.12×10four | three.3 | .0571 | |
twenty five,28 | sixty two | forty four | |||||||||||
30,32,35 | eighty two | sixty | |||||||||||
JMI5 | 250 | 710 | 4000 | 28 | sixty two | forty four | 60 | a hundred and fifty | 14 | four.32×104 | five.three | .0083 | |
30,32,35,38 | eighty two | 60 | |||||||||||
forty | 112 | 84 | |||||||||||
JMI6 | 400 | 1120 | 3600 | 32,35,38 | 82 | eighty two | 60 | 65 | one hundred seventy | fifteen.5 | six.88×104 | eight.seven | .0159 |
forty,forty two,45,48, 50 |
112 | 112 | eighty four | ||||||||||
JMI7 | 630 | 1800 | 3000 | 40,42,forty five,48, 50,55,fifty six |
112 | 112 | 84 | 70 | 210 | 19 | ten.35×10four | 14.3 | .571 |
sixty | 142 | – | 107 | ||||||||||
JMI8 | one thousand | 2500 | 2800 | forty five,forty eight,50,fifty five, 56 |
112 | 112 | eighty four | eighty | 240 | 22.five | sixteen.11×104 | 22 | .0879 |
60,sixty three,65,70 | 142 | 107 | |||||||||||
JMI9 | 1600 | 4000 | 2500 | fifty five,56 | 112 | eighty four | eighty five | 260 | 24 | 26.17×10four | 29 | .1415 | |
60,sixty three,70,71, 75 |
142 | 107 | |||||||||||
eighty | 172 | 132 | |||||||||||
JMI10 | 2500 | 6300 | 2000 | 63,sixty five,70,seventy one,seventy five | 142 | 142 | 107 | 90 | 280 | seventeen | seven.88×10four | fifty two | .2974 |
80,85,ninety,ninety five | 172 | – | 132 | ||||||||||
JMI11 | 4000 | 9000 | 1800 | seventy five | 142 | 142 | 107 | ninety five | 300 | 19.5 | 10.49×104 | 69 | .4782 |
80,85,90,ninety five | 172 | 172 | 132 | ||||||||||
one hundred,110 | 212 | – | 167 | ||||||||||
JMI12 | 6300 | 12500 | 1600 | ninety,95 | 172 | 132 | a hundred and twenty | 340 | 23 | 14.07×104 | ninety four | .8067 | |
a hundred,a hundred and ten,one hundred twenty,125 | 212 | 167 | |||||||||||
JMI13 | ten thousand | 18000 | 1400 | 100,110,a hundred and twenty,125 | 212 | 167 | a hundred thirty five | 380 | 28 | 19.2×104 | 128 | 1.7053 | |
130,one hundred forty | 252 | 202 | |||||||||||
JMI14 | 16000 | 28000 | 1200 | one hundred twenty,a hundred twenty five | 212 | – | 167 | a hundred and fifty |
420 | 31 | thirty.0×10four | 184 | two.6832 |
130,140,one hundred fifty | 252 | 202 | |||||||||||
160 | 302 | 242 | |||||||||||
JMI15 | 25000 | 40000 | 1120 | one hundred forty,a hundred and fifty | 252 | 202 | 180 | 480 | 37.five | forty seven.46×10four | 262 | four.8015 | |
a hundred and sixty,170,one hundred eighty | 302 | 242 | |||||||||||
JMI16 | 40000 | 56000 | 1000 | one hundred sixty,one hundred seventy,one hundred eighty | 302 | 242 | 200 |
560 | 41 | forty eight.09×10four | 384 | 9.4118 | |
one hundred ninety,two hundred | 352 | 282 | |||||||||||
JMI17 | 63000 | 80000 | 900 | a hundred ninety,200,220 | 352 | 282 | 220 |
630 | 47 | 10.13×10four | 561 | eighteen.3753 | |
240 | 410 | 330 | |||||||||||
JMI18 | one hundred thousand | 125000 | 800 | 220 | 352 | 282 | 250 |
710 | 54.5 | 16.14×104 | 723 | 28.2033 | |
240,250,260 | 410 | 330 | |||||||||||
JMI19 | 160000 | 200000 | 710 | 250,260 | 410 | 330 | 280 | 800 | 48 | 79.8×10four | 1267 | sixty six.5813 | |
280,three hundred,320 | 470 | 380 |
Solution display: