China Standard SWC490bf Double Flange Design with Standard Length Compensation for Steel Rolling Mill High Speed/High Torque Cardan Shaft/Universal Joint Shaft/Drive Shaft

Product Description

Professional Cardan Shaft with ISO Certificate for Rolling mill

SWC-BF Flanged shaft design, with standard length compensation
TYPE Gyration Diameter D/mm Nominal torque   Tn
/kN·m
   Fatigue torque  Tf
/kN·m
Bearing life ratio     KL Axis angel
β/(.)
Length compensation
LS/mm
Dimension/mm Moment of inertia I/kg·m2 Weight/kg
Lmin D1
(js11)
D2
(H7)
D3 Lm n×Φd k t b
(h9)
g Lmin Each additional 100m Lmin Each additional 100mm
SWC180BF 180 22.4 11.2 0.245 ≤15 100 840 155 105 114 110 8×Φ17 17 5 24 7 0.267 0.007 80 2.8
SWC200BF 200 36 18 1.115 ≤15 110 860 170 120 133 115 8×Φ17 17 5 28 8 0.505 0.013 109 3.7
SWC225BF 225 56 28 7.812 ≤15 140 920 196 135 152 120 8×Φ17 20 5 32 9 0.788 0.571 138 4.9
SWC250BF 250 80 40 2.82×101 ≤15 140 1035 218 150 168 140 8×Φ19 25 6 40 12.5 1.145 0.571 196 5.3
SWC285BF 285 120 58 8.28×101 ≤15 140 1190 245 170 194 160 8×Φ21 27 7 40 15 2.873 0.051 295 6.3
SWC315BF 315 160 80 2.79×102 ≤15 140 1315 280 185 219 180 10×Φ23 32 8 40 15 5.094 0.08 428 8
SWC350BF 350 225 110 7.44×102 ≤15 150 1440 310 210 245 194 10×Φ23 35 8 50 16 7.476 0.146 582 11.5
SWC390BF 390 320 160 1.86×103 ≤15 170 1590 345 235 267 215 10×Φ25 40 8 70 18 16.62 0.222 817 15
SWC440BF 440 500 250 8.25×103 ≤15 190 1875 390 255 325 260 16×Φ28 42 10 80 20 28.24 0.474 1290 21.7
SWC490BF 490 700 350 2.154×104 ≤15 190 1985 435 275 351 270 16×Φ31 47 12 90 22.5 48.43 0.690 1721 27.3
SWC550BF 550 1000 500 6.335×104 ≤15 240 2300 492 320 426 305 16×Φ31 50 12 100 22.5 86.98 1.357 2567 34

 Dynamic Balance Testing:

Three Coordinate Detection

Code Each Part:

CNC processing center:

 

structure universal Flexible or Rigid Rigid Standard or Nonstandard Nonstandard
Material Alloy steel Brand name QSCD Place or origin HangZhou,China
Model SWC medium Raw material heat treatment Lenghth depend on specification
Flange Dia 160mm-620mm Normal torque depend on specification Coating heavy duty industrial paint
Paint color Customization Application Rolling mill machinery OEM/ODM Available
Certificate ISO,SGS Price depend on specification Custom service Available

Frequently Asked Questions

 

 

Q5: Let’s talk about our inquiry?

 

 

 

 

Q4:Do you test all your goods before delivery?

 

A: Certainly, we do dynamic balance testing for all goods,We can provide testing vedios.

 

 

Q3: What is your sample policy?

 

A: You can order 1 piece sample to test before quantity order.

 

 

Q2: What is your terms of delivery?

 

A: FOB, CIF, CFR,EXW,DDU

 

 

 

Q1: What is your payment terms?

 

A: T/T 30% as deposit, and 70% before delivery, we will show you the photos of product and package CHINAMFG finished.

Standard Or Nonstandard: Nonstandard
Shaft Hole: 490
Torque: 350kn.M
Bore Diameter: 240
Speed: 1500
Structure: Rigid
Samples:
US$ 1000/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

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Customized Request

cardan shaft

What factors should be considered when selecting the right cardan shaft for an application?

When selecting a cardan shaft for a specific application, several crucial factors need to be considered to ensure optimal performance and longevity. The following factors should be taken into account during the selection process:

1. Torque Requirements:

– One of the primary considerations is the torque requirements of the application. The cardan shaft should be capable of transmitting the required torque without exceeding its rated capacity. It is essential to determine the maximum torque that the shaft will experience during operation and select a cardan shaft that can handle that torque while providing an appropriate safety margin.

2. Speed and RPM:

– The rotational speed or RPM (revolutions per minute) of the application is another critical factor. Cardan shafts have specific rotational speed limits, and exceeding these limits can lead to premature wear, vibration, and failure. It is crucial to select a cardan shaft that is rated for the speed requirements of the application to ensure reliable and smooth operation.

3. Angle of Misalignment:

– The angle of misalignment between the driving and driven components should be considered. Cardan shafts can accommodate angular misalignment up to a certain degree, typically specified by the manufacturer. It is important to select a cardan shaft that can handle the anticipated misalignment angle to ensure proper power transmission and prevent excessive wear or binding.

4. Operating Conditions:

– The operating conditions of the application play a vital role in cardan shaft selection. Factors such as temperature, humidity, presence of corrosive agents, and exposure to vibration or shock need to be considered. It is crucial to select a cardan shaft that is designed to withstand the specific operating conditions to ensure durability and reliability.

5. Length and Size:

– The length and size of the cardan shaft should be chosen appropriately for the application. The length of the shaft affects its ability to absorb vibrations and accommodate misalignments. It is important to consider the available space and the required length to ensure proper fitment and functionality. Additionally, the size of the cardan shaft should be selected based on the load requirements and the available torque capacity.

6. Maintenance and Serviceability:

– Consideration should be given to the ease of maintenance and serviceability of the cardan shaft. Some applications may require regular inspection, lubrication, or replacement of certain components. It is beneficial to select a cardan shaft that allows convenient access for maintenance and incorporates features such as grease fittings or easily replaceable universal joints.

7. Cost and Budget:

– Finally, the cost and budget constraints should be taken into account. Different cardan shaft manufacturers and suppliers may offer varying prices for their products. It is important to balance the desired quality, performance, and durability of the cardan shaft with the available budget.

By carefully considering these factors, engineers and designers can select the right cardan shaft for the application, ensuring optimal performance, longevity, and reliability. Collaboration with cardan shaft manufacturers and suppliers can also provide valuable insights and assistance in making the appropriate selection based on the specific requirements of the application.

cardan shaft

What safety precautions should be followed when working with cardan shafts?

Working with cardan shafts requires adherence to certain safety precautions to prevent accidents, injuries, and damage to equipment. Whether during installation, maintenance, or repair, it is essential to follow these safety guidelines:

1. Personal Protective Equipment (PPE):

– Always wear appropriate personal protective equipment, including safety glasses, gloves, and protective clothing. PPE helps protect against potential hazards such as flying debris, sharp edges, or contact with lubricants or chemicals.

2. Training and Familiarity:

– Ensure that personnel working with cardan shafts are adequately trained and familiar with the equipment and procedures involved. They should understand the potential hazards, safe operating practices, and emergency procedures.

3. Lockout/Tagout Procedures:

– Before working on cardan shafts, follow proper lockout/tagout procedures to isolate and de-energize the equipment. This prevents accidental activation or movement of the shaft while maintenance or repair activities are being performed.

4. Secure the Equipment:

– Before starting any work on the cardan shaft, ensure that the equipment or vehicle is securely supported and immobilized. This prevents unexpected movement or rotation of the shaft, reducing the risk of entanglement or injury.

5. Ventilation:

– If working in enclosed spaces or areas with poor ventilation, ensure adequate ventilation or use appropriate respiratory protective equipment to avoid inhalation of harmful fumes, gases, or dust particles.

6. Proper Lifting Techniques:

– When handling heavy cardan shafts or components, use proper lifting techniques to avoid strains or injuries. Employ lifting equipment, such as cranes or hoists, where necessary, and ensure the load capacity is not exceeded.

7. Inspection and Maintenance:

– Regularly inspect the condition of the cardan shaft, including universal joints, slip yokes, and other components. Look for signs of wear, damage, or misalignment. Perform routine maintenance and lubrication as recommended by the manufacturer to ensure safe and efficient operation.

8. Avoid Exceeding Design Limits:

– Operate the cardan shaft within its specified design limits, including torque capacity, speed, and misalignment angles. Exceeding these limits can lead to premature wear, mechanical failure, and safety hazards.

9. Proper Disposal of Used Parts and Lubricants:

– Dispose of used parts, lubricants, and other waste materials in accordance with local regulations and environmental best practices. Follow proper disposal procedures to prevent pollution and potential harm to the environment.

10. Emergency Response:

– Be familiar with emergency response procedures, including first aid, fire prevention, and evacuation plans. Maintain access to emergency contact information and necessary safety equipment, such as fire extinguishers, in the vicinity of the work area.

It is important to note that the above safety precautions serve as general guidelines. Always refer to specific safety guidelines provided by the manufacturer of the cardan shaft or equipment for any additional precautions or recommendations.

By following these safety precautions, individuals working with cardan shafts can minimize the risks associated with their operation and ensure a safe working environment.

cardan shaft

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.

China Standard SWC490bf Double Flange Design with Standard Length Compensation for Steel Rolling Mill High Speed/High Torque Cardan Shaft/Universal Joint Shaft/Drive Shaft  China Standard SWC490bf Double Flange Design with Standard Length Compensation for Steel Rolling Mill High Speed/High Torque Cardan Shaft/Universal Joint Shaft/Drive Shaft
editor by CX 2023-09-15