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China best Machinery Parts Rotor Gear Shaft Customized Machining Knurling High Precision with Factory Price for Auto Drive Factory Price

Product Description

You can kindly find the specification details below:

HangZhou Mastery Machinery Technology Co., LTD helps manufacturers and brands fulfill their machinery parts by precision manufacturing. High precision machinery products like the shaft, worm screw, bushing, couplings, joints……Our products are used widely in electronic motors, the main shaft of the engine, the transmission shaft in the gearbox, couplers, printers, pumps, drones, and so on. They cater to different industries, including automotive, industrial, power tools, garden tools, healthcare, smart home, etc.

Mastery caters to the industrial industry by offering high-level Cardan shafts, pump shafts, and a bushing that come in different sizes ranging from diameter 3mm-50mm. Our products are specifically formulated for transmissions, robots, gearboxes, industrial fans, and drones, etc.

Mastery factory currently has more than 100 main production equipment such as CNC lathe, CNC machining center, CAM Automatic Lathe, grinding machine, hobbing machine, etc. The production capacity can be up to 5-micron mechanical tolerance accuracy, automatic wiring machine processing range covering 3mm-50mm diameter bar.

Key Specifications:

Name Shaft/Motor Shaft/Drive Shaft/Gear Shaft/Pump Shaft/Worm Screw/Worm Gear/Bushing/Ring/Joint/Pin
Material 40Cr/35C/GB45/70Cr/40CrMo
Process Machining/Lathing/Milling/Drilling/Grinding/Polishing
Size 2-400mm(Customized)
Diameter φ12(Customized)
Diameter Tolerance 0.008mm
Roundness 0.01mm
Roughness Ra0.4
Straightness 0.01mm
Hardness Customized
Length 32mm(Customized)
Heat Treatment Customized
Surface treatment Coating/Ni plating/Zn plating/QPQ/Carbonization/Quenching/Black Treatment/Steaming Treatment/Nitrocarburizing/Carbonitriding

Quality Management:

  • Raw Material Quality Control: Chemical Composition Analysis, Mechanical Performance Test, ROHS, and Mechanical Dimension Check
  • Production Process Quality Control: Full-size inspection for the 1st part, Critical size process inspection, SPC process monitoring
  • Lab ability: CMM, OGP, XRF, Roughness meter, Profiler, Automatic optical inspector
  • Quality system: ISO9001, IATF 16949, ISO14001
  • Eco-Friendly: ROHS, Reach.

Packaging and Shipping:  

Throughout the entire process of our supply chain management, consistent on-time delivery is vital and very important for the success of our business.

Mastery utilizes several different shipping methods that are detailed below:

For Samples/Small Q’ty: By Express Services or Air Fright.

For Formal Order: By Sea or by air according to your requirement.

 

Mastery Services:

  • One-Stop solution from idea to product/ODM&OEM acceptable
  • Individual research and sourcing/purchasing tasks
  • Individual supplier management/development, on-site quality check projects
  • Muti-varieties/small batch/customization/trial orders are acceptable
  • Flexibility on quantity/Quick samples
  • Forecast and raw material preparation in advance are negotiable
  • Quick quotes and quick responses

General Parameters:

If you are looking for a reliable machinery product partner, you can rely on Mastery. Work with us and let us help you grow your business using our customizable and affordable products. /* 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

Material: Carbon Steel
Load: Drive Shaft
Stiffness & Flexibility: Stiffness / Rigid Axle
Journal Diameter Dimensional Accuracy: IT6-IT9
Axis Shape: Straight Shaft
Shaft Shape: Real Axis
Customization:
Available

|

Customized Request

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

When selecting the right drive shaft for an application, several factors need to be considered. The choice of drive shaft plays a crucial role in ensuring efficient and reliable power transmission. Here are the key factors to consider:

1. Power and Torque Requirements:

The power and torque requirements of the application are essential considerations. It is crucial to determine the maximum torque that the drive shaft will need to transmit without failure or excessive deflection. This includes evaluating the power output of the engine or power source, as well as the torque demands of the driven components. Selecting a drive shaft with the appropriate diameter, material strength, and design is essential to ensure it can handle the expected torque levels without compromising performance or safety.

2. Operating Speed:

The operating speed of the drive shaft is another critical factor. The rotational speed affects the dynamic behavior of the drive shaft, including the potential for vibration, resonance, and critical speed limitations. It is important to choose a drive shaft that can operate within the desired speed range without encountering excessive vibrations or compromising the structural integrity. Factors such as the material properties, balance, and critical speed analysis should be considered to ensure the drive shaft can handle the required operating speed effectively.

3. Length and Alignment:

The length and alignment requirements of the application must be considered when selecting a drive shaft. The distance between the engine or power source and the driven components determines the required length of the drive shaft. In situations where there are significant variations in length or operating angles, telescopic drive shafts or multiple drive shafts with appropriate couplings or universal joints may be necessary. Proper alignment of the drive shaft is crucial to minimize vibrations, reduce wear and tear, and ensure efficient power transmission.

4. Space Limitations:

The available space within the application is an important factor to consider. The drive shaft must fit within the allocated space without interfering with other components or structures. It is essential to consider the overall dimensions of the drive shaft, including length, diameter, and any additional components such as joints or couplings. In some cases, custom or compact drive shaft designs may be required to accommodate space limitations while maintaining adequate power transmission capabilities.

5. Environmental Conditions:

The environmental conditions in which the drive shaft will operate should be evaluated. Factors such as temperature, humidity, corrosive agents, and exposure to contaminants can impact the performance and lifespan of the drive shaft. It is important to select materials and coatings that can withstand the specific environmental conditions to prevent corrosion, degradation, or premature failure of the drive shaft. Special considerations may be necessary for applications exposed to extreme temperatures, water, chemicals, or abrasive substances.

6. Application Type and Industry:

The specific application type and industry requirements play a significant role in drive shaft selection. Different industries, such as automotive, aerospace, industrial machinery, agriculture, or marine, have unique demands that need to be addressed. Understanding the specific needs and operating conditions of the application is crucial in determining the appropriate drive shaft design, materials, and performance characteristics. Compliance with industry standards and regulations may also be a consideration in certain applications.

7. Maintenance and Serviceability:

The ease of maintenance and serviceability should be taken into account. Some drive shaft designs may require periodic inspection, lubrication, or replacement of components. Considering the accessibility of the drive shaft and associated maintenance requirements can help minimize downtime and ensure long-term reliability. Easy disassembly and reassembly of the drive shaft can also be beneficial for repair or component replacement.

By carefully considering these factors, one can select the right drive shaft for an application that meets the power transmission needs, operating conditions, and durability requirements, ultimately ensuring optimal performance and reliability.

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Can drive shafts be customized for specific vehicle or equipment requirements?

Yes, drive shafts can be customized to meet specific vehicle or equipment requirements. Customization allows manufacturers to tailor the design, dimensions, materials, and other parameters of the drive shaft to ensure compatibility and optimal performance within a particular vehicle or equipment. Here’s a detailed explanation of how drive shafts can be customized:

1. Dimensional Customization:

Drive shafts can be customized to match the dimensional requirements of the vehicle or equipment. This includes adjusting the overall length, diameter, and spline configuration to ensure proper fitment and clearances within the specific application. By customizing the dimensions, the drive shaft can be seamlessly integrated into the driveline system without any interference or limitations.

2. Material Selection:

The choice of materials for drive shafts can be customized based on the specific requirements of the vehicle or equipment. Different materials, such as steel alloys, aluminum alloys, or specialized composites, can be selected to optimize strength, weight, and durability. The material selection can be tailored to meet the torque, speed, and operating conditions of the application, ensuring the drive shaft’s reliability and longevity.

3. Joint Configuration:

Drive shafts can be customized with different joint configurations to accommodate specific vehicle or equipment requirements. For example, universal joints (U-joints) may be suitable for applications with lower operating angles and moderate torque demands, while constant velocity (CV) joints are often used in applications requiring higher operating angles and smoother power transmission. The choice of joint configuration depends on factors such as operating angle, torque capacity, and desired performance characteristics.

4. Torque and Power Capacity:

Customization allows drive shafts to be designed with the appropriate torque and power capacity for the specific vehicle or equipment. Manufacturers can analyze the torque requirements, operating conditions, and safety margins of the application to determine the optimal torque rating and power capacity of the drive shaft. This ensures that the drive shaft can handle the required loads without experiencing premature failure or performance issues.

5. Balancing and Vibration Control:

Drive shafts can be customized with precision balancing and vibration control measures. Imbalances in the drive shaft can lead to vibrations, increased wear, and potential driveline issues. By employing dynamic balancing techniques during the manufacturing process, manufacturers can minimize vibrations and ensure smooth operation. Additionally, vibration dampers or isolation systems can be integrated into the drive shaft design to further mitigate vibrations and enhance overall system performance.

6. Integration and Mounting Considerations:

Customization of drive shafts takes into account the integration and mounting requirements of the specific vehicle or equipment. Manufacturers work closely with the vehicle or equipment designers to ensure that the drive shaft fits seamlessly into the driveline system. This includes adapting the mounting points, interfaces, and clearances to ensure proper alignment and installation of the drive shaft within the vehicle or equipment.

7. Collaboration and Feedback:

Manufacturers often collaborate with vehicle manufacturers, OEMs (Original Equipment Manufacturers), or end-users to gather feedback and incorporate their specific requirements into the drive shaft customization process. By actively seeking input and feedback, manufacturers can address specific needs, optimize performance, and ensure compatibility with the vehicle or equipment. This collaborative approach enhances the customization process and results in drive shafts that meet the exact requirements of the application.

8. Compliance with Standards:

Customized drive shafts can be designed to comply with relevant industry standards and regulations. Compliance with standards, such as ISO (International Organization for Standardization) or specific industry standards, ensures that the customized drive shafts meet quality, safety, and performance requirements. Adhering to these standards provides assurance that the drive shafts are compatible and can be seamlessly integrated into the specific vehicle or equipment.

In summary, drive shafts can be customized to meet specific vehicle or equipment requirements through dimensional customization, material selection, joint configuration, torque and power capacity optimization, balancing and vibration control, integration and mounting considerations, collaboration with stakeholders, and compliance with industry standards. Customization allows drive shafts to be precisely tailored to the needs of the application, ensuring compatibility, reliability, and optimal performance.

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How do drive shafts handle variations in length and torque requirements?

Drive shafts are designed to handle variations in length and torque requirements in order to efficiently transmit rotational power. Here’s an explanation of how drive shafts address these variations:

Length Variations:

Drive shafts are available in different lengths to accommodate varying distances between the engine or power source and the driven components. They can be custom-made or purchased in standardized lengths, depending on the specific application. In situations where the distance between the engine and the driven components is longer, multiple drive shafts with appropriate couplings or universal joints can be used to bridge the gap. These additional drive shafts effectively extend the overall length of the power transmission system.

Additionally, some drive shafts are designed with telescopic sections. These sections can be extended or retracted, allowing for adjustments in length to accommodate different vehicle configurations or dynamic movements. Telescopic drive shafts are commonly used in applications where the distance between the engine and the driven components may change, such as in certain types of trucks, buses, and off-road vehicles.

Torque Requirements:

Drive shafts are engineered to handle varying torque requirements based on the power output of the engine or power source and the demands of the driven components. The torque transmitted through the drive shaft depends on factors such as the engine power, load conditions, and the resistance encountered by the driven components.

Manufacturers consider torque requirements when selecting the appropriate materials and dimensions for drive shafts. Drive shafts are typically made from high-strength materials, such as steel or aluminum alloys, to withstand the torque loads without deformation or failure. The diameter, wall thickness, and design of the drive shaft are carefully calculated to ensure it can handle the expected torque without excessive deflection or vibration.

In applications with high torque demands, such as heavy-duty trucks, industrial machinery, or performance vehicles, drive shafts may have additional reinforcements. These reinforcements can include thicker walls, cross-sectional shapes optimized for strength, or composite materials with superior torque-handling capabilities.

Furthermore, drive shafts often incorporate flexible joints, such as universal joints or constant velocity (CV) joints. These joints allow for angular misalignment and compensate for variations in the operating angles between the engine, transmission, and driven components. They also help absorb vibrations and shocks, reducing stress on the drive shaft and enhancing its torque-handling capacity.

In summary, drive shafts handle variations in length and torque requirements through customizable lengths, telescopic sections, appropriate materials and dimensions, and the inclusion of flexible joints. By carefully considering these factors, drive shafts can efficiently and reliably transmit power while accommodating the specific needs of different applications.

China best Machinery Parts Rotor Gear Shaft Customized Machining Knurling High Precision with Factory Price for Auto Drive Factory Price  China best Machinery Parts Rotor Gear Shaft Customized Machining Knurling High Precision with Factory Price for Auto Drive Factory Price
editor by CX 2024-02-01

China best Shaft CNC Machining Shaft Flange Shaft Roller Shaft Drive Shaft Gear Shaft Spline Shaft Logistics Equipment Shaft Conveyor Shaft Coater Shaft

Product Description

Product Description

rotation axis of rotation is due to the fact that as an object rotates, its points move in circles, and the centers of these circles lie on the same line.
Rotation is a common type of motion. When an object rotates, its points move in circles. The centers of these circles lie on the same line. This line is called the axis of rotation. Doors, Windows, grinding wheels, motor rotors, etc., have fixed rotating shaft, can only be rotated, but not translational. Several forces act on a body, and their rotational action on the body depends on the algebraic sum of their torques. If the algebraic sum of moments is equal to zero, the object will rotate uniformly with the original angular velocity or stay at rest.
The drive shaft is a rotating body with high speed and little support, so its dynamic balance is very important. The general drive shaft before leaving the factory must enter the action balance test, and the balance machine has been adjusted. For front-engine rear-wheel drive cars is the shaft that transfers the rotation of the transmission to the main reducer, which can be several segments, and the segments can be connected by universal joints.

Hebe (ZheJiang ) Industrial Co., LTD was founded in 2018. The company covers an area of 1500 square meter and has 15 employees, including 1 designer and 2 CNC programmers. Heber Company specializes in providing all kinds of parts processing. The process includes CNC milling, CNC turning, CNC grinding, large CNC machining, Wire cutting, EDM machining. Our machining accuracy can reach 0.005mm. Surface grinding finish up to 0.8um.mirror polish is up to 0.4um.
 company provides parts processing for various industries. For example, packaging machinery, slitter machine, aerospace, electronic machinery, cigarette machine, gear machinery, automatic assembly machine, power tools, semiconductor equipment, automobile production line, automobile, motorcycle, bicycle, 3D printer, plastic machinery, robot and so on. We can provide zinc plating, nickel plating, oxidation, heat treatment, chrome plating, PVD, spray, spray paint, black phosphating and other surface treatment processes.
Hebe can also provide mechanical assembly work for customers. We have skilled fitters and assembly workers. We can complete detailed work from CNC machining to assembly. PLC program, electronic parts procurement, automation components procurement, etc. We have assembled non – target automation equipment, slitting machines, packaging machines, etc.

Equipment name CNC lathe /CNC milling machine /CNC grinder /EDM/ vertical milling machine/linear cutting /4-5 axis CNC milling machine/large size CNC milling machine/Laser cutting/CNC Bending machine
Testing instrument Inside diameter measurement/outside diameter measurement/caliper/height measurement/CMM measurement
Material Steel/Aluminium alloy/ copper/ Alloy steel /Titanium alloy/ nylon /PTFE  /Stainless steel /mold steel/ Brass/copper/tungsten steel/high strength stainless steel
 
Surface treatment Polishing/electroplating/oxidation/spraying/nitriding/phosphating/heat treatment
Product packaging 1200x800mm tray/500x500x500mm carton/Customizable wooden cases/Designable packaging scheme
Customer industry Mechanical equipment/aerospace/automobile production line/automation equipment/bicycle/motorcycle/energy/chemical equipment/industrial electrical appliances
Software capability CAD 2007/ UG 10.0/ Solidwork
Delivery time Sample5-10 days/ Mass production 20-45days
Payment clause 30% advance payment +70% delivery payment T/T 
MOQ 1PCS

 

Packaging & Shipping

 

  /* 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

Application: Fastener, Auto and Motorcycle Accessory, Hardware Tool, Machinery Accessory
Standard: GB, China GB Code
Surface Treatment: Electroplating
Production Type: Batch Production
Machining Method: CNC Turning
Material: Steel, Alloy, Aluminum
Samples:
US$ 10/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

|

Customized Request

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How do manufacturers ensure the compatibility of drive shafts with different equipment?

Manufacturers employ various strategies and processes to ensure the compatibility of drive shafts with different equipment. Compatibility refers to the ability of a drive shaft to effectively integrate and function within a specific piece of equipment or machinery. Manufacturers take into account several factors to ensure compatibility, including dimensional requirements, torque capacity, operating conditions, and specific application needs. Here’s a detailed explanation of how manufacturers ensure the compatibility of drive shafts:

1. Application Analysis:

Manufacturers begin by conducting a thorough analysis of the intended application and equipment requirements. This analysis involves understanding the specific torque and speed demands, operating conditions (such as temperature, vibration levels, and environmental factors), and any unique characteristics or constraints of the equipment. By gaining a comprehensive understanding of the application, manufacturers can tailor the design and specifications of the drive shaft to ensure compatibility.

2. Customization and Design:

Manufacturers often offer customization options to adapt drive shafts to different equipment. This customization involves tailoring the dimensions, materials, joint configurations, and other parameters to match the specific requirements of the equipment. By working closely with the equipment manufacturer or end-user, manufacturers can design drive shafts that align with the equipment’s mechanical interfaces, mounting points, available space, and other constraints. Customization ensures that the drive shaft fits seamlessly into the equipment, promoting compatibility and optimal performance.

3. Torque and Power Capacity:

Drive shaft manufacturers carefully determine the torque and power capacity of their products to ensure compatibility with different equipment. They consider factors such as the maximum torque requirements of the equipment, the expected operating conditions, and the safety margins necessary to withstand transient loads. By engineering drive shafts with appropriate torque ratings and power capacities, manufacturers ensure that the shaft can handle the demands of the equipment without experiencing premature failure or performance issues.

4. Material Selection:

Manufacturers choose materials for drive shafts based on the specific needs of different equipment. Factors such as torque capacity, operating temperature, corrosion resistance, and weight requirements influence material selection. Drive shafts may be made from various materials, including steel, aluminum alloys, or specialized composites, to provide the necessary strength, durability, and performance characteristics. The selected materials ensure compatibility with the equipment’s operating conditions, load requirements, and other environmental factors.

5. Joint Configurations:

Drive shafts incorporate joint configurations, such as universal joints (U-joints) or constant velocity (CV) joints, to accommodate different equipment needs. Manufacturers select and design the appropriate joint configuration based on factors such as operating angles, misalignment tolerances, and the desired level of smooth power transmission. The choice of joint configuration ensures that the drive shaft can effectively transmit power and accommodate the range of motion required by the equipment, promoting compatibility and reliable operation.

6. Quality Control and Testing:

Manufacturers implement stringent quality control processes and testing procedures to verify the compatibility of drive shafts with different equipment. These processes involve conducting dimensional inspections, material testing, torque and stress analysis, and performance testing under simulated operating conditions. By subjecting drive shafts to rigorous quality control measures, manufacturers can ensure that they meet the required specifications and performance criteria, guaranteeing compatibility with the intended equipment.

7. Compliance with Standards:

Manufacturers ensure that their drive shafts comply with relevant industry standards and regulations. Compliance with standards, such as ISO (International Organization for Standardization) or specific industry standards, provides assurance of quality, safety, and compatibility. Adhering to these standards helps manufacturers meet the expectations and requirements of equipment manufacturers and end-users, ensuring that the drive shafts are compatible and can be seamlessly integrated into different equipment.

8. Collaboration and Feedback:

Manufacturers often collaborate closely with equipment manufacturers, OEMs (Original Equipment Manufacturers), or end-users to gather feedback and incorporate their specific requirements into the drive shaft design and manufacturing processes. This collaborative approach ensures that the drive shafts are compatible with the intended equipment and meet the expectations of the end-users. By actively seeking input and feedback, manufacturers can continuously improve their products’ compatibility and performance.

In summary, manufacturers ensure the compatibility of drive shafts with different equipment through a combination of application analysis, customization, torque and power capacity considerations, material selection, joint configurations, quality control and testing, compliance with standards, and collaboration with equipment manufacturers and end-users. These efforts enable manufacturers to design and produce drive shafts that seamlessly integrate with various equipment, ensuring optimal performance, reliability, and compatibility in different applications.

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

Working with drive shafts requires adherence to specific safety precautions to prevent accidents, injuries, and damage to equipment. Drive shafts are critical components of a vehicle or machinery’s driveline system and can pose hazards if not handled properly. Here’s a detailed explanation of the safety precautions that should be followed when working with drive shafts:

1. Personal Protective Equipment (PPE):

Always wear appropriate personal protective equipment when working with drive shafts. This may include safety goggles, gloves, steel-toed boots, and protective clothing. PPE helps protect against potential injuries from flying debris, sharp edges, or accidental contact with moving parts.

2. Lockout/Tagout Procedures:

Before working on a drive shaft, ensure that the power source is properly locked out and tagged out. This involves isolating the power supply, such as shutting off the engine or disconnecting the electrical power, and securing it with a lockout/tagout device. This prevents accidental engagement of the drive shaft while maintenance or repair work is being performed.

3. Vehicle or Equipment Support:

When working with drive shafts in vehicles or equipment, use proper support mechanisms to prevent unexpected movement. Securely block the vehicle’s wheels or utilize support stands to prevent the vehicle from rolling or shifting during drive shaft removal or installation. This helps maintain stability and reduces the risk of accidents.

4. Proper Lifting Techniques:

When handling heavy drive shafts, use proper lifting techniques to prevent strain or injuries. Lift with the help of a suitable lifting device, such as a hoist or jack, and ensure that the load is evenly distributed and securely attached. Avoid lifting heavy drive shafts manually or with improper lifting equipment, as this can lead to accidents and injuries.

5. Inspection and Maintenance:

Prior to working on a drive shaft, thoroughly inspect it for any signs of damage, wear, or misalignment. If any abnormalities are detected, consult a qualified technician or engineer before proceeding. Regular maintenance is also essential to ensure the drive shaft is in good working condition. Follow the manufacturer’s recommended maintenance schedule and procedures to minimize the risk of failures or malfunctions.

6. Proper Tools and Equipment:

Use appropriate tools and equipment specifically designed for working with drive shafts. Improper tools or makeshift solutions can lead to accidents or damage to the drive shaft. Ensure that tools are in good condition, properly sized, and suitable for the task at hand. Follow the manufacturer’s instructions and guidelines when using specialized tools or equipment.

7. Controlled Release of Stored Energy:

Some drive shafts, particularly those with torsional dampers or other energy-storing components, can store energy even when the power source is disconnected. Exercise caution when working on such drive shafts and ensure that the stored energy is safely released before disassembly or removal.

8. Training and Expertise:

Work on drive shafts should only be performed by individuals with the necessary training, knowledge, and expertise. If you are not familiar with drive shafts or lack the required skills, seek assistance from qualified technicians or professionals. Improper handling or installation of drive shafts can lead to accidents, damage, or compromised performance.

9. Follow Manufacturer’s Guidelines:

Always follow the manufacturer’s guidelines, instructions, and warnings specific to the drive shaft you are working with. These guidelines provide important information regarding installation, maintenance, and safety considerations. Deviating from the manufacturer’s recommendations may result in unsafe conditions or void warranty coverage.

10. Disposal of Old or Damaged Drive Shafts:

Dispose of old or damaged drive shafts in accordance with local regulations and environmental guidelines. Improper disposal can have negative environmental impacts and may violate legal requirements. Consult with local waste management authorities or recycling centers to ensure appropriate disposal methods are followed.

By following these safety precautions, individuals can minimize the risks associated with working with drive shafts and promote a safe working environment. It is crucial to prioritize personal safety, use proper equipment and techniques, and seek professional help when needed to ensure the proper handling and maintenance of drive shafts.

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How do drive shafts contribute to transferring rotational power in various applications?

Drive shafts play a crucial role in transferring rotational power from the engine or power source to the wheels or driven components in various applications. Whether it’s in vehicles or machinery, drive shafts enable efficient power transmission and facilitate the functioning of different systems. Here’s a detailed explanation of how drive shafts contribute to transferring rotational power:

1. Vehicle Applications:

In vehicles, drive shafts are responsible for transmitting rotational power from the engine to the wheels, enabling the vehicle to move. The drive shaft connects the gearbox or transmission output shaft to the differential, which further distributes the power to the wheels. As the engine generates torque, it is transferred through the drive shaft to the wheels, propelling the vehicle forward. This power transfer allows the vehicle to accelerate, maintain speed, and overcome resistance, such as friction and inclines.

2. Machinery Applications:

In machinery, drive shafts are utilized to transfer rotational power from the engine or motor to various driven components. For example, in industrial machinery, drive shafts may be used to transmit power to pumps, generators, conveyors, or other mechanical systems. In agricultural machinery, drive shafts are commonly employed to connect the power source to equipment such as harvesters, balers, or irrigation systems. Drive shafts enable these machines to perform their intended functions by delivering rotational power to the necessary components.

3. Power Transmission:

Drive shafts are designed to transmit rotational power efficiently and reliably. They are capable of transferring substantial amounts of torque from the engine to the wheels or driven components. The torque generated by the engine is transmitted through the drive shaft without significant power losses. By maintaining a rigid connection between the engine and the driven components, drive shafts ensure that the power produced by the engine is effectively utilized in performing useful work.

4. Flexible Coupling:

One of the key functions of drive shafts is to provide a flexible coupling between the engine/transmission and the wheels or driven components. This flexibility allows the drive shaft to accommodate angular movement and compensate for misalignment between the engine and the driven system. In vehicles, as the suspension system moves or the wheels encounter uneven terrain, the drive shaft adjusts its length and angle to maintain a constant power transfer. This flexibility helps prevent excessive stress on the drivetrain components and ensures smooth power transmission.

5. Torque and Speed Transmission:

Drive shafts are responsible for transmitting both torque and rotational speed. Torque is the rotational force generated by the engine or power source, while rotational speed is the number of revolutions per minute (RPM). Drive shafts must be capable of handling the torque requirements of the application without excessive twisting or bending. Additionally, they need to maintain the desired rotational speed to ensure the proper functioning of the driven components. Proper design, material selection, and balancing of the drive shafts contribute to efficient torque and speed transmission.

6. Length and Balance:

The length and balance of drive shafts are critical factors in their performance. The length of the drive shaft is determined by the distance between the engine or power source and the driven components. It should be appropriately sized to avoid excessive vibrations or bending. Drive shafts are carefully balanced to minimize vibrations and rotational imbalances, which can affect the overall performance, comfort, and longevity of the drivetrain system.

7. Safety and Maintenance:

Drive shafts require proper safety measures and regular maintenance. In vehicles, drive shafts are often enclosed within a protective tube or housing to prevent contact with moving parts, reducing the risk of injury. Safety shields or guards may also be installed around exposed drive shafts in machinery to protect operators from potential hazards. Regular maintenance includes inspecting the drive shaft for wear, damage, or misalignment, and ensuring proper lubrication of the U-joints. These measures help prevent failures, ensure optimal performance, and extend the service life of the drive shaft.

In summary, drive shafts play a vital role in transferring rotational power in various applications. Whether in vehicles or machinery, drive shafts enable efficient power transmission from the engine or power source to the wheels or driven components. They provide a flexible coupling, handle torque and speed transmission, accommodate angular movement, and contribute to the safety and maintenance of the system. By effectively transferring rotational power, drive shafts facilitate the functioning and performance of vehicles and machinery in numerous industries.

China best Shaft CNC Machining Shaft Flange Shaft Roller Shaft Drive Shaft Gear Shaft Spline Shaft Logistics Equipment Shaft Conveyor Shaft Coater Shaft  China best Shaft CNC Machining Shaft Flange Shaft Roller Shaft Drive Shaft Gear Shaft Spline Shaft Logistics Equipment Shaft Conveyor Shaft Coater Shaft
editor by CX 2024-01-04

China wholesaler ODM and OEM worm gear shaft spline drive shaft flexible drive shaft with Best Sales

Company Profile HangZhou Gainthing hardware Precision Mold Co.,ltdEstablished in 2006, Located in HangZhou, HangZhou Gainthing hardware Co.,Ltd is a professional manufacturer of various stampingmold parts,plastic mold parts and mechanical parts. We can provide 1 stop service with international common standards, such asISO, JIS, DIN, AISI etc. Products Description

Material
Steel:HSS , ASP23,Carbon steel, ASSAB Steel, 1.2379, Q235, 1.2842, C45# etc.

Stainless Steel: 303 / 304 / 316 / 416 / etc.

Aluminum: AL7075,AL6061,AL5052 etc.

Titanium: Grades 1-4 Grade 5 Grade 9 etc.

Tungsten Carbide:YG6, YG6X, YG8, YG8x, NMRV worm gear box speed blender gearbox reducer machine YG8A, YG8N, YG10, YG13X, YG13, YG15X, YG15, YG18X, YG18, YG20 etc.

Brass,Copper,Bronze etc.

Plastic: ABS, PC, PE, POM, Delrin, Nylon, Teflon, PP,PEI, Peek etc.

Surface treatment
Polishing, Sandblasted,Anodizing, Newstart Bestsellers stepper motor carbon steel planetary gearbox reducer with 90 degree Chrome plating, Zinc plating, Nickel plating, Laser engraving, PVD coating etc.

Our Equipments
6 sets CNC Machining Center, 4 sets CNC AUTO Lathe Machine, 4 sets CNC Milling Machine,4 sets Drilling Machine, 8 sets Grinding Machine, 4 sets EDM Wire Cutting etc.

Inspection Equipment
2 sets Japan Projector, 1 set Microscope, 2 sets 2D Projection, 4 sets Height gauge, 8 sets Micrometers, 6 sets vernier caliper, 10 pcs Plug Thread Gages, 10 pcs Ring Thread Gages etc.

Accuracy
Accuracy Of Machining:+/-0.005mm, Accuracy Of Grinding:+/-0.005mm,Surface Roughness:Ra0.4,Parallelism:0.01mm,Verticality:0.01mmConcentricity:0.01mm

Surface Roughness
Ra0.1-Ra3.2/ Also can be customized

Leading Time Guarantee
A day’s delay upon our ETD, 1% compensation, 04438-12070 KingSteel Auto Rubber Parts Drive Shaft CV Joint Rubber Boot Inner Dust Boot for COROLLA Celica MATRIX by parity of reasoning, up to 10%

Quality control
Strictly IQC—PQC—OQC

Our Machines Product packaging Our Certificate Our Partners Our Services FAQ Q1: Are you a trading company or a manufacturer?We are manufacturer for sure.Q2: What is the process of an order?Send your detailed request → Feedback with quotation → Confirm quotation & make payment → Confirm drawings → Star production→Quality checking→Packing →Delivery →After Service →Repeat Order… Q3: How to pay for the order? There are 5 options to pay the order: Bank Transfer;Western Union; Paypal ; Payoneer, Alibaba Trade Assurance. Kindly choose the most suitable way for you to arrange it. Q4: What is the shipping method? Most of goods were sent out by international airway express company like DHL,UPS,FedEx,TNT. Usually takes around 3-4 working days (door to door service). We also can arrange shipment via sea way . Q5: Can you give me help if my products are very urgent? Yes, we will try our best give you help. Because we have our own factory to produce. We can flexible to adjust our production schedule. Q6: I want to keep our design in secret, can we sign NDA? Sure, we will not display any customers’ design or show to other people, NRV Shaft Input Aluminium Profile System High Quality Worm Gear we can sign NDA.

How to Choose the Right Worm Shaft

You might be curious to know how to choose the right Worm Shaft. In this article, you will learn about worm modules with the same pitch diameter, Double-thread worm gears, and Self-locking worm drive. Once you have chosen the proper Worm Shaft, you will find it easier to use the equipment in your home. There are many advantages to selecting the right Worm Shaft. Read on to learn more.
worm shaft

Concave shape

The concave shape of a worm’s shaft is an important characteristic for the design of a worm gearing. Worm gearings can be found in a wide range of shapes, and the basic profile parameters are available in professional and firm literature. These parameters are used in geometry calculations, and a selection of the right worm gearing for a particular application can be based on these requirements.
The thread profile of a worm is defined by the tangent to the axis of its main cylinder. The teeth are shaped in a straight line with a slightly concave shape along the sides. It resembles a helical gear, and the profile of the worm itself is straight. This type of gearing is often used when the number of teeth is greater than a certain limit.
The geometry of a worm gear depends on the type and manufacturer. In the earliest days, worms were made similar to simple screw threads, and could be chased on a lathe. During this time, the worm was often made with straight-sided tools to produce threads in the acme plane. Later, grinding techniques improved the thread finish and reduced distortions resulting from hardening.
When a worm gearing has multiple teeth, the pitch angle is a key parameter. A greater pitch angle increases efficiency. If you want to increase the pitch angle without increasing the number of teeth, you can replace a worm pair with a different number of thread starts. The helix angle must increase while the center distance remains constant. A higher pitch angle, however, is almost never used for power transmissions.
The minimum number of gear teeth depends on the angle of pressure at zero gearing correction. The diameter of the worm is d1, and is based on a known module value, mx or mn. Generally, larger values of m are assigned to larger modules. And a smaller number of teeth is called a low pitch angle. In case of a low pitch angle, spiral gearing is used. The pitch angle of the worm gear is smaller than 10 degrees.
worm shaft

Multiple-thread worms

Multi-thread worms can be divided into sets of one, two, or four threads. The ratio is determined by the number of threads on each set and the number of teeth on the apparatus. The most common worm thread counts are 1,2,4, and 6. To find out how many threads you have, count the start and end of each thread and divide by two. Using this method, you will get the correct thread count every time.
The tangent plane of a worm’s pitch profile changes as the worm moves lengthwise along the thread. The lead angle is greatest at the throat, and decreases on both sides. The curvature radius r” varies proportionally with the worm’s radius, or pitch angle at the considered point. Hence, the worm leads angle, r, is increased with decreased inclination and decreases with increasing inclination.
Multi-thread worms are characterized by a constant leverage between the gear surface and the worm threads. The ratio of worm-tooth surfaces to the worm’s length varies, which enables the wormgear to be adjusted in the same direction. To optimize the gear contact between the worm and gear, the tangent relationship between the two surfaces is optimal.
The efficiency of worm gear drives is largely dependent on the helix angle of the worm. Multiple thread worms can improve the efficiency of the worm gear drive by as much as 25 to 50% compared to single-thread worms. Worm gears are made of bronze, which reduces friction and heat on the worm’s teeth. A specialized machine can cut the worm gears for maximum efficiency.

Double-thread worm gears

In many different applications, worm gears are used to drive a worm wheel. These gears are unique in that the worm cannot be reversed by the power applied to the worm wheel. Because of their self-locking properties, they can be used to prevent reversing motion, although this is not a dependable function. Applications for worm gears include hoisting equipment, elevators, chain blocks, fishing reels, and automotive power steering. Because of their compact size, these gears are often used in applications with limited space.
Worm sets typically exhibit more wear than other types of gears, and this means that they require more limited contact patterns in new parts. Worm wheel teeth are concave, making it difficult to measure tooth thickness with pins, balls, and gear tooth calipers. To measure tooth thickness, however, you can measure backlash, a measurement of the spacing between teeth in a gear. Backlash can vary from one worm gear to another, so it is important to check the backlash at several points. If the backlash is different in two places, this indicates that the teeth may have different spacing.
Single-thread worm gears provide high speed reduction but lower efficiency. A multi-thread worm gear can provide high efficiency and high speed, but this comes with a trade-off in terms of horsepower. However, there are many other applications for worm gears. In addition to heavy-duty applications, they are often used in light-duty gearboxes for a variety of functions. When used in conjunction with double-thread worms, they allow for a substantial speed reduction in one step.
Stainless-steel worm gears can be used in damp environments. The worm gear is not susceptible to rust and is ideal for wet and damp environments. The worm wheel’s smooth surfaces make cleaning them easy. However, they do require lubricants. The most common lubricant for worm gears is mineral oil. This lubricant is designed to protect the worm drive.
worm shaft

Self-locking worm drive

A self-locking worm drive prevents the platform from moving backward when the motor stops. A dynamic self-locking worm drive is also possible but does not include a holding brake. This type of self-locking worm drive is not susceptible to vibrations, but may rattle if released. In addition, it may require an additional brake to keep the platform from moving. A positive brake may be necessary for safety.
A self-locking worm drive does not allow for the interchangeability of the driven and driving gears. This is unlike spur gear trains that allow both to interchange positions. In a self-locking worm drive, the driving gear is always engaged and the driven gear remains stationary. The drive mechanism locks automatically when the worm is operated in the wrong manner. Several sources of information on self-locking worm gears include the Machinery’s Handbook.
A self-locking worm drive is not difficult to build and has a great mechanical advantage. In fact, the output of a self-locking worm drive cannot be backdriven by the input shaft. DIYers can build a self-locking worm drive by modifying threaded rods and off-the-shelf gears. However, it is easier to make a ratchet and pawl mechanism, and is significantly less expensive. However, it is important to understand that you can only drive one worm at a time.
Another advantage of a self-locking worm drive is the fact that it is not possible to interchange the input and output shafts. This is a major benefit of using such a mechanism, as you can achieve high gear reduction without increasing the size of the gear box. If you’re thinking about buying a self-locking worm gear for a specific application, consider the following tips to make the right choice.
An enveloping worm gear set is best for applications requiring high accuracy and efficiency, and minimum backlash. Its teeth are shaped differently, and the worm’s threads are modified to increase surface contact. They are more expensive to manufacture than their single-start counterparts, but this type is best for applications where accuracy is crucial. The worm drive is also a great option for heavy trucks because of their large size and high-torque capacity.

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China Best Sales 12V 24V dc worm gear motor dc 700W brushed gear motor with Good quality

Product Name: 12V 24V dc worm gear motor 700W,brushed gear motor 12V 24V dc worm gear motor 700W,brushed gear motor Description: 12V 24V dc worm gear motor 700W,brushed gear motor 24v dc worm gear motor with gearbox contains worm gear reducer and motor(Including 3 phrese AC motor,single AC motor,DC servo motor and DC PM motor).The square aluminum gearbox is manufactured based on GB157188 cylindrical gear parameter.During the process, many advanced technologies are adopted.So it has compact structure, good appearance and excellent heatsink when runing.
This series dc geared motor has the following characteristics:smooth running, low noise, large transmission ratio and strange loadcapacity and it may match with different kinds of motors for realizing speed adjustment.

Parameter:

Type:
high precision 12v dc geared motor
Model:
Center Distance:25,30,40,50,63,75,90,110,130
Ratio:
5, Replacement N210121-1X Drive Shaft Autoparts center support bearing for heavy duty truck 7.5,10,15,20,25,30,40,50,60,80,100
Color:
Blue/Silver White
Material:
Aluminium Alloy
Worm Gear- Cooper-10-3
Worm-20CrMnTi with carburizing and quenching, surface hardness is 56-62HRC
Shaft-chromium steel-45
Packing:
Carton box/per set(With foam board inside)
Bearing:
Brand “NSK” Bearing
Seal:
NAK Seal from ZheJiang
Warranty:
1 year
Input Power:
0.1kw,0.55kw,0.75kw,1.1kw,1.5kw, ZLYJ146 Gearbox for single screw plastic extruder 2.2kw,4kw,5.5kw,7.5kw
Usages:
In industrial machine: widely used in packing, printing,textile machine,as well as woodworking,
glass and plastics,food stuff,ceramics,chemical,etc.
IEC Flange:
B5,B14
Lubricant:
Synthetic & Mineral

Picture:

Packing:

Export standard: Wooden case, Plywood case, Carton box for sea & air freight

Sample time:5-7 days

Delivery time:15-20days after received payment

Service:

1. Low MOQ: It can meet your promotional business very well.

2. OEM Accepted : We can produce any your design .

3. Good Service : We treat clients as friend.

4. Good Quality :We have strict quality control system .Good reputation in the market.

5. Fast & Cheap Delivery: We have big discount from forwarder (Long Contract).

Order Information:

1. Voltage 2. Speed 3. Frequency 4. Mount Type 5. Frame material 6. others

How to Calculate the Diameter of a Worm Gear

worm shaft
In this article, we will discuss the characteristics of the Duplex, Single-throated, and Undercut worm gears and the analysis of worm shaft deflection. Besides that, we will explore how the diameter of a worm gear is calculated. If you have any doubt about the function of a worm gear, you can refer to the table below. Also, keep in mind that a worm gear has several important parameters which determine its working.

Duplex worm gear

A duplex worm gear set is distinguished by its ability to maintain precise angles and high gear ratios. The backlash of the gearing can be readjusted several times. The axial position of the worm shaft can be determined by adjusting screws on the housing cover. This feature allows for low backlash engagement of the worm tooth pitch with the worm gear. This feature is especially beneficial when backlash is a critical factor when selecting gears.
The standard worm gear shaft requires less lubrication than its dual counterpart. Worm gears are difficult to lubricate because they are sliding rather than rotating. They also have fewer moving parts and fewer points of failure. The disadvantage of a worm gear is that you cannot reverse the direction of power due to friction between the worm and the wheel. Because of this, they are best used in machines that operate at low speeds.
Worm wheels have teeth that form a helix. This helix produces axial thrust forces, depending on the hand of the helix and the direction of rotation. To handle these forces, the worms should be mounted securely using dowel pins, step shafts, and dowel pins. To prevent the worm from shifting, the worm wheel axis must be aligned with the center of the worm wheel’s face width.
The backlash of the CZPT duplex worm gear is adjustable. By shifting the worm axially, the section of the worm with the desired tooth thickness is in contact with the wheel. As a result, the backlash is adjustable. Worm gears are an excellent choice for rotary tables, high-precision reversing applications, and ultra-low-backlash gearboxes. Axial shift backlash is a major advantage of duplex worm gears, and this feature translates into a simple and fast assembly process.
When choosing a gear set, the size and lubrication process will be crucial. If you’re not careful, you might end up with a damaged gear or one with improper backlash. Luckily, there are some simple ways to maintain the proper tooth contact and backlash of your worm gears, ensuring long-term reliability and performance. As with any gear set, proper lubrication will ensure your worm gears last for years to come.
worm shaft

Single-throated worm gear

Worm gears mesh by sliding and rolling motions, but sliding contact dominates at high reduction ratios. Worm gears’ efficiency is limited by the friction and heat generated during sliding, so lubrication is necessary to maintain optimal efficiency. The worm and gear are usually made of dissimilar metals, such as phosphor-bronze or hardened steel. MC nylon, a synthetic engineering plastic, is often used for the shaft.
Worm gears are highly efficient in transmission of power and are adaptable to various types of machinery and devices. Their low output speed and high torque make them a popular choice for power transmission. A single-throated worm gear is easy to assemble and lock. A double-throated worm gear requires two shafts, one for each worm gear. Both styles are efficient in high-torque applications.
Worm gears are widely used in power transmission applications because of their low speed and compact design. A numerical model was developed to calculate the quasi-static load sharing between gears and mating surfaces. The influence coefficient method allows fast computing of the deformation of the gear surface and local contact of the mating surfaces. The resultant analysis shows that a single-throated worm gear can reduce the amount of energy required to drive an electric motor.
In addition to the wear caused by friction, a worm wheel can experience additional wear. Because the worm wheel is softer than the worm, most of the wear occurs on the wheel. In fact, the number of teeth on a worm wheel should not match its thread count. A single-throated worm gear shaft can increase the efficiency of a machine by as much as 35%. In addition, it can lower the cost of running.
A worm gear is used when the diametrical pitch of the worm wheel and worm gear are the same. If the diametrical pitch of both gears is the same, the two worms will mesh properly. In addition, the worm wheel and worm will be attached to each other with a set screw. This screw is inserted into the hub and then secured with a locknut.

Undercut worm gear

Undercut worm gears have a cylindrical shaft, and their teeth are shaped in an evolution-like pattern. Worms are made of a hardened cemented metal, 16MnCr5. The number of gear teeth is determined by the pressure angle at the zero gearing correction. The teeth are convex in normal and centre-line sections. The diameter of the worm is determined by the worm’s tangential profile, d1. Undercut worm gears are used when the number of teeth in the cylinder is large, and when the shaft is rigid enough to resist excessive load.
The center-line distance of the worm gears is the distance from the worm centre to the outer diameter. This distance affects the worm’s deflection and its safety. Enter a specific value for the bearing distance. Then, the software proposes a range of suitable solutions based on the number of teeth and the module. The table of solutions contains various options, and the selected variant is transferred to the main calculation.
A pressure-angle-angle-compensated worm can be manufactured using single-pointed lathe tools or end mills. The worm’s diameter and depth are influenced by the cutter used. In addition, the diameter of the grinding wheel determines the profile of the worm. If the worm is cut too deep, it will result in undercutting. Despite the undercutting risk, the design of worm gearing is flexible and allows considerable freedom.
The reduction ratio of a worm gear is massive. With only a little effort, the worm gear can significantly reduce speed and torque. In contrast, conventional gear sets need to make multiple reductions to get the same reduction level. Worm gears also have several disadvantages. Worm gears can’t reverse the direction of power because the friction between the worm and the wheel makes this impossible. The worm gear can’t reverse the direction of power, but the worm moves from one direction to another.
The process of undercutting is closely related to the profile of the worm. The worm’s profile will vary depending on the worm diameter, lead angle, and grinding wheel diameter. The worm’s profile will change if the generating process has removed material from the tooth base. A small undercut reduces tooth strength and reduces contact. For smaller gears, a minimum of 14-1/2degPA gears should be used.
worm shaft

Analysis of worm shaft deflection

To analyze the worm shaft deflection, we first derived its maximum deflection value. The deflection is calculated using the Euler-Bernoulli method and Timoshenko shear deformation. Then, we calculated the moment of inertia and the area of the transverse section using CAD software. In our analysis, we used the results of the test to compare the resulting parameters with the theoretical ones.
We can use the resulting centre-line distance and worm gear tooth profiles to calculate the required worm deflection. Using these values, we can use the worm gear deflection analysis to ensure the correct bearing size and worm gear teeth. Once we have these values, we can transfer them to the main calculation. Then, we can calculate the worm deflection and its safety. Then, we enter the values into the appropriate tables, and the resulting solutions are automatically transferred into the main calculation. However, we have to keep in mind that the deflection value will not be considered safe if it is larger than the worm gear’s outer diameter.
We use a four-stage process for investigating worm shaft deflection. We first apply the finite element method to compute the deflection and compare the simulation results with the experimentally tested worm shafts. Finally, we perform parameter studies with 15 worm gear toothings without considering the shaft geometry. This step is the first of four stages of the investigation. Once we have calculated the deflection, we can use the simulation results to determine the parameters needed to optimize the design.
Using a calculation system to calculate worm shaft deflection, we can determine the efficiency of worm gears. There are several parameters to optimize gearing efficiency, including material and geometry, and lubricant. In addition, we can reduce the bearing losses, which are caused by bearing failures. We can also identify the supporting method for the worm shafts in the options menu. The theoretical section provides further information.

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It has recognized secure cooperation with numerous properly known universities and institutes in china such as, Zhejiang University, Jilin College, Complex committee of national chain push standard, Institute of countrywide chain travel, Zhejiang application engineering material institute, Huhan materials protection institute and it cooperated to located China Very first Vehicle chain institute with Nationwide chain generate institute. If you are intrigued in any of our products or would like to discuss a prospective purchase, you should really feel free to contact us. Additionally, WE CAN Create Customized VARIATORS, GEARED MOTORS, Electric MOTORS AND OTHER HYDRAULIC Products In accordance TO CUSTOMERS’ DRAWINGS.

Elastic Drum EPT Coupling With Brake Disc (WGP)

WGP with brake disc Drum-type EPT coupling is a drum-kind EPT coupling referred to as quotdrum coupling quot, WGP with brake disc drum-variety EPT coupling has a brake disc, The speed of the EPTT can be altered by controlling the speed of the brake disc. As demonstrated in the figure, WGP with brake disc drum-kind EPT coupling is divided into two types of sort I and II, the big difference is only in the brake disc form is diverse.

WGP with brake disc Drum-variety EPT coupling is improved EPT coupling, relative to the straigEPTT coupling can allow higher angular displacement, can increase the get in touch with conditions of the enamel, increase the EPTT torque Of the ability to lengthen the provider lifestyle, with angular displacement aEPTT the tooth width of the make contact with point out, by the identical variety of tooth and the outer ring tooth and semi-coupling components and other elements.

WGP with brake disc drum-type EPT coupling in the work, the two shafts produce relative angular displacement, the inside and external teeth of the tooth surface for the aXiHu (West EPT) Dis.al relative sliding, the inescapable development of tooth surface dress in and EPTT consumption, for that reason, The shaft is to be operated in a nicely and sealed condition. EPTT coupling radial dimensions is small, carrying potential, typically used in minimal-speed weighty-duty problems of the shaft EPT, substantial precision and dynamic stability of the EPT coupling can be utilised for higher-pace EPTT.

#9830Product Description
middotSpecifications
one. Design: WGP1-WGP14
2. Nominal torque: .seventy one-160KN. M
three. Rmp: 4000-1200r/min
four. ISO9001

middotAdvantage
one. Lowest pice based on large scale generation
two. EPT and stable high quality stage
3. Punctual shipping time
4. EPTT following-sale service
five. AlwaEPTTresponsible and reputable
six. Prosperous experience operating with big businesses in this area
seven. ISO9001-2008 certified

middotFeatures
one. Widely used in a variety of mechanical and EPT fields
2. Minimal-EPT maintainance
three. Compensation for aXiHu (West EPT) Dis.al, radial and angular misalignment
four. Hassle-free aXiHu (West EPT) Dis.al plugging assembly
five. Put in horizontally and vertically with no using any soeciao instruments.
six. Exceptional mechanical homes
7. No brittlement at lower temperature
8. Very good slippery and frictional qualities
nine. Exellent EPT insulation

#9830Product EPTT

#9830Other EPT Record

EPTT EPTTry
Areas Identify
Design
EPT 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
EPT FleXiHu (West EPT) Dis.ble Coupling LM
EPTT Coupling GL
Jaw Coupling LT
Grid Coupling JS

#9830Our EPTT
Our business materials diverse types of goods. EPT good quality and realistic price. We stick to the basic principle of quotquality initial, service initial, continuous advancement and innovation to fulfill the buyers quot for the administration and quotzero defect, zero issues quot as the high quality aim. To perfect our services, we supply the items with excellent quality at the sensible value.

Welcome to customize items from our manufacturing unit and remember to offer your design drawings or contact us if you need to have other demands.

#9830Our Solutions
one.Layout Services
Our design group has encounter in cardan shaft relating to solution design and deveXiHu (West EPT) Dis.Hu (West EPT) Dis.ment. If you have any demands for your new solution or want to make additional enhancements, we are listed here to provide our support.

2.Product Solutions
uncooked resources #8594 Reducing #8594 EPT #8594Rough machining #8594Shot blasting #8594Heat treatment method #8594Testing #8594Fashioning #8594Cleaning #8594 Assembly #8594EPTT #8594EPT

3.Samples Procedure
We could deveXiHu (West EPT) Dis.Hu (West EPT) Dis. the sample in accordance to your need and amend the sample continuously to satisfy your need.

four.EPT amp DeveXiHu (West EPT) Dis.Hu (West EPT) Dis.ment
We generally research the new requirements of the market place and deveXiHu (West EPT) Dis.Hu (West EPT) Dis. the new design when there is new autos in the industry.

five.EPTT EPTT
Each step need to be EPTT test by Professional Workers in accordance to the stXiHu (West EPT) Dis.Hu (West EPT) Dis.rd of ISO9001 and TS16949.

#9830FAQ
Q 1: Are you investing firm or manufacturer?
A: We are a skilled producer EPTTizing in producing
different sequence of couplings.

Q 2:Can you do OEM?
Of course, we can. We can do OEM amp ODM for all the clients with EPT artworks of PDF or AI format.

Q 3:How EPTT is your shipping and delivery time?
EPTTly it is twenty-thirty daEPTTif the items are not in inventory. It is in accordance to amount.

Q four: Do you offer samples ? Is it totally free or further ?
Indeed, we could supply the sample but not for totally free.Actually we have a quite very good value theory, when you make the bulk orEPTTthen EPT of sample will be deducted.

Q five: How EPTT is your guarantee?
A: Our Warranty is twelve thirty day period unEPTTnormal circumstance.

Q six: What is the MOQ?
A:Generally our MOQ is 1pcs.

Q seven: Do you have inspection processes for coupling ?
A:100% self-inspection ahead of EPTT.

Q eight: Can I have a check out to your factory prior to the purchase?
A: Sure,welcome to check out our factory.

Q 9: What’s your payment?
A:one) T/T. 2) L/C

#9830Make contact with Us
World wide web:
Include: No.1 HangEPT Highway,CXiHu (West EPT) Dis.Hu (West EPT) Dis. park,EPTTgEPTTng EPTT,EPTTngsu Province,EPTT

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Hangzhou EPG Co.,Ltd. , was started in November, 1997. With its 5 wholly owned subsidiaries. With many years’ encounter in these lines, we have been distinguished from other suppliers in China by our benefits in aggressive pricing, on-time delivery, prompt responses, on-hand engineering support and good after-product sales solutions. makes certain the balance and regularity of the key perform of factors. EPT L4508 tractor parts TC050-99342-6T TC050-99342-37T assy EPTTl EPT and shaft

detail picture

EPTT Introduction
EPTTYU organization mostly source Farm tractors, Merge harvesters and connected EPTTlements, as well as their spare components.

Also we offer OEM support for Various brands tractors PTO Driving shafts, EPTTl EPTs, Rotary blades.

If you could not find the items on our web site, Welcome to deliver us drawing or sample, we could custom as your wants.

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Our principal products are Needle Roller bearings, Cylindrical Roller Bearings, Rod conclude Bearings, Spherical plain bearings, Observe roller Bearings for Guideway, Roller Bearings, Merge Bearings for forklifts, H2o Pump Bearings, SNR Automobile Bearings and all sorts of Spherical Bearings. Our solution range also addresses locking assemblies (clamping components/locking system), taper bushes, QD bushes, bolt-on hubs, torque limiters, shaft collars, motor bases and motor slides, chain detachers, chain guides, common joint, rod ends and yokes. Our business pays particular interest to customers’ requirements, listening to the specific specifications of every single consumer and guaranteeing whole pleasure.

EPTT profile

Conice was estabEPTTd on Jan., 2007, we have more than eighty personnel and much more than twenty% of them are EPTTized technical personnel.

Coming aEPTT the way,Conice has turn into a specialist producer and exporter in precision shaft, micro shaft, motor shaft, stainless steel shaft, non-stXiHu (West EPT) Dis.Hu (West EPT) Dis.rd shaft and EPT areas.

The goods are used in various fields these kinds of as house EPT, micro motor, personal computer, scanner, printer, conversation, automobile and EPTTry products and instrument and many others.

We handed IATF16949:2016 EPTT Administration System Certification:

We handed ISO9001:2015 EPTT Management Method Certification.

FAQ:

1,How can I get samples?

If sample value unEPTT20$,we can ship by free of charge.Normally we would demand samples.

For Sample delivery, it really is EPT if consumer can have EPT courier account number.
Or buyer can arrange nearby courier company to select up samples from our manufacturing unit.

Also we can organize in our facet and charge courier expenses accordingly. Any additional issue,pls publish to our electronic mail box!

two,What is the leadtime for sample orEPTT?

ten-fifteen daEPTTafter acquiring your sample buy.

three,What is leadtime for mass quantity ?

It truly is rely on the amount.
For example: If the quantity as 10000pcs, 15 daEPTTfor the leadtime following acquiring PO.

4,Payment Conditions:

1.100% T/T in EPT (thirty% deposit,harmony paid out just before cargo).
2.a hundred% T/T (thirty% deposit, equilibrium thirty daEPTTafter B/L day),but masking CITIC.
3.L/C
4.D/P
five.D/A
6.Paypal

5,What is your minimal purchase amount for the products in the buy?

2000pcs for each and every dimension except for sample.

six,Are you a trading organization or maker?

We are a manufacturer, EPTTized in producing and exporting different shafts and pins

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We examine each piece of bearing by ourselves just before delivery. We can source a complete-variety of electricity transmission goods like chains, sprockets and plate wheels, pulleys, gearboxes, motors, couplings, gears and racks. Furthermore, all our creation processes are in compliance with ISO9002 requirements.

Foam EPTT EPT Metering EPT EPTs

A.[Solution Description]

The style uEPTTzes large stXiHu (West EPT) Dis.Hu (West EPT) Dis.rd exterior spur EPTs enclosed inside of a near tolerance housing assembly. This provides you the precise quantity of fluid dispensed for each shaft revolution. The housing is built from a precision floor and lapped three-plate assembly. This assembly is aligned with dowels to permit close management of functioning clearances. This construction technique in mix with numerous proprietary inside features is what assures precise, pulseless and trustworthy flow unEPTTvarying approach conditions. When HangEPT Instrument pumps are coupled with a pre-packaged, integrated, closed-loop pace control and a compact motor EPTr assembly (AC or DC), HangEPT Instrument is ready to give the most specific and fleXiHu (West EPT) Dis.ble metering EPT pump program on the marketplace.

B.[Parameters]

Model

Displacement

(CC/R)

Whole Peak Base Top Min Inlet Stress Max Outpet Stress Precision Temperature
GWMP-.15 .fifteen 83 28.one lt0.2Mpa lt30Mpa /-3% 200 ordmC

GWMP-.3

.3 85 30.two lt0.2Mpa lt30Mpa /-three% 200 ordmC
GWMP-.6 .6 85 32 lt0.2Mpa lt30Mpa /-three% two hundred ordmC
GWMP-1.2 one.2 ninety 34 lt0.2Mpa lt30Mpa /-3% two hundred ordmC
GWMP-2.four 2.four 100 forty two lt0.2Mpa lt30Mpa /-3% 200 ordmC
GWMP-3.6 three.6 a hundred and five fifty lt0.2Mpa lt30Mpa /-three% 200 ordmC
GWMP-six six one hundred thirty forty one lt0.2Mpa lt30Mpa /-three% 200 ordmC
GWMP-9 9 one hundred thirty five forty six lt0.2Mpa lt30Mpa /-3% 200 ordmC
GWMP-12 twelve a hundred and forty 51 lt0.2Mpa lt30Mpa /-3% 200 ordmC
GWMP-fifteen fifteen 145 56 lt0.2Mpa lt30Mpa /-three% two hundred ordmC
GWMP-20 20 one hundred fifty sixty four lt0.2Mpa lt30Mpa /-3% two hundred ordmC
GWMP-30 30 one hundred sixty five 80 lt0.2Mpa lt30Mpa /-three% 200 ordmC
GWMP-40 forty 90 215 lt0.2Mpa lt30Mpa /-3% 200 ordmC
GWMP-50 fifty 97 215 lt0.2Mpa lt30Mpa /-three% two hundred ordmC
GWMP-60 60 104.five 230 lt0.2Mpa lt30Mpa /-3% two hundred ordmC
GWMP-seventy five seventy five 112 230 lt0.2Mpa lt30Mpa /-three% two hundred ordmC
GWMP-eighty eighty EPTT EPTT lt0.2Mpa lt30Mpa /-three% 200 ordmC
GWMP-a hundred twenty five 125 EPTT

EPTT

lt0.2Mpa lt30Mpa /-3% 200 ordmC

Be aware:Course of rotation: clockwise from the aXiHu (West EPT) Dis.s of rotation

Model 6CC 9CC 12CC 15CC 20CC 25CC 30CC
A one hundred thirty a hundred thirty five 140 one hundred forty five 150 158 165
B 41 46 51 56 sixty four seventy two eighty

Min Inlet Stress lt0.2Mpa
Working Speed five~two hundred R/min
Medium EPT
Temperature two hundred ordmC
Max Outlet Strain lt30Mpa
Circulation Capability 6-thirty( /-thirty)CC/R
EPT Combined seal

Model .15CC .3CC .6CC 1.2CC 2.4CC 3.2CC three.6CC
A 83 eighty five 85 ninety a hundred 103 a hundred and five
B 28.one thirty.two 32 34 forty two forty seven.6 50

Min Inlet Pressure lt0.2Mpa
Functioning Pace 5~two hundred R/min
Medium EPT
Temperature 200 ordmC
Max Outlet Pressure lt30Mpa
Movement Capacity .15-3.6( /-three%)cc/r
EPT Combined

C.[Set up]

D.[EPTT Details]

  • Our EPTT is Top ten Manufacture on Alibaba
  • We have about thirty many years of knowledge in Manufacture
  • Our merchandise have been exported to much more one hundred coutries and region
  • ISO,SGS,CE and more ceterficates for you reference
  • Patent EPT and much more than 3 many years operating daily life

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We can provide a full-selection of power transmission merchandise like chains, sprockets and plate wheels, pulleys, gearboxes, motors, couplings, gears and racks. Furthermore, all our manufacturing methods are in compliance with ISO9002 expectations. If you need to have any info or samples, remember to get in touch with us and you will have our soon reply.

Performance Characteristics:
#9733 The joint of pump and valve with compact framework and small quantity.
#9733 EPTT flow outlet and wide velocity selection.
#9733 The connection form of input shaft incEPTTs SAE spline and metric program involute spline.

Product Nominal Displacement
(mL/r)
Pressure
(bar)
Speed
(r/min)
Stable Movement
(L/min)
Rated Max. Min. Rated Max.
CBW/FB-E316-AT Phi 16 160 two hundred 1350 2000 2500 18.nine~24.two

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Quality and credit score are the bases that make a company alive. Our AdvantagesProducts Massive volume in Inventory, No MOQ essential We comply with all the worldwide specifications, these kinds of as ISO9001 and TS16949 specifications. The group has taken part in the generating and revising of ISO/TC100 global chain regular many years in accomplishment and hosted the 16th ISO/TC100 International yearly meeting in 2004.

Functionality Characteristics:
#9733 EPT toughness EPT alloy content with ligEPTT weigEPTT and effortless set up.
#9733 The relationship kind of input shaft incEPTTs flat important, rectangle spline and involute spline.
#9733 The link sort of oil inlet and oil outlet has options of thread and flange.
#9733 The automatic compensation system of aXiHu (West EPT) Dis.al clearance permits EPT pump to sustain a EPTT-time large effectiveness function.

Design Nominal Displacement
(mL/r)
Strain
(bar)
Speed
(r/min)
Volume Efficiency
( ge%)
Rated Max. Min. Rated Max.
CBGX-fifty-BFHL fifty 250 280 800 2000 2500 90

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