China manufacturer 45# Worm Gear Worm Shaft 0.5 1 1.5 Module Speed Ratio 20 25 30 40 50 Turbo Worm Gear

Product Description

Product Name: Worm Gear and Worm Shaft
Size: 0.5M20T/0.5M25T/0.5M30T/0.5M35T/0.5M40T/0.5M50T/0.5M60T/1M15T/1M20T/1M25T/1M30T
/1M35T/1M40T/1M50T/1M60T
Material: 45 Steel
MOQ: 1
High Quality: Yes

Flat tooth gear pinion: Materail(carbon steel,copper,42Crm,plastics,stailness steel,Aluminum,iron)
0.1Mod,0.2Mod,0.3Mod,0.4Mod,0.5Mod,0.6Mod,0.7Mod,0.8Mod,0.9Mod1Mod,1.5Mod,1.25Mod,2Mod,2.5Mod,3Mod,3.5Mod,4Mod,5Mod,6Mod,7Mod,8Mod,9Mod,10Mod
11Mod,12Mod,13Mod,14Mod,15Mod,16Mod,17Mod,18Mod,19Mod,20Mod
Spur with step tooth gear pinion: Materail(carbon steel,copper,42Crm,plastics,stailness steel,Aluminum,iron)
0.1Mod,0.2Mod,0.3Mod,0.4Mod,0.5Mod,0.6Mod,0.7Mod,0.8Mod,0.9Mod1Mod,1.5Mod,1.25Mod,2Mod,2.5Mod,3Mod,3.5Mod,4Mod,5Mod,6Mod,7Mod,8Mod,9Mod,10Mod
11Mod,12Mod,13Mod,14Mod,15Mod,16Mod,17Mod,18Mod,19Mod,20Mod
Left Helical Flat tooth gear pinion: Materail(carbon steel,copper,42Crm,plastics,stailness steel,Aluminum,iron)
0.1Mod,0.2Mod,0.3Mod,0.4Mod,0.5Mod,0.6Mod,0.7Mod,0.8Mod,0.9Mod1Mod,1.5Mod,1.25Mod,2Mod,2.5Mod,3Mod,3.5Mod,4Mod,5Mod,6Mod,7Mod,8Mod,9Mod,10Mod
11Mod,12Mod,13Mod,14Mod,15Mod,16Mod,17Mod,18Mod,19Mod,20Mod
Left Helical Spur with step tooth gear pinion: Materail(carbon steel,copper,42Crm,plastics,stailness steel,Aluminum,iron)
0.1Mod,0.2Mod,0.3Mod,0.4Mod,0.5Mod,0.6Mod,0.7Mod,0.8Mod,0.9Mod1Mod,1.5Mod,1.25Mod,2Mod,2.5Mod,3Mod,3.5Mod,4Mod,5Mod,6Mod,7Mod,8Mod,9Mod,10Mod
11Mod,12Mod,13Mod,14Mod,15Mod,16Mod,17Mod,18Mod,19Mod,20Mod
Right Helical Flat tooth gear pinion: Materail(carbon steel,copper,42Crm,plastics,stailness steel,Aluminum,iron)
0.1Mod,0.2Mod,0.3Mod,0.4Mod,0.5Mod,0.6Mod,0.7Mod,0.8Mod,0.9Mod1Mod,1.5Mod,1.25Mod,2Mod,2.5Mod,3Mod,3.5Mod,4Mod,5Mod,6Mod,7Mod,8Mod,9Mod,10Mod
11Mod,12Mod,13Mod,14Mod,15Mod,16Mod,17Mod,18Mod,19Mod,20Mod
Right Helical Spur with step tooth gear pinion: Materail(carbon steel,copper,42Crm,plastics,stailness steel,Aluminum,iron)
0.1Mod,0.2Mod,0.3Mod,0.4Mod,0.5Mod,0.6Mod,0.7Mod,0.8Mod,0.9Mod1Mod,1.5Mod,1.25Mod,2Mod,2.5Mod,3Mod,3.5Mod,4Mod,5Mod,6Mod,7Mod,8Mod,9Mod,10Mod
11Mod,12Mod,13Mod,14Mod,15Mod,16Mod,17Mod,18Mod,19Mod,20Mod
Bevel Gear : Materail(carbon steel,copper,42Crm,plastics,stailness steel,Aluminum,iron)
0.1Mod,0.2Mod,0.3Mod,0.4Mod,0.5Mod,0.6Mod,0.7Mod,0.8Mod,0.9Mod1Mod,1.5Mod,1.25Mod,2Mod,2.5Mod,3Mod,3.5Mod,4Mod,5Mod,6Mod,7Mod,8Mod,9Mod,10Mod
11Mod,12Mod,13Mod,14Mod,15Mod,16Mod,17Mod,18Mod,19Mod,20Mod
Helical Bevel Gear : Materail(carbon steel,copper,42Crm,plastics,stailness steel,Aluminum,iron)
0.1Mod,0.2Mod,0.3Mod,0.4Mod,0.5Mod,0.6Mod,0.7Mod,0.8Mod,0.9Mod1Mod,1.5Mod,1.25Mod,2Mod,2.5Mod,3Mod,3.5Mod,4Mod,5Mod,6Mod,7Mod,8Mod,9Mod,10Mod
11Mod,12Mod,13Mod,14Mod,15Mod,16Mod,17Mod,18Mod,19Mod,20Mod

Product Description

 

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Standard or Nonstandard: Standard
Application: Textile Machinery, Garment Machinery, Conveyer Equipment, Electric Cars, Motorcycle, Food Machinery, Marine, Mining Equipment, Agricultural Machinery, Car
Head: Single Head
Samples:
US$ 2.2/Piece
1 Piece(Min.Order)

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Customization:
Available

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Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

Can worm wheels be customized for specific industries or machinery configurations?

Yes, worm wheels can be customized to meet the specific requirements of different industries or machinery configurations. Here’s a detailed explanation of the customization options available for worm wheels:

  • Tooth Profile: The tooth profile of a worm wheel can be customized to match the mating worm gear and optimize the performance of the gear system. Different tooth profiles, such as involute, cycloidal, or modified profiles, can be designed and manufactured based on the specific application requirements. Customizing the tooth profile ensures proper meshing, reduces wear, and enhances the overall efficiency and performance of the gear system.
  • Material Selection: Worm wheels can be customized by selecting the appropriate material based on the industry or application requirements. Different materials, such as steel, bronze, brass, or specialized alloys, offer varying properties such as strength, wear resistance, corrosion resistance, and self-lubricating characteristics. Customizing the material selection ensures that the worm wheel can withstand the specific operating conditions and provide optimal performance and longevity.
  • Size and Dimensions: Worm wheels can be customized in terms of size and dimensions to fit the specific machinery configuration or space constraints. Customization allows for the adjustment of parameters such as outer diameter, pitch diameter, face width, and bore diameter to ensure proper integration and alignment within the system. Custom sizing ensures efficient power transmission, minimizes space requirements, and enables compatibility with other components.
  • Number of Threads: The number of threads on a worm wheel can be customized to tailor the gear reduction ratio and torque capacity to the specific application requirements. Increasing or decreasing the number of threads affects the gear ratio, torque output, and contact area. Customizing the number of threads allows for precise matching with the desired speed reduction and torque transmission needs of the machinery.
  • Specialized Coatings or Treatments: Depending on the industry or application, worm wheels can undergo specialized coatings or treatments to enhance their performance. For example, coatings such as Teflon or molybdenum disulfide can reduce friction and improve lubrication properties. Heat treatments or surface hardening can increase wear resistance and durability. Customized coatings or treatments can be applied to meet specific requirements, such as high-speed operation, extreme temperatures, or corrosive environments.
  • Noise and Vibration Control: In certain industries or applications where noise and vibration control is critical, worm wheels can be customized to incorporate features that reduce noise and vibration levels. Design modifications, such as optimizing tooth profiles, refining manufacturing tolerances, or incorporating damping elements, can help minimize noise and vibration generation. Customization for noise and vibration control is particularly important in industries like automotive, aerospace, and precision machining.

By offering customization options, worm wheels can be tailored to meet the unique needs of various industries or machinery configurations. This flexibility allows engineers and designers to optimize the performance, efficiency, durability, and reliability of gear systems, ensuring smooth and precise motion in specific applications.

What role do worm wheels play in controlling speed and torque in mechanical assemblies?

Worm wheels play a crucial role in controlling speed and torque in mechanical assemblies. Here’s a detailed explanation of how worm wheels contribute to speed and torque control:

  • Gear Reduction: One of the primary functions of worm wheels is to provide gear reduction. The helical teeth of the worm gear engage with the teeth of the worm wheel, resulting in a rotational output that is slower than the input speed. The gear reduction ratio is determined by the number of threads on the worm wheel and the pitch diameter of the gear. By controlling the gear reduction ratio, worm wheels enable precise speed control in mechanical assemblies.
  • Speed Control: Worm wheels allow for fine control of rotational speed in mechanical assemblies. The high gear reduction ratio achievable with worm wheels enables slower output speeds, making them suitable for applications that require precise speed regulation. By adjusting the number of threads on the worm wheel or the pitch diameter of the gear, the speed output can be precisely controlled to match the requirements of the application.
  • Torque Amplification: Worm wheels are capable of amplifying torque in mechanical assemblies. The helical tooth engagement between the worm gear and the worm wheel creates a mechanical advantage, resulting in increased torque at the output. This torque amplification allows worm wheels to transmit higher torque levels while maintaining a compact design. The ability to control torque amplification makes worm wheels suitable for applications that require high torque output, such as lifting mechanisms, conveyors, or heavy machinery.
  • Torque Limiting: Worm wheels also provide torque limiting capabilities in mechanical assemblies. The self-locking nature of the worm wheel prevents reverse motion or backdriving from the output side to the input side. This self-locking property acts as a torque limiter, restricting excessive torque transmission and protecting the system from overload or damage. The torque limiting feature of worm wheels ensures safe and controlled operation in applications where torque limitation is critical, such as safety mechanisms or overload protection devices.
  • Directional Control: Worm wheels offer precise directional control in mechanical assemblies. The helical tooth engagement between the worm gear and the worm wheel allows for power transmission in a single direction. The self-locking property of the worm wheel prevents reverse motion, ensuring that the output shaft remains stationary when the input is not actively driving it. This directional control is beneficial in applications that require precise positioning or unidirectional motion, such as indexing mechanisms or robotic systems.
  • Load Distribution: Worm wheels play a role in distributing the load in mechanical assemblies. The sliding action between the worm gear and the worm wheel creates a larger contact area compared to other gear types. This increased contact area allows for better load distribution, minimizing stress concentration and ensuring even distribution of forces. By distributing the load effectively, worm wheels contribute to the longevity and reliability of mechanical assemblies.

Overall, worm wheels provide precise speed control, torque amplification, torque limiting, directional control, and load distribution capabilities in mechanical assemblies. These features make worm wheels versatile components that are widely used in various applications where precise control, torque management, and reliable performance are essential.

Can you provide examples of products or machinery that use worm wheels in their systems?

Yes, there are numerous products and machinery that utilize worm wheels as integral components in their systems. Here are some examples:

  • Elevators: Worm wheels are commonly used in elevator systems to control the vertical movement of the elevator car. The high gear reduction ratio of the worm wheel allows for precise and controlled lifting and lowering of the elevator. The self-locking property of the worm wheel ensures that the elevator remains stationary at each floor, enhancing safety and stability.
  • Conveyors: Conveyors, such as belt conveyors or screw conveyors, often incorporate worm wheels to drive the movement of the conveyor belt or screw. The gear reduction provided by the worm wheel allows for controlled and synchronized material handling in industries such as manufacturing, mining, and logistics.
  • Automotive Applications: Worm wheels are utilized in various automotive applications. For example, power steering systems use worm wheels to convert the rotational motion of the steering wheel into the linear motion required for steering the vehicle. Additionally, some automotive seat adjustment mechanisms and convertible roof systems use worm wheels for precise positioning and control.
  • Machine Tools: Worm wheels are found in machine tools like milling machines, lathes, and grinders. They are often used in the feed mechanisms to control the movement of the workpiece or cutting tool with high precision and accuracy. The high gear reduction ratio of the worm wheel enables fine adjustments of the feed rate and ensures stable and controlled machining operations.
  • Robotics: Worm wheels are employed in various robotic systems for precise motion control. They can be found in robotic arms, grippers, and joints, allowing for accurate positioning and movement. The self-locking property of the worm wheel ensures that the robot maintains its position when not actively driven, providing stability and safety in robotic applications.
  • Positioning Systems: Precision positioning systems, such as linear stages or rotary stages, utilize worm wheels to achieve accurate and repeatable motion. These systems are commonly used in semiconductor manufacturing, optics, microscopy, and other industries where precise positioning is critical. Worm wheels provide the necessary gear reduction and precise control required for precise positioning applications.
  • Gate Operators: Worm wheels are employed in gate operator systems to control the opening and closing of gates, such as in residential or commercial gate automation. The gear reduction provided by the worm wheel allows for controlled and smooth operation of the gate, ensuring security and convenience.
  • Industrial Mixers: Worm wheels are used in industrial mixers and agitators to control the rotational speed and torque applied to the mixing blades. The gear reduction ratio of the worm wheel enables precise control of the mixing process, ensuring efficient and consistent mixing of various substances in industries like chemical processing and food production.

These examples illustrate the wide range of applications where worm wheels are utilized to provide precise motion control, torque management, and reliable performance. Their versatility and ability to control speed, torque, and direction make them valuable components in various products and machinery.

China manufacturer 45# Worm Gear Worm Shaft 0.5 1 1.5 Module Speed Ratio 20 25 30 40 50 Turbo Worm Gear  China manufacturer 45# Worm Gear Worm Shaft 0.5 1 1.5 Module Speed Ratio 20 25 30 40 50 Turbo Worm Gear
editor by Dream 2024-05-17