Product Description
Customized OEM Forged Casting CHINAMFG Bevel Pinion Differential Straight Spiral Helical Hypoid Spline Shaft External Grinding Teeth Spur Worm Drive Gear
Product advantages & features
(1) Accessory products of the truck, use 20CrMmti material.
(2) Heat treatment and tempering, high gear root strength, stronger impact resistance.
(3) Multi-purpose CHINAMFG carburizing processing, fine grinding processing technology, effectively reducing noise.
(4) Test product 1 by one, and inspect each product on delivery to ensure 100% quality stability of the product.
(5) The unified brand carton, inner bag and integral foam packaging, which is strong and beautiful.
(6) Passed ISO/TS16949:2009 quality management system certification.
(7) Passed ISO/IEC17571:2005 certification.
(8) Certified by National Laboratory Accreditation Committee.
(9) “100 Auto Parts Suppliers” in China.
(10) China Machinery Top 500.
(11) National first-class measurement enterprise.
(12) National first-class physical and chemical enterprise.
Factory Show
More Products
| Truck Model | Sinotruk, Shacman, Saic Xihu (West Lake) Dis.n, Foton Auman, CHINAMFG Xihu (West Lake) Dis., Xihu (West Lake) Dis.feng, European & Japanese Truck Series, North BENZ( BEIBEN), JAC, etc. | |
| Product catalogue | Axle | Wheel Assembly |
| Differential Assembly | ||
| Main Reducer Assembly | ||
| Inner Ring Gear& Bracket | ||
| Basin Angle Gear/ Bevel Gear | ||
| Axle Shaft/ Half Shaft & Through Shaft | ||
| Axle Housing& Axle Assembly | ||
| Steering knuckle & Front Axle | ||
| Gear | ||
| Brake Drum& Wheel Hub | ||
| Flange | ||
| Bearing | ||
| Main Reducer Housing | ||
| Oil Seal Seat | ||
| Nut& Shim Series | ||
| Brake Backing Plate | ||
| Chassis Support Products | Leaf Spring Bracket | |
| Drop Arm Series | ||
| Bracket Series | ||
| Leaf Spring Shackle Series | ||
| Balanced Suspension Series | Balance Shaft Assembly | |
| Balance Shaft Housing | ||
| Axle Spring Seat | ||
| Thrust Rod | ||
| Balance Shaft Parts | ||
| Shock Absorber Series | Shock Absorber | |
| Shock Absorbing Airbag | ||
| Steering System | Power Steering Pump | |
| Power Steering Gear | ||
| Rubber Products | Oil Seal | |
| Rubber Support | ||
| Thrust Rod Rubber Core | ||
| Truck Belt | ||
| Engine support | ||
| Other | ||
| Clutch Series | Clutch Pressure Plate | |
| Clutch Disc | ||
| Flywheel Assembly | ||
| Flywheel Ring Gear | ||
| Adjusting Arm Series | ||
Working Principle
Single reduction gear is a driving bevel gear (commonly known as angular gear) and a basin angle gear pair. The driving bevel gear is connected with the transmission shaft, rotates clockwise, sticks to its right side from the bevel gear, and rotates downward at the meshing point, which is consistent with the CHINAMFG direction of the wheel. Due to the small diameter of the driving bevel gear and the large diameter of the bevel gear, the function of deceleration is achieved.
The double reduction has an additional intermediate transition gear.The left side of the driving bevel gear is meshed with the bevel gear of the intermediate gear. The bevel gear is coaxial with a spur gear with small diameter, and the spur gear is meshed with the driven gear. In this way, the intermediate gear rotates backward and the driven gear rotates forward. There is a two-stage deceleration process in the middle.
Due to the increase of axle volume, double reduction was mainly used in vehicles with low engine power in the past, mainly in construction machinery with low speed and high torque.
In the double reduction final drive, if the second-stage deceleration is carried out near the wheel, it actually constitutes an independent part at the 2 wheels, it is called wheel reducer. The advantage of this is that the torque transmitted by the half shaft can be reduced, which is conducive to reducing the size and quality of the half shaft. The wheel reducer can be planetary gear type or composed of a pair of cylindrical gear pairs. When the cylindrical gear pair is used for wheel side deceleration, the up-down position relationship between the wheel axis and the half shaft can be changed by adjusting the mutual position of the 2 gears. This kind of axle is called portal axle, which is often used for vehicles with special requirements for the high and low position of the axle.
According to the number of the main reducer transmission ratio, it can be divided into single-speed and double-speed.
Domestic cars basically adopt single speed main reducer with fixed transmission ratio. On the double reduction final drive, there are 2 transmission ratios for selection, and this main reducer actually acts as an auxiliary transmission.
Packaging & Shipping
Certifications
FAQ
Q1. How to guarantee your after-sales service?
Strict inspection during production, Strictly check the products before shipment to ensure our packaging in good condition. Track and receive feedback from customer regularly. Our products warranty is 365 days.
Each product provides quality assurance service. If there is a problem with the product within the warranty period, the customer can negotiate with us in detail about the related claims, and we will do our best to satisfy the customer.
Q2. How can I accurately buy the products I need?
We need accurate product number, If you can’t provide product number, you can send us your product picture, or tell us your truck model, engine name plate, and so on. we will
determine exactly what you need products.
Q3. Do you accept third party inspection?
Yes.we do
Q4. How about your delivery time?
Generally, it will take 3 to 10 days after receiving your advance payment. The specific delivery time depends on the items and the quantity of your order.
Q5. What are your brand agency conditions and advantages?
After we CHINAMFG an agent in 1 city, we will not CHINAMFG a second company to protect the agent’s brand advantage and price advantage. And we will help the agent develop customers and solve all kinds of difficult and miscellaneous problems about products.
Q6. What is your terms of payment?
By TT or LC. We’ll show you the photos of the products and packages before you pay the balance.
| Application: | Heavy Duty Truck Parts |
|---|---|
| Hardness: | Hardened Tooth Surface |
| Gear Position: | Internal Gear, External Gear |
| Samples: |
US$ 25/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
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| Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How does the choice of worm wheels affect the overall performance and reliability of gearing systems?
The choice of worm wheels has a significant impact on the overall performance and reliability of gearing systems. Here’s a detailed explanation of how the selection of worm wheels affects these aspects:
- Material Selection: The choice of material for worm wheels is crucial in determining their performance and reliability. Different materials, such as steel, bronze, or plastic, offer varying levels of strength, durability, and resistance to wear. The selection of the appropriate material should consider factors such as load requirements, operating conditions, and compatibility with other components in the system. Opting for high-quality materials that are suitable for the specific application can enhance the overall performance and reliability of the gearing system.
- Accuracy and Tolerance: Worm wheels are manufactured with different levels of accuracy and tolerance. Higher precision and tighter tolerances result in improved gear meshing, reduced backlash, and enhanced positional accuracy. The choice of worm wheels with the appropriate accuracy and tolerance level for the application is essential for achieving the desired performance and reliability. In applications where precise motion control, high positional accuracy, or low backlash is critical, selecting worm wheels with superior accuracy can significantly enhance system performance and reliability.
- Gear Design and Geometry: The design and geometry of worm wheels play a crucial role in determining their performance and reliability. Factors such as tooth profile, helix angle, number of teeth, and tooth surface finish influence the gear meshing characteristics, load distribution, efficiency, and noise levels. Optimal gear design and geometry should be selected based on the specific application requirements and operating conditions. Choosing worm wheels with well-designed gear profiles and appropriate geometric parameters can contribute to smoother operation, efficient power transmission, and improved reliability of the gearing system.
- Lubrication and Maintenance: The choice of worm wheels can affect the lubrication requirements and maintenance intervals of the gearing system. Some materials or coatings may require specific lubricants or lubrication techniques to ensure proper operation and longevity. Additionally, certain worm wheel designs may have features that facilitate lubricant retention and distribution, improving gear lubrication and reducing wear. Considering the lubrication and maintenance aspects during the selection of worm wheels can enhance the overall performance, efficiency, and reliability of the gearing system.
- Load Capacity and Efficiency: The load-carrying capacity and efficiency of the gearing system are influenced by the choice of worm wheels. Different worm wheel designs and materials have varying load capacity ratings and efficiency characteristics. Selecting worm wheels that can handle the anticipated loads and provide efficient power transmission helps prevent premature wear, excessive heat generation, and gear failures. Choosing worm wheels with appropriate load capacity and efficiency ratings ensures reliable performance and enhances the overall reliability of the gearing system.
- Compatibility and System Integration: The choice of worm wheels should consider their compatibility and integration with other components in the gearing system. This includes factors such as shaft sizes, mounting configurations, and interfacing with the worm. Ensuring proper compatibility and integration minimizes alignment issues, reduces stress concentrations, and promotes efficient power transmission. Selecting worm wheels that are specifically designed for compatibility and seamless integration within the system enhances the overall performance, reliability, and longevity of the gearing system.
In summary, the choice of worm wheels significantly impacts the overall performance and reliability of gearing systems. Considerations such as material selection, accuracy and tolerance, gear design and geometry, lubrication and maintenance requirements, load capacity and efficiency, and compatibility with other system components all contribute to the system’s performance and reliability. By carefully selecting worm wheels that meet the specific application requirements and considering these factors, the overall performance and reliability of the gearing system can be optimized.
How does the choice of worm wheels affect the overall performance and reliability of gearing systems?
The choice of worm wheels has a significant impact on the overall performance and reliability of gearing systems. Here’s a detailed explanation of how the selection of worm wheels affects these aspects:
- Material Selection: The choice of material for worm wheels is crucial in determining their performance and reliability. Different materials, such as steel, bronze, or plastic, offer varying levels of strength, durability, and resistance to wear. The selection of the appropriate material should consider factors such as load requirements, operating conditions, and compatibility with other components in the system. Opting for high-quality materials that are suitable for the specific application can enhance the overall performance and reliability of the gearing system.
- Accuracy and Tolerance: Worm wheels are manufactured with different levels of accuracy and tolerance. Higher precision and tighter tolerances result in improved gear meshing, reduced backlash, and enhanced positional accuracy. The choice of worm wheels with the appropriate accuracy and tolerance level for the application is essential for achieving the desired performance and reliability. In applications where precise motion control, high positional accuracy, or low backlash is critical, selecting worm wheels with superior accuracy can significantly enhance system performance and reliability.
- Gear Design and Geometry: The design and geometry of worm wheels play a crucial role in determining their performance and reliability. Factors such as tooth profile, helix angle, number of teeth, and tooth surface finish influence the gear meshing characteristics, load distribution, efficiency, and noise levels. Optimal gear design and geometry should be selected based on the specific application requirements and operating conditions. Choosing worm wheels with well-designed gear profiles and appropriate geometric parameters can contribute to smoother operation, efficient power transmission, and improved reliability of the gearing system.
- Lubrication and Maintenance: The choice of worm wheels can affect the lubrication requirements and maintenance intervals of the gearing system. Some materials or coatings may require specific lubricants or lubrication techniques to ensure proper operation and longevity. Additionally, certain worm wheel designs may have features that facilitate lubricant retention and distribution, improving gear lubrication and reducing wear. Considering the lubrication and maintenance aspects during the selection of worm wheels can enhance the overall performance, efficiency, and reliability of the gearing system.
- Load Capacity and Efficiency: The load-carrying capacity and efficiency of the gearing system are influenced by the choice of worm wheels. Different worm wheel designs and materials have varying load capacity ratings and efficiency characteristics. Selecting worm wheels that can handle the anticipated loads and provide efficient power transmission helps prevent premature wear, excessive heat generation, and gear failures. Choosing worm wheels with appropriate load capacity and efficiency ratings ensures reliable performance and enhances the overall reliability of the gearing system.
- Compatibility and System Integration: The choice of worm wheels should consider their compatibility and integration with other components in the gearing system. This includes factors such as shaft sizes, mounting configurations, and interfacing with the worm. Ensuring proper compatibility and integration minimizes alignment issues, reduces stress concentrations, and promotes efficient power transmission. Selecting worm wheels that are specifically designed for compatibility and seamless integration within the system enhances the overall performance, reliability, and longevity of the gearing system.
In summary, the choice of worm wheels significantly impacts the overall performance and reliability of gearing systems. Considerations such as material selection, accuracy and tolerance, gear design and geometry, lubrication and maintenance requirements, load capacity and efficiency, and compatibility with other system components all contribute to the system’s performance and reliability. By carefully selecting worm wheels that meet the specific application requirements and considering these factors, the overall performance and reliability of the gearing system can be optimized.
How do worm wheels contribute to the precision and accuracy of motion in machinery?
Worm wheels play a significant role in achieving precision and accuracy of motion in machinery. Here’s a detailed explanation of how worm wheels contribute to precision and accuracy:
- Reduced Backlash: Backlash refers to the amount of clearance or play between meshing gears, which can result in undesired movement or positioning errors. Worm wheels have a self-locking mechanism that minimizes or eliminates backlash. The helical teeth of the worm wheel engage with the worm gear at an angle, creating a wedging effect that prevents reverse motion. This inherent self-locking property ensures precise positioning and eliminates backlash, contributing to the overall precision of motion.
- High Gear Reduction Ratio: Worm wheels offer high gear reduction ratios, allowing for fine control and precise motion. The helical shape of the worm gear teeth and the interaction with the worm wheel enable gear ratios ranging from 5:1 to 100:1 or even higher. This high reduction ratio allows for slower rotational output and finer increments of motion, enhancing precision in applications that require precise positioning or control.
- Single Directional Control: Worm wheels provide excellent directional control, allowing power transmission in a single direction only. The self-locking nature of the worm wheel prevents any reverse motion from the output side to the input side. This property is particularly beneficial in applications where precise and accurate motion in a specific direction is required, such as in robotics or CNC machinery.
- Smooth Operation: The helical tooth profile of the worm wheel contributes to smooth and quiet operation. The helical teeth engage gradually, resulting in a smooth transfer of power and reduced noise and vibration. This smooth operation is crucial for applications that require precise and accurate motion, as it helps minimize disturbances and ensure consistent movement without jarring or jerking.
- Increased Contact Area: The sliding action between the worm gear and the worm wheel creates a larger contact area compared to other gear types. The increased contact area allows for better load distribution and improved torque transmission. This helps to minimize tooth wear, enhance durability, and maintain the accuracy of motion over an extended period of operation.
- Compact Design: Worm wheels offer a compact design due to their perpendicular arrangement. The compactness allows for efficient use of space and integration into machinery with limited space constraints. The reduced size and weight contribute to improved stability and accuracy by minimizing flexing or bending that can occur in larger gear systems.
By incorporating worm wheels into machinery, engineers can achieve precise and accurate motion control, ensuring the desired positioning, repeatability, and overall performance of the system. These characteristics make worm wheels suitable for a wide range of applications that require high precision and accuracy, such as robotics, machine tools, positioning systems, and automation equipment.
editor by CX 2023-11-27