Product Description
1) According to the different strength and performance, we choose the steel with strong compression;
2) Using Germany professional software and our professional engineers to design products with more reasonable size and better performance; 3) We can customize our products according to the needs of our customers,Therefore, the optimal performance of the gear can be exerted under different working conditions;
4) Quality assurance in every step to ensure product quality is controllable.
Product Paramenters
| DRIVEN GEAR |
NUMBER OF TEETH |
8 |
|
MODULE |
7.8205 | |
|
LENTH |
244 | |
|
OUTER DIAMETER |
ø94.44 |
|
|
DIRECTION OF SPIRAL |
L |
|
|
ACCURACY OF SPLINE |
M24*1.5-6g | |
|
NUMBER OF SPLINE |
10 |
|
DRIVEN GEAR |
NUMBER OF TEETH |
39 |
|
OUTER DIAMETER |
ø305 |
|
|
DIAMETER OF INNER HOLE |
ø165 |
|
|
ACCURACY OF SCREW |
12-ø12.5 | |
|
CENTER DISTANCE OF SCREW HOLE |
ø190 |
|
|
DIRECTION OF SPIRAL |
R |
Company Profiles
Our company,HangZhou CHINAMFG Gear co.,Ltd , specialized in Hypoid and spiral bevel gear used in Automotive industry, was foundeded in 1996, with registered capital 136,8 square meter, with building area of 72,000 square meters. More than 500 employees work in our company.
We own more than 560 high-precise machining equipments, 10 Klingelnberg Oerlikon gear production lines, 36 Gleason gear production lines, 5 forging production lines 2 german Aichilin and 5 CHINAMFG CHINAMFG advanced automatic continuous heat treatment production lines. With the introducing the advanced Oerlikon C50 and P65 measuring center, we enhence our technology level and improve our product quality a lot. We offer better quality and good after-sale service with low price, which insure the good reputation. With the concept of “for the people, by technology, creativity, for the society, transfering friendship, honest”, we are trying to provice the world-top level product.
Our aim is: CHINAMFG Gear,world class, Drive the world.
According to the different strength and performance, we choose the steel with strong compression;Using Germany professional software and our professional engineers to design products with more reasonable size and better performance;We can customize our products according to the needs of our customers,Therefore, the optimal performance of the gear can be exerted under different working conditions;Quality assurance in every step to ensure product quality is controllable.
Our company had full quality management system and had been certified by ISO9001:2000, QS-9000:1998, ISO/TS16949 , which insure the entrance of international market.
Certification & honors
Packaging & Shipping
Packaging Detail:standard package(carton ,wooden pallet).
Shipping:Support Sea freight. Accept FOB,EXW,FAS,DES.
Cooperative customers
HangZhou CHINAMFG Gear Co., Ltd. adheres to the concept of “people-oriented, prosper with science and technology; create high-quality products, contribute to the society; turn friendship, and contribute sincerely”, and will strive to create world automotive axle spiral bevel gear products.
1.Do you provide samples?
Yes,we can offer free sample but not pay the cost of freight.
2.What about OEM?
Yes,we can do OEM according to your requirements.
3.How about after-sales service?
We have excellent after-sales service if you have any quanlity problem,you can contact us anytime.
4.What about package?
Stardard package or customized package as requirements.
5.How to ensure the quanlity of the products?
We can provide raw meterial report,metallographic examination and the accuracy testing etc.
6.How long is your delivery time?
Genarally it is 4-7 days.If customized it will be take 20 days according to your quantity. /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Application: | Motor, Electric Cars, Motorcycle, Machinery, Marine, Agricultural Machinery, Car |
|---|---|
| Hardness: | Hardened Tooth Surface |
| Gear Position: | External Gear |
| Manufacturing Method: | Cast Gear |
| Toothed Portion Shape: | Herringbone Gear |
| Material: | Cast Steel |
| Samples: |
US$ 35/Set
1 Set(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
How do electronic or computer-controlled components integrate with worm wheels in modern applications?
In modern applications, electronic or computer-controlled components play a vital role in integrating with worm wheels. Here’s a detailed explanation of how these components integrate:
- Sensor Feedback: Electronic sensors can be integrated with worm wheels to provide feedback on various parameters such as position, speed, torque, and temperature. These sensors can detect the rotational position of the worm wheel, monitor the speed of rotation, measure the torque applied, and monitor the temperature of the system. The sensor data can be processed by a computer-controlled system to optimize performance, ensure safety, and enable precise control of the worm wheel system.
- Control Algorithms: Computer-controlled components allow for precise control algorithms to be implemented in worm wheel systems. These algorithms can optimize the operation of the worm wheel by adjusting parameters such as speed, torque, or position based on real-time sensor feedback. By analyzing the sensor data and applying control algorithms, the computer-controlled components can ensure efficient and accurate operation of the worm wheel system in accordance with the desired performance requirements.
- Positioning and Motion Control: Computer-controlled components can enable advanced positioning and motion control capabilities in worm wheel systems. By integrating with the worm wheel, electronic components can precisely control the position and movement of the system. This is particularly useful in applications where precise positioning or synchronized motion is required, such as robotics, CNC machines, or automated systems. The computer-controlled components receive input commands, process them, and generate appropriate signals to control the worm wheel’s rotation and positioning.
- Monitoring and Diagnostics: Electronic components can facilitate real-time monitoring and diagnostics of worm wheel systems. By continuously monitoring parameters such as temperature, vibration, or load, the computer-controlled components can detect any abnormalities or potential issues in the system. This allows for proactive maintenance or troubleshooting actions to be taken, minimizing downtime and optimizing the performance and lifespan of the worm wheel. Additionally, the computer-controlled components can generate diagnostic reports, log data, and provide visual or remote alerts for timely intervention.
- Integration with Human-Machine Interfaces: Computer-controlled components can integrate with human-machine interfaces (HMIs) to provide a user-friendly and intuitive interface for interacting with the worm wheel systems. HMIs can include touchscreens, control panels, or software applications that allow operators or users to input commands, monitor system status, adjust parameters, and receive feedback. This integration enhances the usability, flexibility, and accessibility of worm wheel systems in various applications.
- Networking and Communication: Computer-controlled components can be integrated into networked systems, allowing for communication and coordination with other devices or systems. This integration enables seamless integration of the worm wheel into larger automated systems, production lines, or interconnected machinery. Networking and communication capabilities facilitate data exchange, synchronization, and coordination, enhancing overall system performance and enabling advanced functionalities.
By integrating electronic or computer-controlled components with worm wheels, modern applications can benefit from enhanced control, precision, monitoring, and communication capabilities. These advancements enable optimized performance, improved efficiency, and increased reliability in various industries and sectors.
Can you explain the role of a worm wheel in conjunction with a worm gear?
In mechanical systems, a worm wheel and a worm gear work together to achieve the transmission of motion and power between two perpendicular shafts. The worm gear is a screw-like gear, while the worm wheel is a circular gear with teeth cut in a helical pattern. Here’s a detailed explanation of the role of a worm wheel in conjunction with a worm gear:
The primary function of a worm wheel and worm gear combination is to provide a compact and efficient means of transmitting rotational motion and power at a right angle. The interaction between the worm gear and the worm allows for high gear reduction ratios, making it suitable for applications that require large speed reductions and high torque output.
The worm gear, or worm, is a threaded shaft resembling a screw. It is the driving component of the system and is typically turned by a motor or other power source. The threads on the worm engage with the teeth of the worm wheel, causing the wheel to rotate.
The helical shape of the worm gear teeth and the orientation of the threads on the worm are designed to ensure smooth and efficient power transmission. As the worm rotates, the sliding action between the threads of the worm and the helical teeth of the worm wheel enables the transfer of motion.
The gear ratio between the worm and worm wheel determines the speed reduction and torque multiplication achieved. The number of teeth on the worm wheel compared to the number of threads on the worm determines the gear ratio. For example, a worm wheel with 40 teeth and a worm with one thread would result in a gear ratio of 40:1, meaning the output shaft of the worm wheel rotates once for every 40 rotations of the worm.
The key role of the worm wheel is to receive the rotational motion from the worm and transmit it to the output shaft. It converts the rotary motion of the worm into rotary motion in a different direction, typically at a right angle.
The worm wheel also provides mechanical advantage by multiplying the torque output. Due to the helical shape of the teeth, the sliding action between the worm and the worm wheel allows for a larger contact area and load distribution, resulting in increased torque output at the output shaft.
The combination of the worm gear and worm wheel offers several advantages in mechanical systems:
- High Gear Reduction: The worm gear and worm wheel enable significant speed reduction while increasing torque output, making them suitable for applications requiring high torque and low speed.
- Self-Locking: The friction between the worm gear and the worm prevents backdriving, allowing the worm wheel to maintain its position even when the driving force is removed.
- Compact Design: The perpendicular arrangement of the worm gear and worm wheel allows for a compact and space-saving design, making it advantageous in applications with limited space.
- Quiet Operation: The sliding action between the worm gear and worm wheel helps distribute the load over multiple teeth, resulting in smoother and quieter operation.
- Directional Control: The worm gear and worm wheel combination can provide unidirectional motion, preventing motion from the output side back to the input side due to their self-locking property.
Worm gear and worm wheel systems are commonly used in various applications, including automotive, industrial machinery, elevators, conveyor systems, and robotics. Their unique characteristics make them suitable for tasks that require precise control, high torque, and compact design.
It is important to note that proper lubrication, maintenance, and design considerations are crucial for ensuring the reliable and efficient operation of worm gear and worm wheel systems. Regular inspections and adherence to manufacturer guidelines are essential for maximizing the lifespan and performance of these components.
Can you provide insights into the importance of proper installation and alignment of worm wheels?
Proper installation and alignment of worm wheels are crucial for ensuring optimal performance, longevity, and efficiency of the gearing system. Here’s a detailed explanation of their importance:
- Load Distribution: Proper installation and alignment help in achieving the correct meshing and contact pattern between the worm and the worm wheel. This ensures that the load is distributed evenly across the teeth, minimizing localized stress concentrations. Misalignment or incorrect installation can lead to uneven load distribution, causing premature wear, tooth breakage, and reduced gear life.
- Reduced Friction and Wear: Correct alignment of the worm wheel is essential for minimizing sliding friction between the worm and the worm wheel. Improper alignment can result in increased friction, leading to higher energy losses, heat generation, and accelerated wear of the gear surfaces. Proper installation and alignment help to reduce friction and wear, improving the efficiency and longevity of the worm wheel system.
- Backlash and Efficiency: Backlash refers to the clearance between the teeth of the worm and the worm wheel. Proper installation and alignment help in minimizing backlash, ensuring tight and accurate meshing between the gear teeth. Excessive backlash can lead to reduced efficiency, decreased positional accuracy, and increased vibration or noise. By achieving proper alignment, backlash can be controlled within acceptable limits, optimizing the efficiency and performance of the worm wheel system.
- Stability and Noise: Correct installation and alignment contribute to the stability and smooth operation of the worm wheel system. Misalignment can introduce vibrations, noise, and undesirable oscillations during operation. Proper alignment minimizes these issues, promoting stable and quiet operation. This is particularly important in applications where noise reduction, precision, and smooth motion are critical, such as robotics, machine tools, or motion control systems.
- Mechanical Integrity: Proper installation and alignment help to maintain the overall mechanical integrity of the worm wheel system. Misalignment or incorrect installation can result in excessive forces, stresses, or deflections within the components, leading to structural failures or reduced system performance. By ensuring proper alignment, the mechanical integrity of the system is preserved, ensuring reliable and safe operation.
- System Performance: The overall performance of the worm wheel system is directly influenced by proper installation and alignment. Correct alignment ensures accurate transmission of motion, precise positioning, and reliable torque transfer. It helps to achieve the desired speed ratios, torque ratios, and positional accuracy required for the specific application. Proper installation and alignment contribute to the overall efficiency, reliability, and performance of the worm wheel system.
In summary, proper installation and alignment of worm wheels are vital for achieving optimal performance, longevity, and efficiency of the gearing system. They help to distribute the load evenly, reduce friction and wear, minimize backlash, promote stability and smooth operation, preserve mechanical integrity, and ensure desired system performance. Adhering to recommended installation procedures and alignment tolerances is crucial to maximize the benefits and capabilities of worm wheel systems.
editor by Dream 2024-04-26