Product Description
Product Description
Our Capabilities of Manufacturing Gears & Splines.
Hobbing | Milling | Tooth Grinding | |
Max O.D. | 1250mm | 2000mm | 2000mm |
Min I.D. | 20mm | 50mm | 20mm |
Max Face Width | 500mm | 500mm | 1480mm |
Max DP | DP 1 | DP 1 | DP 0.5 |
Max Module | 26mm | 26mm | 45mm |
DIN Level | DIN Class 6 | DIN Class 6 | DIN Class 4 |
Tooth Finish | Ra 3.2 | Ra 3.2 | Ra 0.6 |
Max Helix Angle | ±45° | ±45° | ±45° |
Precision Transmission Parts
Custom CNC Machining Parts Service |
|
Quotation |
According to your drawing(size, material,and required technology, etc) |
Materials |
Aluminum, Copper, Brass, Stainless Steel, Steel, Iron, Alloy, Titanium etc. |
Surface Treatment |
Anodizing, Brushing, Galvanized, laser engraving, Silk printing, polishing, Powder coating, etc. |
Tolerance |
+/- 0.005mm-0.01mm, 100% QC quality inspection before delivery, can provide quality inspection form |
Processing |
CNC Turning, Milling, Drilling, Hobbing, Polishing, Bushing, Surface Treatment etc. |
Drawing Formats |
Solid Works, Pro/Engineer, UG, AutoCAD(DXF, DWG), PDF, TIF etc. |
5-axis CNC Milling Parts
Material Available |
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Aluminum |
Stainless Steel |
Brass |
Copper |
Iron |
Plastic |
AL6061 |
SS201 |
C35600 |
C11000 |
20# |
POM |
AL6063 |
SS301 |
C36000 |
C12000 |
45# |
Peek |
AL6082 |
SS303 |
C37700 |
C12200 |
Q235 |
PMMA |
AL7075 |
SS304 |
C37000 |
C15710 |
Q345B |
ABS |
AL2571 |
SS316 |
C37100 |
etc… |
Q345B |
Delrin |
AL5052 |
SS416 |
C28000 |
|
1214/1215 |
Nylon |
ALA380 |
etc… |
C26000 |
|
12L14 |
PVC |
etc… |
|
C24000 |
|
Carbon steel |
PP |
|
|
C22000 |
|
4140 / 4130 |
PC |
|
|
etc… |
|
etc… |
etc… |
Surface Treatment |
Material Available |
As machined |
All metals |
Smoothed |
All metals and Plastic (e.g aluminum, steel,nylon, ABS) |
Powder Coated |
All metals ( e.g aluminum, steel) |
Brushing |
All metals (e.g aluminum, steel) |
Anodized Hardcoat |
Aluminum and Titanium alloys |
Electropolished |
Metal and plastic (e.g aluminum, ABS) |
Bead Blasted |
Aluminum and Titanium alloys |
Anodized Clear or Color |
Aluminum and Titanium alloys |
Application Field
Company Profile
HangZhou CHINAMFG Intelligent Technology Co. Ltd was established in 2003. Since established, we always focus on precision transmission and mechanical parts manufacturing & processing. We have a professional R&D team and advanced gear hobbing machine, gear grinding machine, gear shaping machine, CNC Lathe machines and milling machines, which can give comprehensive solutions according to user’s requirements, from the design.
we bulid us through help others succes. CHINAMFG always focuses on the development ability, and now, it owns more than 30 patents. Our company has several advanced engineering design softwares and applied more than 20 new technologies and new processes. And also, it is certified by ISO 9001: 2015 and ISO 14001: 2015.
For more than 10 years, our company has been committed to the production and processing of precision parts and non-standard automation design. With a highly qualified workforce, relying on rich experience in precision processing and international leading equipment, the company has established strategic partnerships with world-renowned enterprises in the fields of aviation, medical and industrial precision test and measurement equipment.
FAQ
Q1: How to get a quotation?
A1: Please send us drawings in igs, dwg, step etc. together with detailed PDF.If you have any requirements, please note,
and we could provide professional advice for your reference.
Q2: How long can i get the sample?
A2: Depends on your specific items,within 7-10 days is required generally.
Q3: How to enjoy the OEM services?
A3: Usually, base on your design drawings or original samples, we give some technical proposals and a quotation to you, after your agreement, we produce for you.
Q4: Will my drawings be safe after sending to you?
A4: Yes, we will keep them well and not release to third party without your permission. Of course, we would ensure the safety of the drawing.
Q5: What shall we do if we do not have drawings?
A5: Please send your sample to our factory,then we can copy or provide you better solutions. Please send us pictures or drafts with dimensions(Length,Hight,Width), CAD or 3D file will be made for you if placed order.
Application: | Motor, Electric Cars, Motorcycle, Machinery, Marine, Agricultural Machinery, Car, industrial Machine |
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Hardness: | Hardened Tooth Surface |
Gear Position: | External Gear |
Manufacturing Method: | Rolling Gear |
Toothed Portion Shape: | Spur Gear |
Material: | Stainless Steel |
Samples: |
US$ 500/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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How does a differential gear system contribute to tire longevity?
A differential gear system plays a crucial role in tire longevity by ensuring optimal traction, minimizing tire wear, and distributing torque effectively. Here’s a detailed explanation of how a differential gear system contributes to tire longevity:
- 1. Traction Optimization: The differential gear system allows the wheels on the same axle to rotate at different speeds when the vehicle is turning. This capability helps improve traction and reduces tire scrubbing, which occurs when the tires resist turning and skid instead. By optimizing traction during turns, the differential gear system helps prevent excessive tire wear caused by scrubbing.
- 2. Torque Distribution: The differential gear system distributes torque from the engine to the wheels, allowing each wheel to receive an appropriate amount of power based on traction conditions. This distribution helps prevent wheel spin and excessive tire wear. By ensuring that torque is evenly distributed, the differential gear system helps maintain balanced tire wear across all wheels.
- 3. Wheel Speed Synchronization: When driving in a straight line, the differential gear system synchronizes the rotational speeds of the wheels. This synchronization minimizes tire scrubbing and reduces uneven wear. By keeping the wheels rotating at similar speeds, the differential gear system promotes even tire wear, extending tire longevity.
- 4. Cornering Stability: During cornering, the differential gear system allows the outer wheel to rotate faster than the inner wheel. This speed difference is necessary to accommodate the varying distances each wheel travels around the curve. By enabling smooth and controlled cornering, the differential gear system helps prevent excessive tire wear caused by lateral forces.
- 5. Reduced Stress on Tires: A properly functioning differential gear system helps reduce stress on tires by allowing them to rotate freely and independently. By mitigating excessive forces and minimizing tire scrubbing, the differential gear system helps decrease wear and tear on the tires. This reduction in stress contributes to prolonged tire life.
- 6. Traction Control: Some modern vehicles are equipped with advanced differential systems, such as electronic limited-slip differentials or torque vectoring differentials. These systems actively manage torque distribution to individual wheels based on traction conditions. By optimizing traction control, these differential systems help minimize tire slippage, improve grip, and reduce tire wear.
- 7. Proper Maintenance: Regular maintenance of the differential gear system is essential for tire longevity. This includes periodic inspection of the differential components, ensuring proper lubrication, and addressing any issues promptly. Well-maintained differentials help ensure optimal performance, reducing the risk of tire wear and extending tire life.
Overall, a well-functioning and properly maintained differential gear system plays a vital role in tire longevity. It optimizes traction, distributes torque effectively, synchronizes wheel speeds, promotes cornering stability, and reduces stress on tires. By understanding and maintaining the differential gear system, drivers can help maximize tire life and minimize the need for premature tire replacements.
Can differential gears be used in heavy-duty trucks and commercial vehicles?
Yes, differential gears can be used in heavy-duty trucks and commercial vehicles. In fact, they are an essential component of the drivetrain in most vehicles, including those designed for heavy-duty applications. Here’s a detailed explanation:
Differential gears are crucial for effective power distribution and maneuverability, especially in vehicles with multiple axles or large payloads. Here are some reasons why differential gears are used in heavy-duty trucks and commercial vehicles:
- Torque Distribution: Differential gears enable the proper distribution of torque to the wheels. In heavy-duty trucks and commercial vehicles, which often carry heavy loads, torque needs to be transmitted efficiently to ensure adequate traction and pulling power. The differential gears allow the wheels on the same axle to rotate at different speeds, accommodating varying traction conditions and load distribution.
- Maneuverability: Heavy-duty trucks and commercial vehicles often need to navigate tight turns and maneuver in confined spaces. The differential gears assist in smooth cornering by allowing the outer wheel to rotate faster than the inner wheel during turns. This differential action helps minimize tire scrubbing and reduces stress on the tires, enhancing maneuverability and reducing wear.
- Traction Control: Differential gears play a critical role in maintaining traction on different road surfaces. In heavy-duty trucks and commercial vehicles that encounter varied terrain, such as off-road conditions or slippery surfaces, the differential gears allow power to be sent to the wheels with the most traction. This helps maximize traction and minimize wheel spin, improving vehicle stability and control.
- Load Sharing: Differential gears facilitate load sharing among multiple axles in heavy-duty trucks and commercial vehicles. Vehicles with multiple axles distribute the load across all axles, reducing stress on individual components and improving overall performance and durability. Differential gears ensure that power is appropriately distributed among the axles, optimizing load sharing and preventing excessive strain on specific wheels or axles.
- Off-Road Capability: Heavy-duty trucks and commercial vehicles often need to operate in challenging off-road conditions. Differential gears, particularly those with advanced features like limited-slip differentials or locking differentials, enhance off-road capability by improving traction and preventing wheel slippage. These differential systems provide additional power to the wheels with traction, enabling the vehicle to navigate through rough terrain more effectively.
- Efficiency and Durability: Differential gears in heavy-duty trucks and commercial vehicles are designed to handle high torque loads and endure demanding operating conditions. They are built with robust materials and precision engineering to ensure durability and long service life. Proper maintenance, including regular inspections and fluid changes, helps maintain the efficiency and performance of the differential gears, contributing to the overall reliability of the vehicle.
In summary, differential gears are indispensable in heavy-duty trucks and commercial vehicles. They enable torque distribution, enhance maneuverability, improve traction control, facilitate load sharing, enhance off-road capability, and contribute to overall efficiency and durability. These gears play a crucial role in ensuring the optimal performance and functionality of heavy-duty and commercial vehicles across various applications and operating conditions.
Can you explain the concept of torque distribution in a differential gear?
Torque distribution is a fundamental concept in a differential gear that refers to the way rotational force is distributed among the wheels of a vehicle. Here’s a detailed explanation:
In a vehicle equipped with a differential gear, torque is transmitted from the engine to the differential, and then further distributed to the wheels. The differential gear ensures that torque is divided between the wheels, allowing them to receive power and propel the vehicle forward.
1. Power Input:
The torque distribution process begins with the power input from the engine. The engine generates rotational force, or torque, which is transmitted through the drivetrain to the differential gear.
2. Differential Assembly:
Within the differential gear, torque is distributed among several components, including the ring gear, pinion gear, side gears, and spider gears. The specific arrangement may differ depending on the type of differential used.
3. Side Gears and Spider Gears:
The side gears are connected to the axle shafts, which extend to the wheels. The spider gears, also known as planetary gears, are positioned between the side gears. When torque is applied to the differential assembly, it is transferred to the side gears through the spider gears.
4. Equal Torque Distribution:
In a straight-line driving scenario, where both wheels have equal traction and are rotating at the same speed, the spider gears rotate freely on their respective shafts. This allows the side gears to rotate at the same speed as the differential case, resulting in equal torque distribution to both wheels. As a result, both wheels receive an equal share of power from the differential.
5. Unequal Torque Distribution:
During turns or when one wheel encounters different traction conditions, the wheels need to rotate at different speeds. In this situation, the spider gears are forced to rotate along with the side gears due to the difference in rotational speeds between the two wheels.
As the spider gears rotate, they allow the side gears to rotate at different speeds, compensating for the variation in wheel speeds. This results in unequal torque distribution, with the outer wheel (on the outside of the turn) receiving more torque and the inner wheel (on the inside of the turn) receiving less torque. The differential gear enables this torque differentiation, ensuring that the wheels can rotate independently while still receiving power from the differential.
6. Optimizing Traction:
The torque distribution in a differential gear plays a crucial role in optimizing traction. Unequal torque distribution allows the wheel with better traction to receive more power, maximizing the vehicle’s ability to maintain forward motion. This is particularly beneficial in situations where one wheel is on a slippery surface or encounters reduced traction conditions.
7. Differential Types:
It’s important to note that different types of differentials can provide varying torque distribution characteristics. For example, open differentials primarily distribute torque equally, while limited-slip differentials and locking differentials offer varying degrees of torque biasing to improve traction in specific conditions.
In summary, torque distribution in a differential gear refers to the division of rotational force among the wheels of a vehicle. The differential gear enables equal torque distribution during straight-line driving and unequal torque distribution during turns or varied traction conditions. By optimizing torque distribution, the differential gear ensures efficient power delivery, traction optimization, and overall performance of the vehicle.
editor by CX 2023-09-25