China factory OEM Transmission Spiral Bevel Gear for Differential Reducer with Great quality

Product Description

OEM Transmission Spiral bevel gear for Differential reducer

1. Description

No. Item Description
1 Name Helical Bevel Gear
2 Size Products can be customized.
3 Manufacture Standard 5-8 Grade ISO1328-1997.
4 Material 45#Steel,20CrMnTi,40Cr,20CrNiMo,20MnCr5,GCR15SiMn,42CrMo,2Cr13stainless steel,Nylon,Bakelite,Copper,Aluminium.etc
5 Production Process The main process is Gear Milling and Gear Grinding, Selecting production process according to the different products.
6 Heat Treatment Carburizing and quenching ,High-frequency quenching,Nitriding, Hardening and tempering, Selecting heat treatment according to the different materials.
7 Testing Equipment Rockwell hardness tester 500RA, Double mesh instrument HD-200B & 3102,Gear measurement center instrument CNC3906T and other High precision detection equipments
8 Certification GB/T19001-2016/ISO9001:2015
9 Usage Used in printing machine, cleaning machine, medical equipment, garden machine, construction machine, electric car, valve, forklift, transportation equipment and various gear reducers.etc
10 Package According to customer’s request

2. Photos

 

 

3. Order process
a. Customer sends us the drawing or sample, If only sample, our company supply the CAD drawing.
b. Our company supplies the processing technique and quotation.
c. Our company supplies the sample after customer confirmed processing technique and quotation.
d. Customer places the order after confirm the sample.
e. Customer pay 50% deposit
f. Quantity production.
g. Pay the balance after the acceptance and confirmation.
h. Delivery.
 

Application: Electric Cars, Machinery, Agricultural Machinery, Car
Hardness: Hardened Tooth Surface
Gear Position: External Gear
Manufacturing Method: Gear Hobbing, Gear Shaping and Gear Grinding
Toothed Portion Shape: Involute
Material: 45#Steel,20crmnti,40cr,20CrNiMo,20mncr5,Gcr15simn,
Samples:
US$ 3.5/Piece
1 Piece(Min.Order)

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Customization:
Available

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differential gear

Can differential gears be used in electric and hybrid vehicles?

Yes, differential gears can be used in both electric and hybrid vehicles. While electric and hybrid vehicles have different powertrain configurations compared to traditional internal combustion engine vehicles, they still require differential gears to distribute power between the wheels and accommodate speed differences. Here’s a detailed explanation:

1. Electric Vehicles (EVs):

In electric vehicles, the power is provided by one or more electric motors. These motors generate torque directly, eliminating the need for a traditional transmission system with a driveshaft. However, EVs still require differential gears to distribute power between the wheels.

2. Single-Speed Transmissions:

Many electric vehicles use single-speed transmissions, also known as direct-drive systems, which do not require multiple gears for speed variation. In these cases, the differential gear is integrated into the electric motor assembly, allowing it to distribute torque between the wheels.

3. Speed and Torque Distribution:

The differential gear in electric vehicles functions similarly to those in conventional vehicles. It accommodates speed differences between the wheels during turns and adjusts torque distribution to ensure optimal traction and control. This helps prevent wheel slip and allows for smooth cornering.

4. Hybrid Vehicles:

Hybrid vehicles combine an internal combustion engine with one or more electric motors. The powertrain configuration varies depending on the type of hybrid system, such as series hybrids, parallel hybrids, or plug-in hybrids. Despite the presence of an internal combustion engine, differential gears are still utilized in hybrid vehicles.

5. Transmissions in Hybrid Vehicles:

Hybrid vehicles often incorporate transmissions to optimize power delivery and efficiency. These transmissions may include differential gears or specific components that perform similar functions to distribute power between the wheels.

6. Regenerative Braking:

Both electric and hybrid vehicles commonly use regenerative braking systems to capture and store energy during deceleration. Differential gears play a role in transmitting torque from the wheels to the electric motor during regenerative braking, allowing the motor to act as a generator and recharge the batteries.

7. Differential Types:

Electric and hybrid vehicles can utilize various differential types, including open differentials, limited-slip differentials, or electronically controlled differentials. The choice of differential depends on factors such as vehicle performance, traction requirements, and driving conditions.

8. Advancements and Innovations:

With the evolving technology in electric and hybrid vehicles, there are also advancements and innovations in differential systems. Manufacturers are exploring new designs, such as integrated motor and differential units, to optimize power distribution and efficiency in these vehicles.

In summary, differential gears are indeed used in electric and hybrid vehicles to distribute power between the wheels, accommodate speed differences, and ensure optimal traction and control. The specific configuration and integration of differential gears may vary depending on the vehicle’s powertrain design and transmission system.

differential gear

How do differential gears interact with the suspension system of a vehicle?

Differential gears interact with the suspension system of a vehicle in several ways. Here’s a detailed explanation of their interaction:

  • Power Transmission: The primary function of differential gears is to distribute power from the engine to the wheels. The power is transmitted through the drivetrain, which includes the transmission, driveshaft, and differential gears. The differential gears are located within the rear axle assembly and connect to the wheels via the axle shafts. As the suspension system allows the wheels to move up and down independently, the differential gears accommodate these movements to ensure smooth and consistent power transmission.
  • Wheel Movement: The suspension system of a vehicle allows the wheels to move vertically to absorb road irregularities, bumps, and vibrations. This movement is essential for providing a comfortable ride, maintaining tire contact with the road surface, and improving overall handling and stability. The differential gears must accommodate this wheel movement without hindering power transmission. They are mounted within the axle housing, which is connected to the suspension system, allowing the wheels to move up and down while maintaining their connection to the differential assembly.
  • Drive Axle and Halfshafts: In many vehicles, the differential gears are located within the drive axle assembly, which is an integral part of the suspension system. The drive axle assembly consists of the differential gears, axle housing, and halfshafts (also known as axle shafts). The halfshafts connect the differential gears to the wheel hubs, transmitting power from the differential to the wheels. The suspension system and differential gears work in conjunction to allow the halfshafts to flex and accommodate the vertical movement of the wheels while maintaining power delivery.
  • Torque Steer: Differential gears can also influence torque steer, which is the tendency of the vehicle to pull to one side during acceleration. Torque steer occurs when one wheel receives more torque than the other, causing an imbalance in power delivery and resulting in steering effects. Differential gears, particularly in front-wheel-drive vehicles, help manage torque steer by distributing torque between the front wheels. Advanced differential technologies, such as limited-slip differentials or electronic torque vectoring systems, can further mitigate torque steer and enhance overall vehicle stability.
  • Performance Applications: In high-performance or sport-oriented vehicles, the interaction between differential gears and the suspension system becomes even more critical. The suspension system is usually designed to provide optimal handling characteristics, including minimal body roll, precise cornering, and responsive feedback. Differential gears, particularly limited-slip differentials or electronically controlled differentials, can be specifically tuned to complement the suspension system and maximize traction, stability, and cornering performance. This integration ensures that the power delivered to the wheels is effectively utilized, enhancing the vehicle’s overall dynamic capabilities.

In summary, differential gears interact with the suspension system of a vehicle by accommodating wheel movement, transmitting power while allowing independent wheel motion, connecting to the drive axle and halfshafts, managing torque steer, and optimizing performance in high-performance applications. This interaction ensures smooth power transmission, proper handling, stability, and overall vehicle performance.

differential gear

What are the applications of differential gears in off-road vehicles?

Off-road vehicles rely on differential gears for various applications that enhance their performance and capability in challenging terrains. Here’s a detailed explanation:

1. Traction Improvement:

One of the primary applications of differential gears in off-road vehicles is to improve traction. Off-road terrain often consists of uneven surfaces, loose soil, rocks, mud, or deep snow, which can cause the wheels to lose traction. Differential gears, such as limited-slip differentials or locking differentials, help distribute torque to the wheels with better traction, reducing wheel slip and maximizing grip. This allows off-road vehicles to maintain forward momentum and conquer obstacles that would otherwise be difficult to navigate.

2. All-Wheel Drive (AWD) Systems:

Off-road vehicles commonly utilize differential gears in their all-wheel drive (AWD) systems. AWD systems distribute power to all four wheels, providing better traction and stability on off-road terrain. Differential gears enable power transfer between the front and rear axles, as well as between the left and right wheels on each axle, allowing for optimal torque distribution based on traction conditions. This helps improve overall off-road performance and control.

3. Articulation and Wheel Independence:

Off-road vehicles often encounter uneven terrain with varying degrees of wheel articulation. Differential gears play a crucial role in maintaining wheel independence, allowing each wheel to move up or down independently to better conform to the terrain. This ensures that the wheels maintain contact with the ground and enhances traction, especially when navigating over rocks, logs, or steep inclines.

4. Hill Climbing and Descending:

When climbing steep inclines or descending steep slopes, differential gears are essential for off-road vehicles. In these situations, differential gears help distribute torque between the wheels on each axle, allowing the wheels with better traction to propel the vehicle forward or provide controlled braking. This improves stability, prevents wheel slip, and enhances the vehicle’s ability to tackle challenging uphill or downhill sections.

5. Off-Road Racing:

In off-road racing, differential gears are utilized to optimize performance and handling. High-performance off-road vehicles often employ advanced differential systems, such as limited-slip differentials or torque vectoring differentials. These systems actively distribute torque to the wheels with better traction, improving acceleration, cornering ability, and overall vehicle dynamics in competitive off-road racing environments.

6. Rock Crawling and Trail Driving:

Off-road vehicles designed for rock crawling or trail driving heavily rely on differential gears. These vehicles require precise control and maximum traction in low-speed, technical situations. Differential gears, particularly locking differentials, are employed to ensure that both wheels on an axle rotate together, maximizing traction and allowing the vehicle to maneuver over challenging obstacles, such as large rocks, boulders, or deep ruts.

In summary, differential gears in off-road vehicles have several applications, including traction improvement, all-wheel drive systems, articulation and wheel independence, hill climbing and descending, off-road racing, rock crawling, and trail driving. These applications enhance the performance, control, and capability of off-road vehicles in demanding and rugged terrains.

China factory OEM Transmission Spiral Bevel Gear for Differential Reducer with Great qualityChina factory OEM Transmission Spiral Bevel Gear for Differential Reducer with Great quality
editor by CX 2023-11-30