China Hot selling Customized Forging Transmission Drive Differential Pinion Spur SGS Bevel Pinion Shaft Plastic Gear Hypoid Gear with Good quality
Product Description
Customized Forging Transmission Drive Differential Pinion Spur SGS Bevel Pinion Shaft Gear
Product Description
| Material : | 42CrMo, 20CrMnMo, 20Cr2Ni4, 35CrMo, 20CrMnTi and Other high intensity alloy steel |
| Tooth Flank : | Tooth flank carburization and nitrification, with rigidity of HRC58-62 |
| Gear precision : | Grade V |
| Precise measurement : | Precise measurement and surface finishes are available |
| Material : | High dense alloy or other materials is also available |
| Customization : | Customer drawing and samples are welcome |
Detailed Photos
| Packaging |
Gear Features
Company Profile
For 12 years, Mr. Zhou has stood for innovative products, a passion for technology, responsibility.
As a globally technology manufacture company, we put all of energy to promise quality and excellence. We’ve organized resources into new and established markets and developed gears, sheaves and so on.
Our results announcement is over USD 10, 000, 000 per fiscal year. Last but not least, we’ve doing hard work to perfect ourselves, tapping business opportunities.
Note: For special order, please write and provide drawing sample!
Certifications
Customer Visiting
Our Services
Services:
Best Services For You
1) We can provide OEM service and design for you
2) We can pack the goods according to your requirement
3) We test the quality of all products before delivery
4) We guarantee our reply in 24 hours of working day
5) We can communicate with you in different languages
6) High quality, best price, punctual shipment, good after-sale service will be guaranteed.
FAQ
FAQ:
Q: What information should I provide if I want to order the products?
1) Product information: Quantity, specification
2) Delivery time required.
3) Shipping information: Company name, address, phone number, destination seaport/air port.
4) Forwarder’s contact details if there is any in China.
Q: How about your payment terms?
A: 30% -50%deposit, with the balance before delivery, we accept T/T and L/C at sight.
Q: Can I use our own logo?
A: Yes, we can produce by using your own logo if you need.
Q: How about sample & MOQ policy?
A: Welcome sample order. MOQ can be 1 set.
Q: What is your lead time for your goods?
A: Normally 30 days after confirmed order.
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| Application: | Motor, Electric Cars, Motorcycle, Machinery, Agricultural Machinery, Car |
|---|---|
| Hardness: | Soft Tooth Surface |
| Gear Position: | Internal Gear |
| Manufacturing Method: | Cut Gear |
| Toothed Portion Shape: | Bevel Wheel |
| Material: | Stainless Steel |
| Customization: |
Available
| Customized Request |
|---|
How does a differential gear distribute power between the wheels?
A differential gear is responsible for distributing power between the wheels of a vehicle, allowing them to rotate at different speeds while maintaining torque transfer. Here’s a detailed explanation of how a differential gear accomplishes this:
1. Power Input:
The differential gear receives power from the transmission or driveshaft connected to the engine. This power is transmitted to the differential assembly, which is typically located in the axle housing.
2. Ring and Pinion Gears:
Within the differential assembly, the power from the driveshaft is transferred to the ring and pinion gears. The ring gear is a large gear that surrounds the differential assembly, while the pinion gear is a smaller gear connected to the driveshaft. The interaction between these gears allows the power to be redirected.
3. Side Gears and Spider Gears:
The ring gear is connected to side gears, also known as bevel gears, through a set of small gears called spider gears. The side gears are attached to the axle shafts, which are responsible for transmitting power to the wheels. The spider gears allow the side gears to rotate independently of each other while maintaining torque transfer.
4. Differential Action:
As the vehicle moves, the differential gears enable the wheels to rotate at different speeds during turns. When the vehicle is moving in a straight line, the spider gears rotate smoothly, allowing equal power distribution to both wheels. However, during a turn, the inside wheel travels a shorter distance than the outside wheel, causing them to rotate at different speeds.
5. Speed and Torque Distribution:
The differential gear adjusts the speed and torque distribution between the wheels based on their rotational differences. When the vehicle is turning, the spider gears allow one wheel to rotate faster than the other, ensuring that torque is transferred to the wheel with better traction. This allows the wheels to rotate at different speeds, preventing tire scrubbing and providing smooth cornering.
6. Limited-Slip and Locking Differentials:
In certain differential systems, such as limited-slip differentials or locking differentials, additional mechanisms are incorporated to enhance traction and power distribution. Limited-slip differentials use clutch packs or friction plates to provide a predetermined amount of resistance, allowing some speed differentiation between the wheels while still transferring power. Locking differentials, on the other hand, lock the side gears together, ensuring equal torque distribution to both wheels, regardless of traction conditions.
7. Differential Types:
There are various types of differentials, including open differentials, limited-slip differentials, electronic differentials, torque vectoring differentials, and more. Each type has its own mechanisms and technologies to distribute power between the wheels effectively, depending on the vehicle’s requirements and driving conditions.
In summary, a differential gear distributes power between the wheels by utilizing a system of gears, including ring and pinion gears, side gears, and spider gears. The differential action allows the wheels to rotate at different speeds during turns, ensuring smooth cornering and preventing tire scrubbing. Additional mechanisms, such as limited-slip or locking differentials, can further enhance traction and power distribution in various driving conditions.
Can differential gears be upgraded or customized for specific applications?
Yes, differential gears can be upgraded or customized for specific applications to enhance performance, traction, and handling. Here’s a detailed explanation of how differential gears can be upgraded or customized:
- Gear Ratio Changes: One way to customize differential gears is by changing the gear ratios. Different gear ratios can alter the torque distribution between the wheels, optimizing it for specific applications. For example, shorter gear ratios can improve acceleration and low-end torque, while taller gear ratios can enhance fuel efficiency and top speed. Gear ratio changes are commonly performed in performance vehicles, off-road vehicles, and racing applications to suit specific driving requirements.
- Limited-Slip Differentials (LSD): Upgrading to limited-slip differentials can significantly improve traction and handling. LSDs distribute torque between the wheels more evenly compared to open differentials, reducing wheel spin and maximizing grip. LSDs are particularly beneficial in high-performance vehicles, off-road vehicles, and applications where maintaining traction is crucial, such as racing or challenging driving conditions. LSDs can be retrofitted or factory-installed depending on the vehicle and its specific requirements.
- Electronic Differential Controls: Some vehicles feature electronic controls for the differential system. These controls allow customization of the differential’s behavior based on driving conditions and driver preferences. Through electronic controls, differential characteristics such as torque distribution, responsiveness, and traction management can be adjusted. This customization helps optimize performance, stability, and traction in various driving scenarios.
- Aftermarket Upgrades: The aftermarket industry offers various differential upgrade options. These include performance differentials, heavy-duty differentials, and specialized differentials designed for specific applications. These aftermarket upgrades can provide improved durability, enhanced traction, and higher torque capacity compared to stock differentials. They are commonly chosen by enthusiasts, off-road enthusiasts, and individuals seeking to enhance the capabilities of their vehicles for specific purposes.
- Custom Differential Designs: In certain cases, custom differential designs can be developed to meet specific application requirements. For example, in motorsports, differential designs can be tailored to optimize performance, handling, and traction for the specific demands of the racing discipline. Custom differentials may involve unique gear arrangements, specialized materials, and advanced features to deliver superior performance in targeted applications.
In summary, differential gears can be upgraded or customized to suit specific applications. Upgrades may include gear ratio changes, installation of limited-slip differentials, utilization of electronic differential controls, aftermarket differential options, or even custom differential designs. These modifications and customizations allow for improved performance, traction, and handling, catering to the specific needs and preferences of different vehicles and driving scenarios.
How do differential gears contribute to handling and stability in vehicles?
Differential gears play a significant role in enhancing the handling and stability of vehicles. Here’s a detailed explanation:
Differential gears contribute to handling and stability in vehicles in several ways:
1. Independent Wheel Rotation:
One of the primary contributions of differential gears is allowing the wheels to rotate independently. During turns, the outer wheel needs to travel a greater distance than the inner wheel. The differential gear enables this speed differentiation, ensuring that each wheel can rotate at a different speed while still receiving power from the engine. This independent wheel rotation enables smoother and more controlled handling during turns.
2. Balanced Power Distribution:
The differential gear distributes torque between the wheels, allowing them to receive power and propel the vehicle forward. By balancing the power distribution, the differential helps maintain stability during acceleration and deceleration. It ensures that both wheels receive an appropriate amount of power, preventing excessive wheel spin or traction loss, which can affect the vehicle’s stability.
3. Enhanced Traction:
Effective traction is crucial for handling and stability. Differential gears play a key role in optimizing traction. In situations where one wheel encounters reduced traction, such as on slippery surfaces or during cornering, the differential allows the wheel with better traction to receive more power. This torque distribution helps maximize the vehicle’s ability to maintain forward motion and improves overall stability by minimizing wheel slip.
4. Improved Steering Response:
The differential gear contributes to improved steering response, which is essential for handling and stability. By allowing the wheels to rotate independently, the differential enhances the vehicle’s ability to respond to steering inputs. It enables precise and controlled turning, allowing the driver to navigate corners and curves with better accuracy and confidence.
5. Balanced Weight Distribution:
Proper weight distribution is critical for optimal handling and stability. The differential gear helps maintain balanced weight distribution among the wheels. During turns, the weight of the vehicle shifts towards the outside wheels. The differential allows the outer wheel to rotate faster, accommodating this weight transfer and promoting stability. By ensuring balanced weight distribution, the differential contributes to predictable and controlled handling.
6. Prevention of Wheel Hop:
Wheel hop, which refers to the rapid up-and-down movement of the wheels during acceleration or on uneven surfaces, can negatively impact stability and handling. The differential gear helps prevent wheel hop by allowing the wheels to rotate at different speeds. This flexibility in wheel rotation reduces the likelihood of wheel hop, improving stability and maintaining better traction on the road.
In summary, differential gears contribute significantly to handling and stability in vehicles. They enable independent wheel rotation, balance power distribution, optimize traction, improve steering response, maintain balanced weight distribution, and prevent wheel hop. By facilitating smooth and controlled handling, the differential gear enhances the overall stability and performance of vehicles.
editor by CX 2024-04-15