China factory 4111060801 Front Differential Carrier for 100-Series Lexus Lx Vehicles Final Gear Ratio 4.10 gear cycle

Product Description

Specifications:

LC 1 UZJ100 HDJ100 LEXUS LX front differential 10×41 ENGINE 2UZ 1HD 1HZ 1FZ 1VD
* Other Names:Carrier Assembly, Carrier Assembly Differ
* Description:for HDJ FZJ 100
41201-80169 41201-69805 41201-80168 41201-69795

41201-80130 41201-80806 41201-80807

* Condition:New

 

We also have CHINAMFG HILUX HIACE 4RUNNER FORTUNER TACOMA LAND CRUISER PRADO ; CHINAMFG FUSO/CANTER; HINO TRUCK; CHINAMFG TRUCK NPR CHINAMFG NHR FRR FSR FTR; NIISSAN PATROL;

 

41110-65710 41110-65711 41110-6571 41110-6571 41110-6A150 41110-6A151 41110-6A321 41110-6A322 41110-6571 41110-6571
41110-60330 41110-60333

 

41110-60821 41110-6A171 41110-60861 41110-60A11 41110-60A10 41110-60A11 41110-60A20 41110-60A21 41110-60A40 41110-60A41
41110-60A50 41110-60A51 41110-6A011 41110-60A41 41110-60A70 41110-60A71 41110-60A80 41110-60A81 41110-6A051 41110-60A71
41110-6A061 41110-60A81

 

41110-35890 41110-35891 41110-3D571 41110-3D571 41110-3D040 41110-3D042 41110-3D060 41110-3D062 41110-3D030 41110-3D031
41110-3D080 41110-3D081

 

41110-3D460 41110-3D462 41110-3D380 41110-3D382 41110-0KA90 41110-0K364 41110-0K361 41110-0K291 41110-0K362 41110-0K363
41110-0K580 41110-0K630 41110-0K011 41110-0KC40 41110-0K012 41110-0KC40 41110-0K061 41110-0K062 41110-26150 41110-35891
41110-26430 41110-26432 41110-26620 41110-26622

 

1).DESCRIPTION:

                a. Case casted by QT500-7 ductile iron, with good toughness & performance, CNC machined with primary shaping, measure by CMM machine to control its precision.

                b. Use orginal bearing KOYO, NSK, NAICH from Japan, with lifewime longer.

                c. With oil seal NOK, to seal up better.

2).Speed Ratio: 10-43 10-41 etc.

3).Replace for: Toyota Land Cruiser

4).SPECIAL SERVICE:

Can be made according to customers’ drawings and/or samples;

5).PACKAGE:

Inner & Outer packing:With poly bag, then packed by pallet.

We can also provide carton boxes fastened with pallet

According to customers’ requirements.

About us:

YOUBISHENG MACHINERY INDUSTRIAL CO,.LTD.

We are special and reliable manufacturer of V stay, torque rod, torque rod bush, repair kits, rubber support, CHINAMFG gear pinion, drive shaft, axle shaft, differential assembly(differential case, gear, input/cross shaft etc.) and other truck parts.

European trucks:Mercedes, Volvo, Scania, MAN, DAF, Renault, Iveco, BPW, VW, TATA, AMW.
Chinese trucks:Steyr, Howo, Sinotruk, Faw, Xihu (West Lake) Dis.feng Motor(DFM), ZheJiang , EQ153, Foton, CAMC, Yutong, Kinglong/Golden Dragon.
Japanese trucks:Hino, Nissan, MitsubishI, Isuzu,Toyota, Haice, Hilux, Land Cruiser.
 

* Sample Available:Sample Free & Freight Collect.

* Customizable :As per your drawings or samples.

Contact infos:

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After-sales Service: Engineer Guidance
Condition: New
Axle Number: 1/2/3
Application: Truck
Certification: ISO
Material: Steel
Samples:
US$ 100/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

differential gear

What is the impact of a malfunctioning differential gear on a vehicle’s performance?

A malfunctioning differential gear can significantly impact a vehicle’s performance and drivability. Here’s a detailed explanation of the effects of a malfunctioning differential gear:

1. Limited Traction:

A malfunctioning differential gear may result in limited traction, especially in off-road or slippery conditions. The differential gear distributes torque between the wheels to provide optimal traction. If the gear malfunctions, it may not distribute power evenly, causing one or more wheels to lose traction. This can result in wheel slip, difficulty in accelerating, and compromised control over the vehicle.

2. Poor Handling and Stability:

The differential gear plays a critical role in maintaining stability and handling characteristics of a vehicle. A malfunctioning differential gear can disrupt the balance between the wheels, leading to poor handling and stability. For example, if a rear-wheel-drive vehicle’s differential gear fails, it can cause excessive oversteer or understeer, making the vehicle difficult to control during cornering or sudden maneuvers.

3. Increased Tire Wear:

A malfunctioning differential gear can cause uneven tire wear. When the gear fails to distribute torque evenly, some wheels may experience excessive slippage or spinning, while others receive insufficient power. This uneven distribution of forces can lead to accelerated tire wear on specific wheels, resulting in uneven tread wear patterns and reducing the overall lifespan of the tires.

4. Abnormal Noise and Vibration:

A malfunctioning differential gear can produce abnormal noises and vibrations. If the gear’s components, such as bearings or gears, wear out or become damaged, it can result in grinding, whining, or clunking noises during operation. Additionally, the vehicle may experience vibrations, especially when accelerating or navigating turns. These symptoms indicate potential issues with the differential gear that require immediate attention.

5. Loss of Power and Performance:

A malfunctioning differential gear can lead to a loss of power and performance. If the gear fails to transfer torque effectively, the vehicle may experience reduced power delivery to the wheels. This can result in sluggish acceleration, decreased towing or hauling capacity, and overall compromised performance. The vehicle may struggle to climb inclines, navigate challenging terrain, or maintain speed efficiently.

6. Increased Fuel Consumption:

A malfunctioning differential gear can contribute to increased fuel consumption. When the gear fails to distribute torque properly, the engine may need to work harder to compensate for the lack of power transmission. This increased workload can lead to higher fuel consumption, as the engine consumes more fuel to maintain performance levels.

7. Safety Concerns:

A malfunctioning differential gear can pose safety concerns for the driver and passengers. Limited traction, poor handling, and compromised stability increase the risk of accidents, especially in adverse weather conditions or emergency situations. It is crucial to address any differential gear issues promptly to ensure the safe operation of the vehicle.

In summary, a malfunctioning differential gear can have a significant impact on a vehicle’s performance. It can result in limited traction, poor handling and stability, increased tire wear, abnormal noises and vibrations, loss of power and performance, increased fuel consumption, and safety concerns. Regular maintenance, prompt repairs, and addressing differential gear issues can help maintain the vehicle’s performance, drivability, and overall safety.

differential gear

How do differential gears function in both front-wheel-drive and rear-wheel-drive vehicles?

In both front-wheel-drive and rear-wheel-drive vehicles, differential gears serve the same fundamental purpose of distributing power from the engine to the wheels while allowing them to rotate at different speeds. However, their specific configurations and functions differ between these two types of drivetrains. Here’s a detailed explanation of how differential gears function in both front-wheel-drive and rear-wheel-drive vehicles:

Front-Wheel-Drive Vehicles:

In front-wheel-drive vehicles, the differential gears are typically integrated into the transaxle assembly, which combines the transmission and differential into a single unit. Here’s how the differential gears function in front-wheel-drive vehicles:

  • Power Input: The engine’s power is transmitted through the transmission to the transaxle assembly.
  • Ring and Pinion Gears: The power from the transaxle is delivered to a set of ring and pinion gears within the differential assembly. These gears are responsible for distributing torque to the front wheels.
  • Spider Gears: The ring gear is connected to a carrier that houses multiple smaller gears called spider gears. These spider gears allow the front wheels to rotate at different speeds during turns.
  • Equal Torque Distribution: In front-wheel-drive vehicles, the differential gears prioritize equal torque distribution between the two front wheels. This design helps maintain traction and stability during acceleration and cornering.
  • Traction Control: Some front-wheel-drive vehicles may also incorporate additional features in the differential assembly, such as electronic limited-slip differentials or traction control systems. These features help optimize traction by transferring power to the wheel with better grip, reducing wheel spin and improving overall performance.

Rear-Wheel-Drive Vehicles:

In rear-wheel-drive vehicles, the differential gears are typically located in the rear axle assembly. Here’s how the differential gears function in rear-wheel-drive vehicles:

  • Power Input: The engine’s power is transmitted through the transmission to the driveshaft, which connects to the rear axle assembly.
  • Drive Pinion and Ring Gear: The driveshaft is connected to a drive pinion gear, which meshes with a larger ring gear. This gear set is responsible for transferring power to the rear wheels.
  • Spider Gears: Similar to front-wheel-drive vehicles, rear-wheel-drive vehicles also have spider gears housed within the differential assembly. The spider gears allow the rear wheels to rotate at different speeds during turns.
  • Torque Distribution: In rear-wheel-drive vehicles, the differential gears distribute torque to the rear wheels in a manner that prioritizes rear-wheel traction and propulsion. This configuration is particularly beneficial for vehicle acceleration and load-carrying capability.
  • Enhanced Features: Rear-wheel-drive vehicles may also incorporate advanced differential systems, such as limited-slip differentials or electronic locking differentials, to optimize traction and performance. These features help improve grip, especially in challenging driving conditions or when driving off-road.

In summary, differential gears function differently in front-wheel-drive and rear-wheel-drive vehicles due to their distinct drivetrain configurations. In front-wheel-drive vehicles, the differential gears are typically integrated into the transaxle assembly and prioritize equal torque distribution to the front wheels. In rear-wheel-drive vehicles, the differential gears are located in the rear axle assembly and focus on torque distribution to the rear wheels for propulsion. Understanding the specific functions of differential gears in each drivetrain type is essential for optimizing vehicle performance, traction, and stability.

differential gear

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.

China factory 4111060801 Front Differential Carrier for 100-Series Lexus Lx Vehicles Final Gear Ratio 4.10 gear cycleChina factory 4111060801 Front Differential Carrier for 100-Series Lexus Lx Vehicles Final Gear Ratio 4.10 gear cycle
editor by Dream 2024-04-24