Product Description


PROPELLER SHAFT manufacturer & supplier – CHINAMFG is your best choice

 

Product Name

Rear Drive Propeller Shaft Assembly For CHINAMFG TACOMA 98-04

Part Number

371AD

for CHINAMFG

37140‐6571

for CHINAMFG Land Cruiser

37302‐2

for CHINAMFG ‐

37140‐60590

for CHINAMFG Land Cruiser

for CHINAMFG ‐

37140‐6A610

for CHINAMFG Land Cruiser

37120‐0K030

for CHINAMFG ‐

37110‐6A620

for CHINAMFG Land Cruiser

37120‐30420

for CHINAMFG ‐

37140‐6AA

for CHINAMFG 4Runner

5215714AE

for CHINAMFG Land Crusier

530 0571 8

for CHINAMFG 4Runner

52123112AA

for CHINAMFG Land Crusier

25843685

for CHINAMFG 4Runner

37110‐6A310

for CHINAMFG Land Crusier

for CHINAMFG 4Runner

26571316

for CHINAMFG Pickup

for CHINAMFG 4Runner

151 0571 2

for CHINAMFG Pickup

for CHINAMFG 4Runner

37140‐35040

for CHINAMFG Pickup

for CHINAMFG 4Runner

37140‐35013

for CHINAMFG Pickup

37110‐3D060

for CHINAMFG 4Runner

37140‐35012

for CHINAMFG Pickup

37110‐3D3

for CHINAMFG CHINAMFG

371AC

for CHINAMFG Hilux

37110‐35880

for CHINAMFG Tacoma

521 0571 8AB

for CHINAMFG Hilux

37110‐3D220

for CHINAMFG Tacoma

5257103

for CHINAMFG Hilux

371

for CHINAMFG Hilux

371

for CHINAMFG Hilux

371AB

for CHINAMFG Hilux KUN15

37140‐60330

for CHINAMFG Land Cruiser

371AF

for CHINAMFG HJ60

37140‐6571

for CHINAMFG Land Cruiser

37110‐60330

for CHINAMFG HJ60

37110‐65710

for CHINAMFG Land Cruiser

371002A190

for CHINAMFG JZX100

37110‐65710

for CHINAMFG Land Cruiser

DORMAN

FITMENT

CARDONE

FITMENT

936-723

for CHINAMFG 4Runner

65-5018

for CHINAMFG 4Runner

936-775

for CHINAMFG 4Runner

65-9919

for CHINAMFG 4Runner

936-796

for CHINAMFG 4Runner

65-5002

for CHINAMFG 4Runner

938-306

for CHINAMFG 4Runner

65-5571

for CHINAMFG 4Runner

938-704

for CHINAMFG 4Runner

65-5016

for CHINAMFG 4Runner SR5

938-707

for CHINAMFG 4Runner

65-5006

for CHINAMFG HIGHLANDER

938-791

for CHINAMFG 4Runner SR5

65-9268

for CHINAMFG HILUX LN65 LN106 YN60 YN65 YN67

946-164

for CHINAMFG HIGHLANDER

65-9851

for CHINAMFG Land Cruiser

938-701

for CHINAMFG Land Cruiser

65-9375

for CHINAMFG Pickup

938-174

for CHINAMFG Pickup

65-9376

for CHINAMFG Pickup

938-706

for CHINAMFG Pickup

65-9842

for CHINAMFG Previa

936-722

for CHINAMFG RAV4

65-5000

for CHINAMFG RAV4

934-403

for CHINAMFG RAV4

65-5001

for CHINAMFG RAV4

936-721

for CHINAMFG Sienna

65-5007

for CHINAMFG Sienna

936-745

for CHINAMFG SIENNA

65-5030

for CHINAMFG SIENNA

936-700

for CHINAMFG Tacoma

65-5571

for CHINAMFG Tacoma

936-703

for CHINAMFG Tacoma

65-5011

for CHINAMFG Tacoma

936-704

for CHINAMFG Tacoma

65-5012

for CHINAMFG Tacoma

936-706

for CHINAMFG Tacoma

65-5013

for CHINAMFG Tacoma

936-708

for CHINAMFG Tacoma

65-5015

for CHINAMFG Tacoma

936-711

for CHINAMFG Tacoma

65-5019

for CHINAMFG Tacoma

936-724

for CHINAMFG Tacoma

65-5571

for CHINAMFG Tacoma

936-726

for CHINAMFG Tacoma

65-5571

for CHINAMFG Tacoma

936-728

for CHINAMFG Tacoma

65-5571

for CHINAMFG Tundra

936-738

for CHINAMFG Tacoma

65-5026

for CHINAMFG Tundra

936-717

for CHINAMFG Tundra

 

 

936-718

for CHINAMFG Tundra

 

 

936-719

for CHINAMFG Tundra

 

 

If you need more information about TOYOTA Propeller Shaft, please message or email to us ASAP.

 

—-  OUR ADVANTAGE —-
 +700 models for AMERICA & EUROPE marketMOQ: 3PCS / for 1 item, MIN order amount: USD5000
Quality assurance: One Year WarrantyStable delivery time: 45 days
Free Sample DevelopedApply O/A 30-90 days for regular customer

 

Becides CHINAMFG Propeller Shaft,we have Over 700 items applicable for following vehicles:

 

 

 

 

 

 

 

 

—-   F A Q   —-
Q1:  If we don’t find what we need on your website, what should we do?
You can send us the OE number or of the product you need, we will check if we have them.
We also develop new models according to customer’s need;
you can contact us for more detail.
Q2:  Can I get a price discount if I order large quantities?Yes, it depends on your purchasing quantity, more quantity more discount.
Q3:  What about the delivery time?If we have stock, we can send you the goods within 3 working days,
if we don’t have stock, generally it needs 10 to 40 days.

Q4:  What’s our MOQ?Sample order for quality testing 1 piece , normal order 50 pieces for 1 order with mixed models .
Q5:  What’s your payment terms and condition ?We can accept T/T , LC, Trade Assurance, Western Union, Paypal, Moneygram ect.

 

 

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After-sales Service: 1 Year
Condition: New
Color: Black
Certification: ISO, Ts16949
Type: Drive Shaft
Application Brand: Toyota
Samples:
US$ 300/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

pto shaft

How Do Rear Drive Shafts Ensure Efficient Power Transfer While Maintaining Balance?

Rear drive shafts play a crucial role in ensuring efficient power transfer from the engine or transmission to the rear wheels of a vehicle. At the same time, they must maintain balance to prevent vibrations, reduce stress on drivetrain components, and enhance overall performance. Here’s a detailed explanation of how rear drive shafts achieve efficient power transfer while maintaining balance:

1. Balanced Design:

Rear drive shafts are carefully designed and manufactured to achieve balance. Balance refers to the distribution of mass along the length of the drive shaft. Imbalances can lead to vibrations and unwanted forces that affect the smooth operation of the drivetrain. To achieve balance, drive shafts are dynamically balanced during the manufacturing process. This involves adding weights or removing material at specific locations to counteract any uneven distribution of mass. By achieving balance, the drive shaft can rotate smoothly at high speeds, minimizing vibrations and ensuring efficient power transfer.

2. Proper Length and Diameter:

The length and diameter of the rear drive shaft are important considerations for maintaining balance. A drive shaft that is too long or too short can result in excessive deflection or bending, leading to vibrations and potential failure. Similarly, an incorrect diameter can affect the stiffness and torsional strength of the drive shaft, resulting in imbalances. Manufacturers carefully calculate the optimal length and diameter of the drive shaft based on the vehicle’s specifications and requirements to ensure proper balance and power transfer.

3. High-Quality Materials:

The selection of high-quality materials is crucial for maintaining balance in rear drive shafts. Drive shafts are typically made from materials such as steel or aluminum. These materials offer the necessary strength and rigidity while being lightweight. The use of high-quality materials ensures that the drive shaft can withstand the torque and rotational forces without excessive flexing or bending, which can lead to imbalances. Additionally, the materials are chosen for their ability to resist fatigue and vibration, further contributing to balanced operation.

4. Precision Manufacturing:

Rear drive shafts are manufactured with precision to maintain balance. Advanced manufacturing techniques, such as computer-aided design (CAD) and computer numerical control (CNC) machining, are employed to ensure the drive shaft’s dimensional accuracy and balance. The manufacturing process involves precise machining of the shaft, including the yokes, flanges, and other components, to achieve tight tolerances and minimize any deviations that could affect balance. Strict quality control measures are implemented to verify the balance of each drive shaft before it is installed in a vehicle.

5. Vibration Dampening Techniques:

Rear drive shafts often incorporate vibration dampening techniques to further enhance balance and reduce unwanted vibrations. These techniques may include the use of balancing weights, dampers, or vibration-absorbing materials. Balancing weights can be strategically placed along the drive shaft to counteract any remaining imbalances. Dampers, such as rubber or elastomer components, are employed to absorb and dissipate vibrations, preventing them from propagating throughout the drivetrain. By minimizing vibrations, these techniques help maintain overall balance and contribute to efficient power transfer.

6. Universal Joints or Constant Velocity Joints:

Rear drive shafts incorporate flexible joints, such as universal joints (u-joints) or constant velocity (CV) joints, to accommodate changes in angles and maintain balance. These joints allow for angular movement and compensate for variations in the alignment between the transmission or transfer case and the rear differential. By allowing the drive shaft to flex and articulate, these joints help prevent binding, minimize stress on the drivetrain components, and maintain balance throughout the range of motion.

7. Regular Maintenance and Inspection:

Maintaining balance in rear drive shafts requires regular maintenance and inspection. Over time, components may wear or become damaged, leading to imbalances. It is important to periodically inspect the drive shaft for signs of wear, such as worn u-joints or damaged CV joints. Additionally, proper lubrication of the joints and ensuring the drive shaft is properly installed and aligned are essential for maintaining balance. Routine maintenance and inspections help detect and address any issues that could affect the drive shaft’s balance and overall performance.

In summary, rear drive shafts ensure efficient power transfer while maintaining balance through a combination of balanced design, proper length and diameter, high-quality materials, precision manufacturing, vibration dampening techniques, flexible joints, and regular maintenance. By achieving and maintaining balance, rear drive shafts contribute to smooth operation, minimize vibrations, and enhance the overall performance and longevity of the drivetrain system.

pto shaft

How Do Rear Drive Shafts Ensure Smooth Power Delivery and Minimize Vibration in Vehicles?

Rear drive shafts play a critical role in ensuring smooth power delivery and minimizing vibration in vehicles. They are designed to transmit torque from the transmission or transfer case to the rear differential or axle, allowing the wheels to propel the vehicle forward. Here’s a detailed explanation of how rear drive shafts achieve smooth power delivery and minimize vibration:

1. Balanced Design:

Rear drive shafts are carefully engineered to achieve a balanced design. This involves taking into consideration factors such as length, diameter, material properties, and weight distribution. By achieving balance, the drive shaft minimizes the occurrence of vibrations that can result from uneven weight distribution or misalignment. Balanced drive shafts reduce the chances of vibration-induced discomfort, noise, and potential damage to other drivetrain components.

2. Precision Manufacturing:

The manufacturing process of rear drive shafts involves precision techniques to ensure the highest level of accuracy and quality. Computer numerical control (CNC) machining and advanced welding methods are employed to create drive shafts with precise dimensions and alignment. This precision manufacturing helps to reduce any imperfections or inconsistencies that could contribute to vibration. By producing drive shafts with tight tolerances, manufacturers strive to achieve smooth power delivery and minimize vibration.

3. High-Quality Materials:

The choice of materials for rear drive shafts greatly influences their ability to ensure smooth power delivery and minimize vibration. Drive shafts are commonly made from materials such as steel, aluminum, or composite materials. These materials are selected for their strength, durability, and vibration-damping properties. High-quality materials with excellent torsional rigidity and appropriate damping characteristics help absorb and dissipate vibrations, resulting in smoother power delivery and a reduction in unwanted vibrations.

4. Dampening Techniques:

Vibration dampening techniques are employed in rear drive shafts to further minimize vibrations. These techniques include the use of rubber or polyurethane bushings and isolators at the connection points between the drive shaft and other components, such as the transmission, transfer case, and differential. These bushings act as vibration absorbers, reducing the transfer of vibrations from the drive shaft to the rest of the vehicle’s drivetrain. By effectively isolating vibrations, rear drive shafts contribute to a smoother power delivery and a more comfortable driving experience.

5. Drive Shaft Angles:

The angles at which the rear drive shaft operates can impact power delivery and vibration. Rear drive shafts are designed with proper operating angles to minimize vibration. These angles, known as the driveshaft angles or u-joint angles, are carefully calculated to ensure optimal alignment and reduce vibration-causing forces. Improperly aligned drive shaft angles can result in driveline vibrations, so proper alignment is crucial for smooth power delivery and minimal vibration.

6. Dynamic Balancing:

During the manufacturing process, rear drive shafts undergo dynamic balancing. Dynamic balancing involves spinning the drive shaft and adding small counterweights to eliminate any imbalances. This process ensures that the drive shaft is evenly weighted and free from vibration-causing irregularities. Dynamic balancing helps achieve smooth power delivery and minimizes vibration by eliminating the effects of imbalance that can arise from manufacturing tolerances or material variations.

7. Regular Maintenance:

Regular maintenance and inspection of rear drive shafts are essential to ensure their optimal performance and minimize vibration. This includes checking for signs of wear, damage, or misalignment. Proper lubrication of universal joints and ensuring the integrity of the drive shaft’s components are also important maintenance tasks. By keeping rear drive shafts in good condition, potential sources of vibration can be identified and addressed promptly, contributing to smooth power delivery and minimizing vibration.

In summary, rear drive shafts achieve smooth power delivery and minimize vibration through balanced design, precision manufacturing, high-quality materials, dampening techniques, proper drive shaft angles, dynamic balancing, and regular maintenance. These measures collectively contribute to a comfortable and efficient driving experience while reducing the risk of drivetrain-related vibration and potential damage to the vehicle.

pto shaft

What Is a Rear Drive Shaft and How Does It Contribute to Vehicle Propulsion?

A rear drive shaft is a component of a vehicle’s drivetrain system that connects the transmission or transfer case to the rear differential. It plays a crucial role in transmitting power from the engine to the rear wheels, contributing to the vehicle’s propulsion. Here’s a detailed explanation of what a rear drive shaft is and how it contributes to vehicle propulsion:

1. Drivetrain Connection:

The rear drive shaft serves as a mechanical link between the transmission or transfer case and the rear differential. It is typically a tubular shaft that rotates at high speeds to transfer torque from the engine to the rear wheels.

When the engine generates power, it is transmitted through the transmission or transfer case, which determines the appropriate gear ratio. The rear drive shaft then transmits this torque to the rear differential, which further distributes power to the rear wheels.

2. Torque Transmission:

The primary function of the rear drive shaft is to transmit torque from the engine to the rear wheels. Torque is the rotational force generated by the engine, and it is essential for propelling the vehicle forward.

As the engine produces torque, it is transferred to the transmission or transfer case. From there, the torque is sent through the rear drive shaft to the rear differential. The rear differential then splits the torque and sends it to the rear wheels, allowing them to rotate and propel the vehicle.

3. Power Distribution:

The rear drive shaft plays a critical role in distributing power evenly between the rear wheels. In vehicles with rear-wheel drive systems, the rear drive shaft ensures that power is distributed to both wheels, enabling balanced propulsion.

By transmitting torque from the engine to the rear differential, the rear drive shaft allows the differential to distribute power to both rear wheels based on traction conditions. This power distribution ensures that both wheels contribute to vehicle propulsion and provides stability and control during acceleration and cornering.

4. Suspension Movement Compensation:

Another important function of the rear drive shaft is to compensate for the movement of the suspension system. The suspension system allows the wheels to move up and down independently to absorb bumps, uneven road surfaces, and other disturbances.

As the suspension moves, the distance between the transmission or transfer case and the rear differential changes. The rear drive shaft accommodates this movement by expanding or contracting its length, allowing the rear wheels to move vertically while maintaining a continuous torque transmission.

5. Drive System Efficiency:

An efficiently operating rear drive shaft contributes to the overall efficiency of the vehicle’s drivetrain system. By effectively transmitting torque from the engine to the rear wheels, it minimizes power losses and ensures optimal power delivery.

Efficiency in power transmission reduces energy waste and maximizes the vehicle’s performance and fuel efficiency. A well-maintained rear drive shaft with proper lubrication and alignment helps minimize friction and mechanical losses, maximizing the effectiveness of the drivetrain system.

6. Four-Wheel Drive Capability:

In vehicles equipped with four-wheel drive systems, the rear drive shaft is a crucial component for engaging the front wheels for propulsion. In these systems, the rear drive shaft transfers torque to the transfer case, which then distributes power to the front and rear differentials.

By transmitting torque to the transfer case, the rear drive shaft enables four-wheel drive capability, allowing the vehicle to engage all four wheels for enhanced traction and off-road performance.

In summary, a rear drive shaft is a key component in a vehicle’s drivetrain system. It serves as a drivetrain connection, transmits torque from the engine to the rear wheels, distributes power between the rear wheels, compensates for suspension movement, enhances drive system efficiency, and facilitates four-wheel drive capability. By fulfilling these functions, the rear drive shaft contributes to the vehicle’s propulsion, stability, and overall performance.

China Best Sales 37100-3D250 Rear Driveshaft Assembly for CZPT Tacoma 1998-2004 2.7L Rwd a. T Drive Prop Cardan Shaft  China Best Sales 37100-3D250 Rear Driveshaft Assembly for CZPT Tacoma 1998-2004 2.7L Rwd a. T Drive Prop Cardan Shaft
editor by CX 2024-05-10