Product Description
As a professional manufacturer for propeller shaft, we have +800 items for all kinds of car, main suitable
for AMERICA & EUROPE market.
Our advantage:
1. Full range of products
2. MOQ qty: 5pcs/items
3. Delivery on time
4: Warranty: 1 YEAR
5. Develope new items: FREE
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Brand Name |
KOWA DRIVE SHAFT |
|
Item name |
43420-06700 |
|
Car maker |
For Toyota CAMRY RAV4 ACV4# 2AZ |
|
Moq |
20pcs |
|
Guarantee |
12 months |
|
sample |
Available if have stock |
|
Price |
Send inquiry to get lastest price |
|
BOX/QTY |
1PCS/Bag 4PCS /CTNS |
We have more drive shafts of models that have not been uploaded in time, such as: For Hyundai Mazda CZPT CZPT CZPT Honda Nissan… Please send an inquiry and we will solve your needs, click Contact Supplier, thank you.
| For Japanese Car | |||
| for TOYOTA | for TOYOTA | ||
| 43420-57170 | 43420-57180 | 43410-0W081 | 43420-0W080 |
| 43410-57120 | 43420-57190 | 43410-0W091 | 43420-0W090 |
| 43410-57130 | 43420-57120 | 43410-0W100 | 43420-0W110 |
| 43410-57150 | 43420-02B10 | 43410-0W110 | 43420-0W160 |
| 43410-06221 | 43420-02B11 | 43410-0W140 | 43420-32161 |
| 43410-06231 | 43420-02B60 | 43410-0W150 | 43420-33250 |
| 43410-06460 | 43420-02B61 | 43410-0W180 | 43420-33280 |
| 43410-06570 | 43420-02B62 | 43410-12410 | 43420-48090 |
| 43410-06580 | 43420-06221 | 43410-33280 | 43420-48091 |
| 43410-066-90 | 43420-06231 | 43410-33290 | 43430OK571 |
| 43410-06750 | 43420-06460 | 43410-33330 | 66-5245 |
| 43410-06780 | 43420-06490 | 43410-48070 | 66-5247 |
| 43410-06A40 | 43420-06500 | 43410-48071 | 43420-57150 |
| 43410-06A50 | 43420- 0571 0 | 43410-0W061 | 43420-0W061 |
| 43410-07070 | 43420-06610 | 43410-0W071 | 43420-0W071 |
| for Acura | for LEXUS | ||
| 44305STKA00 | 66-4198 | 43410-06200 | 43410-06480 |
| 44305STKA01 | 66-4261 | 43410-06450 | 43410-06560 |
| 44305SZPA00 | 66-4262 | 66-5265 | |
| 44306STKA00 | 66-4270 | for MITSUBISHI | |
| 44306STKA01 | 66-4271 | 3815A309 | 3815A310 |
| 44306SZPA00 | |||
| for Honda | for MAZDA | ||
| 44571S1571 | 44306S3VA61 | 5L8Z3A428AB | GG052550XD |
| 44011S1571 | 44306S3VA62 | 5L8Z3A428DA | GG052560XE |
| 44305S2HN50 | 44306S9VA51 | 66-2090 | GG362550XA |
| 44305SCVA50 | 44306S9VA71 | 6L8Z3A428A | YL8Z3A427AA |
| 44305SCVA51 | 44306SCVA50 | 9L8Z3A427B | YL8Z3A427BA |
| 44305SCVA90 | 44306SCVA51 | GG032550XD | YL8Z3A428AA |
| 44305SCVA91 | 44306SCVA90 | GG042550XD | YL8Z3A428BA |
| 44305STXA02 | 44306SCVA91 | GG042560XG | ZC32550XA |
| 44305SZAA01 | 44306STXA02 | ||
| 44306S2H951 | 44306SZAA01 | ||
| 44306SZAA11 | 44306SZAA01RM | ||
| 44306SZAA12 | 66-4213 | ||
| 66-4214 | |||
| for Europe Car | |||
| for VOLKSWAGEN | for VOLKSWAGEN | ||
| 4885712AD | 7B0407271B | 7E0407271G | 7LA407272C |
| 4885713AF | 7B0407272 | 7E0407271P | 7LA4 0571 2CX |
| 4881214AE | 7B0407272E | 7LA407271E | |
| 7B0407271A | |||
| for America Car | |||
| for CHRYSLER | for MERCURY | ||
| 4593447AA | 557180AD | 4F1Z3B437AA | GG322560X |
| 4641855AA | 52114390AB | 5L8Z3A428DB | GG362560XA |
| 4641855AC | 5273546AC | 66-2249 | YL8Z3A427CA |
| 4641856AA | 66-3108 | 9L8Z3A427C | YL8Z3A427DA |
| 4641856AC | 66-3109 | 9L8Z3A427D | YL8Z3A427EA |
| 4882517 | 66-3130 | GG062550XD | YL8Z3A427FA |
| 4882518 | 66-3131 | GG062560XE | YL8Z3A428CA |
| 4882519 | 66-3234 | GG312560X | ZZDA2560X |
| 4882520 | 66-3518 | ZZDA2560XC | ZZDA2560XA |
| 557130AB | 66-3520 | for RAM | |
| 66-3552 | 66-3522 | 4885713AD | 55719AB |
| 66-3553 | 66-3551 | 4881214AD | 66-3404 |
| 66-3554 | 66-3639 | 55719AA | 66-3740 |
| 68193908AB | 66-3641 | 68571398AA | |
| for FORD | for DODGE | ||
| 1F0571400 | E6DZ3V428AARM | 4593449AA | 7B0407272A |
| 1F0571410 | E8DZ3V427AARM | 4641855AE | 7B0407272B |
| 1F2Z3B436AA | E8DZ3V428AARM | 4641855EE | 7B0407272C |
| 2F1Z3A428CA | E90Y3V427AARM | 4641856AD | R4881214AE |
| 2M5Z3B437CA | E90Y3V428AARM | 4641856AF | RL189279AA |
| 4F1Z3B437BA | F0DZ3V427AARM | 4885710AC | 557180AG |
| 5M6Z3A428AA | F0DZ3V428AARM | 4885710AE | 5170822AA |
| 5S4Z3B437AA | F21Z3B437A | 4885710AF | 52114390AA |
| 66-2005 | F21Z3B437B | 4885710AG | 5273546AD |
| 66-2008 | F2DZ3B436A | 4885711AC | 5273546AE |
| 66-2571 | F2DZ3B436B | 4885711AD | 5273546AF |
| 66-2084 | F2DZ3B437A | 4885712AC | 5273558AB |
| 66-2086 | F2DZ3B437B | 4885712AE | 5273558AD |
| 66-2095 | F4DZ3B437A | 4885712AG | 5273558AE |
| 66-2101 | F57Z3B436BA | 4885712AH | 5273558AF |
| 66-2143 | F57Z3B437BA | 4885713AC | 4881214AC |
| 6S4Z3B437BA | F5DZ3A427BA | 4885713AG | 4881214AF |
| 8S4Z3B437A | F5DZ3A428AS | 4885713AI | 4881214AG |
| 9L8Z3A427A | F5DZ3B426D | 4885713AJ | 557130AA |
| E6DZ3V427AARM | F5DZ3B436D | 5273558AG | 557180AE |
| YF1Z3A428RS | F5DZ3B437B | 66-3382 | 557180AF |
| YL8Z3A428DA | F5TZ3B436A | 66-3511 | 66-3514 |
| YS4Z3B437BB | GG032560XG | 66-3759 | 66-3564 |
| YS4Z3B437CB | GG362550X | ||
| YF1Z3A427L | |||
| for CHEVROLET | for JEEP | ||
| 257191 | 26062613 | 4578885AA | 5215710AA |
| 22791460 | 4578885AB | 5215711AB | |
| 26011961 | 4578885AC | 5215711AB | |
| 26571730 | 2657189 | 4720380 | 5273438AC |
| 2657165 | 66-1401 | 4720381 | 5273438AD |
| 26058932 | 66-1438 | 5012456AB | 5273438AE |
| 26065719 | 88982496 | 5012457AB | 5273438AG |
| for HUMMER | 5066571AA | 66-3220 | |
| 1571204 | 595716 | 557120AB | 66-3221 |
| 15886012 | 66-1417 | 557120AC | 66-3298 |
| for CADILLAC | 557120AD | 66-3352 | |
| 88957151 | 66-1416 | 557120AE | 66-3417 |
| 66-1009 | 66-1430 | 5189278AA | 66-3418 |
| 66-1415 | 88957150 | 5189279AA | 66-3419 |
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | 1 Year |
|---|---|
| Condition: | New |
| Color: | Black |
| Certification: | ISO |
| Type: | Drive Shaft |
| Application Brand: | Toyota |
| Samples: |
US$ 300/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
Are there differences between constant velocity (CV) axles and universal joint (U-joint) axles?
Constant velocity (CV) axles and universal joint (U-joint) axles are two distinct types of axle designs commonly used in vehicles. Here’s an explanation of the differences between CV axles and U-joint axles:
1. Design and Function:
A CV axle consists of a shaft with two constant velocity joints at each end. These joints allow the axle to transmit power to the wheels while accommodating changes in angle and rotational speed. CV axles use a series of bearings and balls to provide smooth power transfer and maintain a constant velocity, hence the name. This design allows for flexibility in various driving conditions, including turning and suspension movement.
On the other hand, U-joint axles use universal joints to transmit power between the transmission or differential and the wheels. U-joints are mechanical connections that allow for angular movement between two shafts. They consist of a cross-shaped yoke and needle bearings that transmit torque while allowing for changes in angle. U-joint axles are commonly found in older vehicles, truck applications, and some off-road vehicles.
2. Articulation and Range of Motion:
CV axles are known for their superior articulation and range of motion. The constant velocity joints in CV axles can operate at higher angles, allowing for greater wheel travel and suspension articulation. This makes CV axles ideal for vehicles with independent suspension systems or those that require more significant wheel movement, such as front-wheel-drive and all-wheel-drive vehicles.
U-joint axles, while capable of transmitting torque, have more limited articulation capabilities compared to CV axles. The design of U-joints restricts the operating angle, making them better suited for applications with lower angles of operation, such as rear-wheel-drive vehicles with solid axles or trucks that typically have less suspension travel.
3. Reliability and Maintenance:
In terms of reliability and maintenance, CV axles are generally considered more durable and require less frequent maintenance compared to U-joint axles. The constant velocity joints in CV axles are enclosed in protective rubber boots, which help to keep dirt, debris, and moisture out. Regular inspection and maintenance of CV axle boots are necessary to prevent damage and ensure longevity. However, if the boots fail and allow contaminants inside, the CV joints can be prone to premature wear and failure.
U-joints, on the other hand, require periodic lubrication to maintain proper operation. They are exposed and require regular greasing to prevent dryness and wear. If not properly maintained, U-joints can develop play, wear out, and eventually fail, leading to driveline vibrations and potential damage to other drivetrain components.
4. Application and Vehicle Type:
The choice between CV axles and U-joint axles depends on the specific application and vehicle type. CV axles are commonly used in front-wheel-drive vehicles, all-wheel-drive vehicles, and some four-wheel-drive vehicles with independent suspension systems. They offer better articulation, smoother operation, and are more suitable for vehicles with higher angles of operation.
U-joint axles are found in various applications, including rear-wheel-drive vehicles, trucks, and some off-road vehicles with solid axles. They are often used in heavy-duty applications due to their robust design and ability to handle higher torque loads.
In summary, the main differences between CV axles and U-joint axles lie in their design, articulation capabilities, reliability, and application. CV axles are known for their superior articulation, smoother operation, and reduced maintenance, making them suitable for front-wheel-drive and all-wheel-drive vehicles. U-joint axles have more limited articulation, require periodic lubrication, and are commonly used in rear-wheel-drive vehicles, trucks, and some off-road applications.
What are the signs of a worn CV joint, and how does it relate to the CV axle?
A CV joint is an essential component of a CV axle, and understanding the signs of a worn CV joint is crucial for identifying potential issues with the CV axle. Here’s an explanation of the signs of a worn CV joint and how it relates to the CV axle:
Signs of a Worn CV Joint:
1. Clicking or Popping Noises: One of the most common signs of a worn CV joint is a clicking or popping noise when turning. This noise is typically heard during low-speed maneuvers, such as when making a sharp turn or navigating a parking lot. The clicking or popping sound is caused by excessive play or looseness in the CV joint due to worn or damaged internal components.
2. Vibrations or Shuddering: A worn CV joint can cause vibrations or shuddering sensations, particularly during acceleration. This may be felt in the steering wheel, floorboard, or even the entire vehicle. The vibrations can occur due to an imbalance caused by a damaged CV joint, resulting in an uneven transfer of power to the wheels.
3. Grease Leakage: CV joints are packed with grease to lubricate the internal components and reduce friction. If a CV joint is worn or damaged, it may cause the grease to leak out. This can be observed as grease stains or splatters around the CV joint or on the inner side of the wheels. Grease leakage is a clear indication of a faulty CV joint that requires attention.
4. Torn CV Boot: The CV joint is protected by a rubber boot that seals in the grease and shields the joint from contaminants. A torn or damaged CV boot exposes the CV joint to dirt, debris, and moisture, leading to accelerated wear and potential damage. Inspecting the CV boots regularly and looking for any signs of tears or cracks is essential in identifying potential CV joint issues.
Relationship between CV Joint and CV Axle:
The CV joint is a critical component of the CV axle assembly. The CV axle, or constant velocity axle, is responsible for transmitting power from the transmission or differential to the wheels while allowing for flexible movement due to its jointed design. The CV joint is located at either end of the CV axle and connects it to the wheel hub assembly.
The CV joint enables the CV axle to transfer power smoothly to the wheels, even when the suspension moves up and down or when the wheels turn during steering. It allows for a constant velocity, hence the name “constant velocity joint.” The CV joint is designed with a ball-bearing or tripod-style mechanism that allows for articulation and rotation while maintaining a consistent speed and torque delivery to the wheels.
However, over time, the CV joint can wear out due to the constant movement, high loads, and exposure to contaminants. When a CV joint becomes worn or damaged, it can affect the overall performance and reliability of the CV axle. If left unaddressed, a worn CV joint can lead to further damage to the CV axle, potentially resulting in complete failure and loss of power transmission to the wheels.
Therefore, it’s crucial to pay attention to the signs of a worn CV joint and address them promptly by inspecting and replacing the affected CV axle or performing necessary repairs. Regular maintenance, including visual inspection of CV boots and listening for any abnormal noises during operation, can help detect CV joint issues early and prevent further damage to the CV axle assembly.
Are there differences between front and rear CV axles in terms of design and function?
Yes, there are differences between front and rear CV axles in terms of design and function. Front and rear CV axles serve different purposes and operate under varying conditions within a vehicle’s drivetrain. Here’s an explanation of the differences between front and rear CV axles:
Design Differences:
Front CV Axles: Front CV axles are typically designed to accommodate a higher range of motion and steering angles. They need to withstand the forces generated during steering, as well as the vertical movement of the front suspension. Front CV axles are usually longer than rear axles and often feature a different design to allow for the articulation and flexibility required during turns and suspension movement.
Rear CV Axles: Rear CV axles, on the other hand, are generally designed to transmit torque from the differential to the rear wheels without the need for significant steering angles or vertical movement. They are typically shorter and more straightforward in design compared to front axles. Rear CV axles focus primarily on transmitting power and supporting the weight of the vehicle.
Function Differences:
Front CV Axles: Front CV axles play a critical role in transmitting power from the transmission or differential to the front wheels while accommodating steering angles and vertical suspension movement. They need to maintain a constant velocity as the wheels turn at different speeds during steering maneuvers. Front CV axles also contribute to the vehicle’s overall stability and handling.
Rear CV Axles: Rear CV axles primarily serve the purpose of transmitting torque from the differential to the rear wheels, allowing the vehicle to move forward or backward. They are responsible for delivering power to the wheels without the need for significant steering flexibility. Rear CV axles also support the weight of the vehicle and contribute to the overall stability of the rear suspension.
Overall:
While both front and rear CV axles are crucial components in a vehicle’s drivetrain, their design and function differ due to the specific demands placed on them. Front CV axles are designed to accommodate steering angles and vertical suspension movement, while rear CV axles focus on power transmission and weight support. Understanding these differences is important when it comes to maintenance, repairs, and replacement of CV axles based on their specific locations in the vehicle’s drivetrain.
editor by CX 2024-05-14