Product Description
Product Description
Auto Parts Steering Rack Pinion 3AB423061C 3AB423061A 3AB423061KX for SEAT VW
|
Product Parameters
OEM NUMBER
SEAT : 3AB423061 SEAT : 3AB423061A SEAT : 3AB423061AX SEAT : 3AB423061CX SEAT : 3AB423061FX SEAT : 3AB423061G SEAT : 3AB423061GX SEAT : 3AB423061H SEAT : 3AB423061HX SEAT : 3AB423061J SEAT : 3AB423061JX SEAT : 3AB423061K SEAT : 3AB423061KX SEAT : 3AB423061X SEAT : 3C1423050M SEAT : 3C1423061N SEAT : 3C1423061NX SEAT : 3C1423061P SEAT : 3C1423061R SEAT : 3C1423061RX |
VW : 3AB423061 VW : 3AB423061A VW : 3AB423061AX VW : 3AB423061C VW : 3AB423061CX VW : 3AB423061F VW : 3AB423061FX VW : 3AB423061G VW : 3AB423061GX VW : 3AB423061H VW : 3AB423061HX VW : 3AB423061J VW : 3AB423061JX VW : 3AB423061K VW : 3AB423061KX VW : 3AB423061X VW : 3C1423050F VW : 3C1423050M VW : 3C1423061J VW : 3C1423061JX VW : 3C1423061K VW : 3C1423061KX VW : 3C1423061M VW : 3C1423061MX VW : 3C1423061N VW : 3C1423061NX VW : 3C1423061P VW : 3C1423061R VW : 3C1423061RX |
OEM NUMBER
SGE0044R SGERVWP3C1 DSR2131L DSR2148L DSR2152L DSR2384L 717521418 17-1418 |
SR23359 SGA1254L 06.96.5502 503- 0571 8 54878 SG 0571 8 DE004VW |
APPLICATION
SEAT ALHAMBRA (710, 711) 2.0 TDI 2571-2011 CFFA 1968 100 MPV SEAT ALHAMBRA (710, 711) 2.0 TDI 2571-2013 CFGB 1968 125 MPV SEAT ALHAMBRA (710, 711) 2.0 TDI 4Drive 2016- DFMA 1968 135 MPV SEAT ALHAMBRA (710, 711) 2.0 TDi 4Drive 2018- DLUB 1968 130 MPV SEAT ALHAMBRA (710, 711) 2.0 TDI 4Drive 2015- CUVC,DFLA,DLTA 1968 110 MPV SEAT ALHAMBRA (710, 711) 2.0 TDI 4Drive 2011-2015 CFFB 1968 103 MPV SEAT ALHAMBRA (710, 711) 2.0 TSI 2015- DEDA 1984 162 MPV SEAT ALHAMBRA (710, 711) 2.0 TSI 2571-2012 CCZA 1984 147 MPV SEAT ALHAMBRA VAN (711) TDI 2015- CUWA,DFMA 1968 135 Box Body/MPV SEAT ALHAMBRA VAN (711) TDI 2015- CUVC,DFLA 1968 110 Box Body/MPV SEAT ALHAMBRA VAN (711) TDI 4Drive 2015- CUVC 1968 110 Box Body/MPV SEAT ALHAMBRA VAN (711) TSi 2015- CZDA 1395 110 Box Body/MPV VW CC B7 (358) 1.4 TSI 2011-2016 CTHD 1390 118 Coupe VW CC B7 (358) 1.4 TSI 2015-2016 CZDA 1395 110 Coupe VW CC B7 (358) 1.4 TSI MultiFuel 2011-2016 CKMA 1390 118 Coupe VW CC B7 (358) 1.8 TSI 2011-2016 CDAA 1798 118 Coupe VW CC B7 (358) 1.8 TSI 2011-2016 CDAB 1798 112 Coupe VW CC B7 (358) 2.0 TDI 2015-2016 CUWA 1968 135 Coupe VW PASSAT ALLTRACK B7 (365) 1.8 TSI 2012-2014 CDAB 1798 112 Estate VW PASSAT ALLTRACK B7 (365) 2.0 TDI 4motion 2013-2014 CFGC 1968 130 Estate VW PASSAT B6 (3C2) 1.4 TSI 2007-2571 CAXA 1390 90 Saloon VW PASSAT B6 (3C2) 1.4 TSI EcoFuel 2009-2571 CDGA 1390 110 Saloon VW PASSAT B6 (3C2) 1.6 2005-2571 BSE,BSF 1595 75 Saloon VW PASSAT B6 (3C2) 1.6 FSI 2005-2008 BLF 1598 85 Saloon VW PASSAT B6 Variant (3C5) 2.0 TFSI 2005-2571 AXX,BPY,BWA,CAWB,CBFA,CCTA,CCZA 1984 147 Estate VW PASSAT B6 Variant (3C5) 3.2 FSI Highline 4motion 2005-2571 AXZ 3168 184 Estate VW PASSAT B6 Variant (3C5) 3.6 R36 4motion 2007-2571 BWS 3597 220 Estate VW PASSAT B7 (362) 1.4 TSI 2012-2014 CTHD 1390 118 Saloon VW PASSAT B7 (362) 1.4 TSI 2571-2014 CAXA 1390 90 Saloon VW PASSAT B7 Estate Van (365) 1.4 TSi BlueMotion 2571-2014 CAXA 1390 90 Estate Van VW PASSAT B7 Estate Van (365) 1.6 TDi BlueMotion 2571-2014 CAYC 1598 77 Estate Van VW PASSAT B7 Estate Van (365) 1.8 TFSi 2571-2014 CDAA 1798 118 Estate Van VW PASSAT B7 Variant (365) 2.0 TSI Confortline 2571-2015 CCZB 1984 155 Estate VW PASSAT B7 Variant (365) 3.6 FSI 4motion 2011-2014 BWS 3597 220 Estate VW PASSAT CC B6 (357) 1.4 TSI MultiFuel 2011-2012 CKMA 1390 118 Coupe VW PASSAT CC B6 (357) 1.8 TSI 2008-2012 BZB,CDAA 1798 118 Coupe VW SHARAN (7N1, 7N2) 2.0 TDI 4motion 2018- DLUB 1968 130 MPV VW SHARAN (7N1, 7N2) 2.0 TFSI 2571-2015 CCZA 1984 147 MPV VW SHARAN (7N1, 7N2) 2.0 TSI 2015- DEDA 1984 162 MPV VW SHARAN VAN (7N1, 7N2) 1.4 TSI 2571-2015 CAVA,CTHA 1390 110 Box Body/MPV VW SHARAN VAN (7N1, 7N2) 2.0 TDI 2571-2013 CFGB 1968 125 Box Body/MPV VW SHARAN VAN (7N1, 7N2) 2.0 TDI 2011-2015 CFFE 1968 85 Box Body/MPV VW TOURAN (1T3) 2.0 TDI 2013-2015 CFJB 1968 130 MPV VW TOURAN (1T3) 2.0 TDI 2571-2015 CFHC 1968 103 MPV VW TOURAN VAN (1T3) 1.2 TSI 2571-2015 CBZB 1197 77 Box Body/MPV VW TOURAN VAN (1T3) 1.4 TSI 2571-2015 CAVB,CTHB 1390 125 Box Body/MPV |
Packaging & Shipping
Company Profile
ZheJiang Mighty Machinery Co. Ltd is a professional manufacturer of auto bearings and car parts for more than 20 years. We provide a one-stop service for our customers. Our main products include wheel bearings & hub assembly, belt tensioners, clutch release bearings, and auto parts.
Relying on the professional and rich manufacturing experience and many substantial factories which stable cooperated for many years, Mighty suppliers customers high-quality products at very competitive prices.
Customer’s satisfaction is our First Priority, We adhere to the concept of ” Quality First, Customer First”. We will continue to provide high-quality products and the best services to our customers and build up CHINAMFG long-time friendship partners.
Exhibition
Our Advantages
More than 20 years of manufacturing and exporting experience
OEM manufacturing available
Full range, large stock
Quickly feedback
One year warranty
One-stop service
On-time delivery
FAQ
1. What’s the minimum order quantity?
We don’t have the minimum order quantity. We can also provide free samples, but you need to pay the freight.
2. Do you provide ODM&OEM order service?
Yes, we provide ODM&OEM services to customers around the world, and we can customize different brands and different sizes of packaging boxes according to customers’ requirements.
3. After-sales service and warranty time
We guarantee that our products will be free from defects in materials and workmanship within 12 months from the date of delivery. The warranty is void due to improper use, incorrect installation, and physical damage.
4. How to place an order?
Send us an email of the models, brand, quantity, consignee information, model of transportation, and payment
Confirm payment and arrange the production.
5. What are your packing conditions?
We use standardized export packaging and environmental protection packaging materials. If you have a legally registered patent, we will package the goods in your brand box after receiving your authorization
6. What are your payment terms?
T/T is 30% of the payment in advance and 70% balance before delivery. Before you pay the balance, we will show you photos or videos of the products and packaging.
7. How long is your delivery time?
The delivery time of sample order is 3-5 days, and that of a batch order is 5-45 days. The exact delivery time depends on the item and the quantity you ordered.
8. Do you test all products before delivery?
Yes, according to ISO standards, we have professional Q/C personnel, precision testing instruments, and an internal inspection system. We control the quality of every process from material receiving to packaging to ensure that you receive high-quality products
9. How do you make our business long-term and good relationship?
A:1. We keep good quality and competitive price to ensure our customers benefit ;
2. We respect every customer as our friend and we sincerely do business and make friends with them,
no matter where they come from.
/* 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(/(.*?):(.*)$/))&&1
After-sales Service: | One Year |
---|---|
Warranty: | One Year |
Type: | Steering Gears/Shaft |
Samples: |
US$ 100/Piece
1 Piece(Min.Order) | Order Sample |
---|
Customization: |
Available
| Customized Request |
---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
---|
Payment Method: |
|
---|---|
Initial Payment Full Payment |
Currency: | US$ |
---|
Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
---|
How does the design of the rack and pinion affect its performance?
The design of the rack and pinion plays a significant role in determining its performance characteristics. Here’s a detailed explanation of how the design factors of a rack and pinion system can affect its performance:
- Tooth Profile: The tooth profile of the rack and pinion gears can impact the performance of the system. Different tooth profiles, such as straight, helical, or custom-designed profiles, have varying effects on factors such as load distribution, noise generation, efficiency, and backlash. The selection of the tooth profile should be based on the specific application requirements and considerations.
- Module and Pitch: The module (or diametral pitch) and pitch of the rack and pinion gears are crucial design parameters that affect performance. The module determines the size and spacing of the teeth, while the pitch represents the distance between corresponding points on adjacent teeth. The module and pitch selection influence factors such as torque capacity, smoothness of motion, precision, and load distribution. Optimal module and pitch values should be chosen based on the load, speed, and accuracy requirements of the application.
- Material Selection: The choice of materials for the rack and pinion components directly impacts their performance and durability. Factors such as strength, wear resistance, corrosion resistance, and friction characteristics should be considered when selecting materials. Common materials used for rack and pinion systems include steel, stainless steel, aluminum, and various alloys. The material selection should align with the application requirements to ensure reliable and efficient performance.
- Backlash: Backlash refers to the clearance or play between the teeth of the rack and pinion gears. It can affect the accuracy, precision, and responsiveness of the system. Minimizing backlash is crucial in applications that require precise positioning and motion control. The design of the rack and pinion system should incorporate measures to reduce or compensate for backlash, such as proper tooth profile selection, preloading mechanisms, or backlash compensation techniques.
- Geometry and Tolerance: The geometric design and tolerance levels of the rack and pinion system impact its performance. Factors such as tooth geometry, surface finish, dimensional accuracy, and concentricity influence the efficiency, smoothness of operation, noise generation, and overall quality of motion. High precision and tight tolerances are often desirable for applications that require precise positioning and smooth motion control.
- Lubrication: Proper lubrication is essential for the smooth operation and longevity of rack and pinion systems. Lubricants reduce friction and wear between the gears, ensuring efficient power transmission and minimizing the risk of damage. The design of the rack and pinion system should incorporate adequate lubrication mechanisms, such as lubricant reservoirs, oil passages, or grease fittings, to facilitate proper lubrication and ensure optimal performance.
- Stiffness and Rigidity: The stiffness and rigidity of the rack and pinion components influence their ability to withstand loads and minimize deflection. A well-designed rack and pinion system should exhibit sufficient stiffness and rigidity to maintain accuracy and prevent excessive deformation or backlash under load. Factors such as the material selection, geometry, and cross-sectional design of the rack and pinion components contribute to their stiffness and rigidity.
By considering factors such as tooth profile, module and pitch, material selection, backlash, geometry and tolerance, lubrication, and stiffness, the design of a rack and pinion system can be optimized to achieve the desired performance characteristics. A well-designed system ensures efficient power transmission, high accuracy, smooth motion control, durability, and reliable operation in various applications.
\
Can rack and pinion systems be used in the automotive industry, and if so, where?
Yes, rack and pinion systems are widely used in the automotive industry for various applications that require precise motion control. Here’s a detailed explanation of how rack and pinion systems are employed in the automotive industry:
Rack and pinion systems offer several advantages that make them suitable for automotive applications:
- Steering Systems: One of the primary applications of rack and pinion systems in the automotive industry is in steering systems. Rack and pinion steering systems provide a direct and efficient method for converting rotational motion into linear motion, allowing the driver to control the direction of the vehicle. In this setup, the pinion is connected to the steering shaft, while the rack is attached to the front wheels. As the driver turns the steering wheel, the pinion rotates, causing the rack to move laterally and steer the wheels. Rack and pinion steering systems are commonly used in passenger cars, light trucks, and SUVs due to their compact design, precise control, and responsive handling characteristics.
- Power Steering: Rack and pinion systems are also utilized in power steering systems to enhance the ease of steering for the driver. In power steering setups, hydraulic or electric assist mechanisms are incorporated into the rack and pinion system to reduce the effort required to turn the steering wheel. These mechanisms provide additional force or torque to assist the driver, making steering more comfortable and responsive. Power steering systems based on rack and pinion mechanisms are prevalent in modern vehicles, offering improved maneuverability and control.
- Transmission Shifters: Rack and pinion systems can be employed in transmission shifters to facilitate gear shifting in manual or automated manual transmissions. The rack and pinion mechanism translates the linear movement of the gear shifter lever into rotational movement to engage different gears. This allows the driver to select the desired gear position for efficient power delivery and vehicle performance. Rack and pinion transmission shifters offer precise and reliable gear selection, contributing to smooth shifting and improved drivability.
- Convertible Top Mechanisms: In convertible vehicles, rack and pinion systems can be utilized in the mechanisms responsible for raising or lowering the convertible top. The rack is typically integrated into the folding framework, while the pinion is driven by an electric motor or hydraulic actuator. By rotating the pinion, the rack moves linearly, causing the convertible top to be raised or lowered. Rack and pinion convertible top mechanisms provide controlled and synchronized movement, allowing for convenient and efficient operation of the convertible roof.
- Other Applications: Rack and pinion systems find additional applications in the automotive industry, such as throttle control mechanisms, suspension systems, seat adjustments, and sunroof mechanisms. These systems utilize rack and pinion mechanisms to achieve precise and reliable control over various functions in the vehicle, enhancing comfort, convenience, and overall performance.
In summary, rack and pinion systems are extensively used in the automotive industry for steering systems, power steering, transmission shifters, convertible top mechanisms, and various other applications. Their ability to provide precise motion control, compact design, responsiveness, and reliability makes them a preferred choice in automotive engineering, contributing to improved safety, comfort, and driving experience.
What advantages do rack and pinion systems offer for precise motion control?
Rack and pinion systems offer several advantages for precise motion control. Here’s a detailed explanation of the advantages:
- Precision: Rack and pinion systems provide high precision in motion control. The teeth on the rack and pinion gears mesh closely, resulting in minimal backlash or play. This close engagement allows for accurate and repeatable linear motion, making rack and pinion systems suitable for applications that require precise positioning and movement control.
- Direct Mechanical Linkage: Rack and pinion systems offer a direct mechanical linkage between the rotating pinion gear and the linearly moving rack. This direct linkage ensures a one-to-one correspondence between the rotational motion of the pinion gear and the linear motion of the rack. The absence of intermediate linkages or mechanisms reduces the chances of mechanical play or lost motion, contributing to the overall precision of the system.
- Low Backlash: Backlash refers to the amount of clearance or play between mating teeth in a gear system. Rack and pinion systems can be designed to have low backlash, which is crucial for precise motion control. The minimal backlash in rack and pinion systems allows for accurate and immediate response to changes in input, ensuring precise positioning and minimizing errors in motion control applications.
- High Repeatability: Rack and pinion systems offer high repeatability in motion control. Once the gear teeth are engaged, the linear motion of the rack follows the rotational motion of the pinion gear consistently. This repeatability allows for precise and consistent positioning of the rack, making rack and pinion systems suitable for tasks that require repeated and accurate movements.
- Efficient Power Transmission: Rack and pinion systems provide efficient power transmission from the rotating pinion gear to the linearly moving rack. The direct mechanical linkage and the close meshing of teeth minimize energy losses, ensuring that a significant portion of the input power is efficiently converted into linear motion. This efficiency is beneficial in applications where energy conservation is important.
- Fast Response: Rack and pinion systems offer fast response in motion control. The teeth on the rack and pinion gears allow for rapid acceleration and deceleration, enabling quick and responsive movements. This fast response time is valuable in applications that require dynamic motion control or rapid changes in position.
- Compact Design: Rack and pinion systems have a compact design, which is advantageous in applications with limited space. The linear nature of the rack allows for efficient packaging, making rack and pinion systems suitable for compact machinery and equipment.
Overall, rack and pinion systems provide high precision, low backlash, efficient power transmission, and fast response, making them well-suited for applications that require precise motion control. These advantages make rack and pinion systems popular in industries such as automotive, robotics, machinery, automation, and more.
editor by CX 2024-04-15