제품 설명
Customized High Precision Spare Parts Auto/Truck/Drive/Gear/Spline/Propeller/Half/Sleeve/Machinery/Sliding/Transmission Axle Shaft 42CrMo 20CrMoTi
(1) Accessory products of the truck, the product quality is stable and reliable.
(2) Forged with 42CrMo material and heat treated and tempered for 32 degrees, so that the half shaft has stronger toughness and is not easy to break and bend.
(3) Processed in the machining center, ensure that the products have rigorous dimensional coordinates to ensure 100% qualified rate of products.
(4) Products are inspected 1 by 1 and delivered out of the warehouse, with unified laser identification to ensure product traceability.
(5) Various sizes of axle shafts can be customized to meet customer needs.
(6) The unified brand carton, inner bag and integral foam packaging, which is strong and beautiful.
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| Truck Model | Sinotruk, Shacman, CZPT Auman, CZPT Xihu (West Lake) Dis., Xihu (West Lake) Dis.feng, Xihu (West Lake) Dis.feng Liuqi Balong, North BENZ( BEIBEN), C&C, JAC, etc. | |
| Product catalogue | Axle | Wheel Assembly |
| Differential Assembly | ||
| Main Reducer Assembly | ||
| Inner Ring Gear& Bracket | ||
| Basin Angle Gear/ Bevel Gear | ||
| Axle Shaft/ Half Shaft & Through Shaft | ||
| Axle Housing& Axle Assembly | ||
| Steering knuckle & Front Axle | ||
| Gear | ||
| Brake Drum& Wheel Hub | ||
| Flange | ||
| Bearing | ||
| Main Reducer Housing | ||
| Oil Seal Seat | ||
| Nut& Shim Series | ||
| Brake Backing Plate | ||
| Chassis Support Products | Leaf Spring Bracket | |
| Drop Arm Series | ||
| Bracket Series | ||
| Leaf Spring Shackle Series | ||
| Balanced Suspension Series | Balance Shaft Assembly | |
| Balance Shaft Housing | ||
| Axle Spring Seat | ||
| Thrust Rod | ||
| Balance Shaft Parts | ||
| Shock Absorber Series | Shock Absorber | |
| Shock Absorbing Airbag | ||
| Steering System | Power Steering Pump | |
| Power Steering Gear | ||
| Rubber Products | Oil Seal | |
| Rubber Support | ||
| Thrust Rod Rubber Core | ||
| Truck Belt | ||
| Engine support | ||
| Other | ||
| Clutch Series | Clutch Pressure Plate | |
| Clutch Disc | ||
| Flywheel Assembly | ||
| Flywheel Ring Gear | ||
| Adjusting Arm Series | ||
Function
Heavy trucks usually have double rear axles. If they are driven separately, they need to use 2 transmission shafts or add a transfer case at the output of the gearbox, which is heavy and cumbersome. Now a through shaft is designed in the middle axle to solve this problem. Only 1 transmission shaft is needed to drive 2 rear axles at the same time.
포장 및 배송
Exhibition
자주 묻는 질문
Q1. Are you a factory or trading company?
We are a factory integrating research, development, production and sales.
Q2. What are the advantages of your products?
We support product customization to meet customer needs for special products. We can strictly control the products from raw materials to production, processing, product quality inspection, delivery, packaging, etc., and provide customers with high-end products and the most advantageous prices.
Q3. How about products price?
We are a factory, all products are direct sale at factory price. For the same price, we will provide the best quality; for the same quality, we have the most advantageous price.
Q4. What is your terms of packing?
We have branded packaging and neutral packaging, and we can also do what you want with authorization. This is flexible.
Q5. How to guarantee your after-sales service?
Strict inspection during production, Strictly check the products before shipment to ensure our packaging in good condition. Track and receive feedback from customer regularly. Our products warranty is 365 days.
Each product provides quality assurance service. If there is a problem with the product within the warranty period, the customer can negotiate with us in detail about the related claims, and we will do our best to satisfy the customer.
Certifications
/* 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(/(.*?):(.*)$/))&&1
| Material: | 45#Steel, 42CrMo, 20crmoti |
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| Load: | Drive Shaft |
| Journal Diameter Dimensional Accuracy: | High Precision |
| Samples: |
US$ 29/Piece
1 Piece(Min.Order) | Order Sample |
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| 맞춤 설정: |
사용 가능
| 맞춤형 요청 |
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.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. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Can drive shafts be adapted for use in both automotive and industrial settings?
Yes, drive shafts can be adapted for use in both automotive and industrial settings. While there may be some differences in design and specifications based on the specific application requirements, the fundamental principles and functions of drive shafts remain applicable in both contexts. Here’s a detailed explanation:
1. Power Transmission:
Drive shafts serve the primary purpose of transmitting rotational power from a power source, such as an engine or motor, to driven components, which can be wheels, machinery, or other mechanical systems. This fundamental function applies to both automotive and industrial settings. Whether it’s delivering power to the wheels of a vehicle or transferring torque to industrial machinery, the basic principle of power transmission remains the same for drive shafts in both contexts.
2. Design Considerations:
While there may be variations in design based on specific applications, the core design considerations for drive shafts are similar in both automotive and industrial settings. Factors such as torque requirements, operating speeds, length, and material selection are taken into account in both cases. Automotive drive shafts are typically designed to accommodate the dynamic nature of vehicle operation, including variations in speed, angles, and suspension movement. Industrial drive shafts, on the other hand, may be designed for specific machinery and equipment, taking into consideration factors such as load capacity, operating conditions, and alignment requirements. However, the underlying principles of ensuring proper dimensions, strength, and balance are essential in both automotive and industrial drive shaft designs.
3. Material Selection:
The material selection for drive shafts is influenced by the specific requirements of the application, whether in automotive or industrial settings. In automotive applications, drive shafts are commonly made from materials such as steel or aluminum alloys, chosen for their strength, durability, and ability to withstand varying operating conditions. In industrial settings, drive shafts may be made from a broader range of materials, including steel, stainless steel, or even specialized alloys, depending on factors such as load capacity, corrosion resistance, or temperature tolerance. The material selection is tailored to meet the specific needs of the application while ensuring efficient power transfer and durability.
4. Joint Configurations:
Both automotive and industrial drive shafts may incorporate various joint configurations to accommodate the specific requirements of the application. Universal joints (U-joints) are commonly used in both contexts to allow for angular movement and compensate for misalignment between the drive shaft and driven components. Constant velocity (CV) joints are also utilized, particularly in automotive drive shafts, to maintain a constant velocity of rotation and accommodate varying operating angles. These joint configurations are adapted and optimized based on the specific needs of automotive or industrial applications.
5. Maintenance and Service:
While maintenance practices may vary between automotive and industrial settings, the importance of regular inspection, lubrication, and balancing remains crucial in both cases. Both automotive and industrial drive shafts benefit from periodic maintenance to ensure optimal performance, identify potential issues, and prolong the lifespan of the drive shafts. Lubrication of joints, inspection for wear or damage, and balancing procedures are common maintenance tasks for drive shafts in both automotive and industrial applications.
6. Customization and Adaptation:
Drive shafts can be customized and adapted to meet the specific requirements of various automotive and industrial applications. Manufacturers often offer drive shafts with different lengths, diameters, and joint configurations to accommodate a wide range of vehicles or machinery. This flexibility allows for the adaptation of drive shafts to suit the specific torque, speed, and dimensional requirements of different applications, whether in automotive or industrial settings.
In summary, drive shafts can be adapted for use in both automotive and industrial settings by considering the specific requirements of each application. While there may be variations in design, materials, joint configurations, and maintenance practices, the fundamental principles of power transmission, design considerations, and customization options remain applicable in both contexts. Drive shafts play a crucial role in both automotive and industrial applications, enabling efficient power transfer and reliable operation in a wide range of mechanical systems.
구동축은 자동차와 트럭의 성능을 어떻게 향상시키나요?
구동축은 자동차와 트럭의 성능 향상에 중요한 역할을 합니다. 구동축은 동력 전달, 견인력, 핸들링, 전반적인 효율성 등 차량 성능의 다양한 측면에 기여합니다. 구동축이 자동차와 트럭의 성능을 향상시키는 방법에 대한 자세한 설명은 다음과 같습니다.
1. 전력 공급:
구동축은 엔진의 동력을 바퀴로 전달하여 차량이 앞으로 나아갈 수 있도록 하는 역할을 합니다. 구동축은 동력 손실을 최소화하면서 효율적으로 동력을 전달함으로써 엔진의 동력을 효과적으로 활용하여 가속력과 전반적인 성능을 향상시킵니다. 동력 손실을 최소화하도록 잘 설계된 구동축은 차량이 바퀴에 동력을 효율적으로 전달하는 데 기여합니다.
2. 토크 전달:
구동축은 엔진에서 바퀴로 토크를 전달하는 역할을 합니다. 토크는 차량을 앞으로 나아가게 하는 회전력입니다. 적절한 토크 변환 능력을 갖춘 고품질 구동축은 엔진에서 생성된 토크가 바퀴에 효과적으로 전달되도록 합니다. 이는 차량의 가속력, 무거운 짐 견인 능력, 가파른 경사로 등판 능력 등을 향상시켜 전반적인 성능을 개선합니다.
3. 접지력 및 안정성:
구동축은 자동차와 트럭의 견인력과 안정성에 중요한 역할을 합니다. 구동축은 바퀴에 동력을 전달하여 바퀴가 노면에 힘을 가할 수 있도록 합니다. 이를 통해 차량은 특히 가속 시 또는 미끄럽거나 고르지 않은 노면을 주행할 때 접지력을 유지할 수 있습니다. 구동축을 통한 효율적인 동력 전달은 모든 바퀴에 균형 잡힌 동력을 분배하여 차량의 안정성을 높이고, 제어력과 핸들링을 향상시킵니다.
4. 조종성 및 기동성:
구동축은 차량의 핸들링과 기동성에 큰 영향을 미칩니다. 엔진과 바퀴를 직접 연결하여 정밀한 제어와 민첩한 핸들링을 가능하게 합니다. 유격이나 백래시가 최소화된 잘 설계된 구동축은 운전자의 조작에 더욱 즉각적이고 직접적인 반응을 제공하여 차량의 민첩성과 기동성을 향상시킵니다.
5. 체중 감량:
구동축은 자동차와 트럭의 경량화에 기여할 수 있습니다. 알루미늄이나 탄소섬유 강화 복합재와 같은 소재로 제작된 경량 구동축은 차량 전체 중량을 줄여줍니다. 중량 감소는 출력 대 중량비를 향상시켜 가속력, 핸들링 및 연비 개선으로 이어집니다. 또한, 경량 구동축은 회전 질량을 줄여 엔진 회전수를 더 빠르게 높일 수 있도록 해주어 성능을 더욱 향상시킵니다.
6. 기계적 효율:
효율적인 구동축은 동력 전달 중 에너지 손실을 최소화합니다. 고품질 베어링, 저마찰 씰, 최적화된 윤활과 같은 기능을 통합함으로써 구동축은 마찰을 줄이고 내부 저항으로 인한 동력 손실을 최소화합니다. 이는 구동계의 기계적 효율을 향상시켜 더 많은 동력을 바퀴에 전달하고 차량의 전반적인 성능을 개선합니다.
7. 성능 향상:
드라이브 샤프트 업그레이드는 자동차 애호가들 사이에서 인기 있는 성능 향상 방법입니다. 더 강한 소재로 제작되거나 토크 용량이 향상된 드라이브 샤프트는 튜닝된 엔진의 더 높은 출력을 감당할 수 있습니다. 이러한 업그레이드를 통해 가속력 향상, 최고 속도 증가, 전반적인 주행 성능 개선 등 성능 향상을 기대할 수 있습니다.
8. 성능 개조와의 호환성:
엔진 업그레이드, 출력 증대 또는 구동계 변경과 같은 성능 개선을 위해서는 호환 가능한 드라이브 샤프트가 필요한 경우가 많습니다. 더 높은 토크 부하를 처리하거나 변경된 구동계 구성에 맞게 설계된 드라이브 샤프트는 최적의 성능과 신뢰성을 보장합니다. 이러한 드라이브 샤프트를 통해 차량은 증가된 출력과 토크를 효과적으로 활용하여 성능과 반응성을 향상시킬 수 있습니다.
9. 내구성과 신뢰성:
견고하고 잘 관리된 구동축은 자동차와 트럭의 내구성과 신뢰성에 크게 기여합니다. 구동축은 동력 전달과 관련된 스트레스와 하중을 견딜 수 있도록 설계되었습니다. 고품질 소재, 적절한 밸런싱, 그리고 정기적인 유지보수는 구동축의 원활한 작동을 보장하고 고장이나 성능 저하의 위험을 최소화합니다. 신뢰할 수 있는 구동축은 일관된 동력 전달을 제공하고 가동 중지 시간을 최소화하여 전반적인 성능을 향상시킵니다.
10. 첨단 기술과의 호환성:
구동축은 차량 기술의 발전과 함께 진화하고 있습니다. 하이브리드 파워트레인, 전기 모터, 회생 제동 시스템과 같은 첨단 시스템과의 통합이 점차 확대되고 있습니다. 이러한 기술과 완벽하게 호환되도록 설계된 구동축은 효율성과 성능을 극대화하여 차량의 전반적인 성능 향상에 기여합니다.
요약하자면, 구동축은 동력 전달을 최적화하고, 토크 전달을 원활하게 하며, 견인력과 안정성을 향상시키고, 핸들링과 기동성을 개선하고, 무게를 줄이고, 기계적 효율을 높이고, 성능 향상 및 첨단 기술과의 호환성을 제공함으로써 자동차와 트럭의 성능을 향상시킵니다. 구동축은 효율적인 동력 전달, 즉각적인 가속, 정밀한 핸들링, 그리고 차량의 전반적인 성능 향상에 매우 중요한 역할을 합니다.
Are there variations in drive shaft designs for different types of machinery?
Yes, there are variations in drive shaft designs to cater to the specific requirements of different types of machinery. The design of a drive shaft is influenced by factors such as the application, power transmission needs, space limitations, operating conditions, and the type of driven components. Here’s an explanation of how drive shaft designs can vary for different types of machinery:
1. Automotive Applications:
In the automotive industry, drive shaft designs can vary depending on the vehicle’s configuration. Rear-wheel-drive vehicles typically use a single-piece or two-piece drive shaft, which connects the transmission or transfer case to the rear differential. Front-wheel-drive vehicles often use a different design, employing a drive shaft that combines with the constant velocity (CV) joints to transmit power to the front wheels. All-wheel-drive vehicles may have multiple drive shafts to distribute power to all wheels. The length, diameter, material, and joint types can differ based on the vehicle’s layout and torque requirements.
2. Industrial Machinery:
Drive shaft designs for industrial machinery depend on the specific application and power transmission requirements. In manufacturing machinery, such as conveyors, presses, and rotating equipment, drive shafts are designed to transfer power efficiently within the machine. They may incorporate flexible joints or use a splined or keyed connection to accommodate misalignment or allow for easy disassembly. The dimensions, materials, and reinforcement of the drive shaft are selected based on the torque, speed, and operating conditions of the machinery.
3. Agriculture and Farming:
Agricultural machinery, such as tractors, combines, and harvesters, often requires drive shafts that can handle high torque loads and varying operating angles. These drive shafts are designed to transmit power from the engine to attachments and implements, such as mowers, balers, tillers, and harvesters. They may incorporate telescopic sections to accommodate adjustable lengths, flexible joints to compensate for misalignment during operation, and protective shielding to prevent entanglement with crops or debris.
4. Construction and Heavy Equipment:
Construction and heavy equipment, including excavators, loaders, bulldozers, and cranes, require robust drive shaft designs capable of transmitting power in demanding conditions. These drive shafts often have larger diameters and thicker walls to handle high torque loads. They may incorporate universal joints or CV joints to accommodate operating angles and absorb shocks and vibrations. Drive shafts in this category may also have additional reinforcements to withstand the harsh environments and heavy-duty applications associated with construction and excavation.
5. Marine and Maritime Applications:
Drive shaft designs for marine applications are specifically engineered to withstand the corrosive effects of seawater and the high torque loads encountered in marine propulsion systems. Marine drive shafts are typically made from stainless steel or other corrosion-resistant materials. They may incorporate flexible couplings or dampening devices to reduce vibration and mitigate the effects of misalignment. The design of marine drive shafts also considers factors such as shaft length, diameter, and support bearings to ensure reliable power transmission in marine vessels.
6. Mining and Extraction Equipment:
In the mining industry, drive shafts are used in heavy machinery and equipment such as mining trucks, excavators, and drilling rigs. These drive shafts need to withstand extremely high torque loads and harsh operating conditions. Drive shaft designs for mining applications often feature larger diameters, thicker walls, and specialized materials such as alloy steel or composite materials. They may incorporate universal joints or CV joints to handle operating angles, and they are designed to be resistant to abrasion and wear.
These examples highlight the variations in drive shaft designs for different types of machinery. The design considerations take into account factors such as power requirements, operating conditions, space constraints, alignment needs, and the specific demands of the machinery or industry. By tailoring the drive shaft design to the unique requirements of each application, optimal power transmission efficiency and reliability can be achieved.
editor by CX 2024-05-08
