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China best Agricultural Machinery and Tractors Spare Parts Forged Alloy Steel Drive Shaft Tractor Pto Drive Line

Product Description

1
Products 
Name: Agricultural Machinery and Tractors Spare Parts Forged Alloy Steel Drive Shaft Tractor PTO
Material: 40CrMo
Weight: From .2kg-5kg
Packing: wooden case
Min order: 1000pcs
Customized production is available as your drawings or sample. 
 

Process Die Forging
Material Stainless Steel, Carbon Steel, Alloy Steel 
Weight 0.1Kg~20Kg
Heat Treatment Quenching, Annealing,Tempering,Normalizing, Quenching and Tempering
Testing instrument  composition testing Spectrometer, Metallographic microscope
Performance testing Hardness tester, Tensile testing machine
Size Measuring  CMM,Micrometer, Vernier Caliper, Depth Caliper, feeler gauge
Thread Gauge , Height Gauge
Roughness Ra1.6~Ra6.3
Machining Equipment CNC Center , CNC Machines, Turning, Drilling, Milling, boring machine,Grinding Machines,
Wire EDM,Laser Cutting&Welding, Plasma Cutting &Welding, EDM etc.
Quality control Sampling inspection of raw materials and semi-finished products, 100% Inspection of finished products  
Surface Treatment Shot Blast ,  Powder Coating, Polishing, Galvanized , Chrome Plated   
Production Capacity 60000T / Years
Lead Time Normally 30 – 45 Days.
Payment Terms T/T , L/C 
Material Standard ASTM , AISI , DIN , BS, JIS, GB,
Certification ISO9001:2008, IATF16949:2016

Certificates
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  Products Quality Control
Quality control involve the inspection and control of incoming materials, production processes, and finished products.
The quality control process includes,
1 First of all, the incoming raw materials with random sampling are analyzed by metallographic microscope to ensure that the chemical composition meets the production requirements
2 Then In the production process, there are QC staffs timely sampling ensure that the products are free of defects in the manufacturing process, and to coordinate and handle any abnormal quality issues may be occurred.
3 The final step of production process is magnetic particle flaw detector of the metal parts to detect it’s hidden crack or other defects.
4 All the finished metal parts is sampled in proportion and sent to the laboratory for various mechanical performance tests and size measurement, and the surface quality is manually 100%  inspected.
The relevant testing equipment pictures are as following:

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Quality Management System Control :
We strictly carry out system management accordance with iso9001 and ts16949 quality standards. And 5S lean production management is implemented on the production site.
The production management site as following:

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Our Advantages:
 Brand
Our parent company, HiHangZhou Group, is a world-renowned high-end machinery manufacturing enterprise with 40 domestic subsidiaries and branches and 8 foreign manufacturing plants. Has long-term experience and good reputation in cooperation with world-renowned enterprises.
Technology
We have a complete production process and equipment research and development capabilities for ferrous metals forming. More than 25 years of production experience in forging equipment and casting equipment manufacturers, make us more thoroughly get  all the performance of each equipment. One-third of our company’s employees are technician and R&D personnel, ensuring that high-quality products are produced with high efficiency.
Service
We can provide custom and standard manufacturing services with multiple manufacturing process integrations. The quality and delivery of products can be fully guaranteed, and the ability to communicate quickly and effectively.
Culture
The unique corporate culture can give full play to the potential of individuals and  provide a strong vitality for the sustainable development of the company.
Social responsibility
Our company strictly implements low-carbon environmental protection, energy-saving and emission-reduction production, and is a benchmark enterprise in local region.
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Company Culture 

Our Vision
To become 1 of the leading companies

Our Mission
To become a platform for employees to realize their dream
To become 1 of the transforming and upgrading pacemaker of Chinese enterprises
To set the national brands with pride

Our Belief
Strive to build the company into an ideal platform for entrepreneurs to realize their self-worth and contribute to the society

Values
Improvement is innovation, everyone can innovate
innovation inspired and failures tolerated

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FAQ
1.
Q:  Are you a trading company or a manufacturer?
A:  Obviously we are a manufacturer of forging products, casting products and also have a high level of machining capabilities.

2.
Q:  What series products do your have?
A:  We are mainly engaged in forming processing of ferrous metals, including processing by casting , forging and machining. As you know, such machinery parts can be observed in various industries of equipment manufacturing.

3
Q:  Do you provide samples? is it free?
A:  Yes, we commonly provide samples according to the traditional practice, but we also need customers to provide a freight pay-by-account number to show mutual CZPT of cooperation.

4
Q:  Is OEM available?
A:  Yes, OEM is available.

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Q:  What’s your quality guarantee?
A: We insist that the survival of the company should depend on the products quality continuous improvement, without which we cannot survive for long. We carry out strictly product quality control for every process from incoming materials, production process to finished products via advanced detection instrument and equipment. We also invite independent third parties to certify our quality and management systems. Till now we have passed ISO/TS16949 and SGS certification .

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Q.  How  about  the  Packing?
A: We usually use the iron box, or wooden case, also it can be customized according to customer’s demands.

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Q:  What is your minimum order quantity?
A:  Yes, we require all international orders to have an minimum order quantity. The quantity is up to the exact products feature or property such as the material, weight, construction etc.

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Q:  What is the lead time?
A:  Generally our forging products and casting products need to make new dies or molds, the time of making new dies or molds and samples within 30-45 days, and the large batch production time within 30-45 days. it’s also according to the parts structural complexity and quantity.

9
Q: What kinds of payment methods do you accept?
A: You can make the payment by T/T or L/C. 30% deposit in advance, 70% balance against the copy of B/L.

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Processing Object: Metal
Molding Style: Forging
Molding Technics: Pressure Casting
Application: Agricultural Machinery Parts
Material: Steel
Heat Treatment: Tempering
Samples:
US$ 20/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

pto shaft

How do drivelines handle variations in load and torque during operation?

Drivelines are designed to handle variations in load and torque during operation by incorporating various components and mechanisms that optimize power transmission and mitigate the effects of these variations. Let’s delve into the ways drivelines handle load and torque variations:

1. Flexible Couplings:

Drivelines often utilize flexible couplings, such as universal joints or constant velocity (CV) joints, to accommodate misalignment and angular variations between connected components. These couplings allow for smooth power transmission even when there are slight misalignments or changes in angles. They can compensate for variations in load and torque by flexing and adjusting their angles, thereby reducing stress on the driveline components.

2. Torque Converters:

In some driveline systems, such as those found in automatic transmissions, torque converters are employed. Torque converters use hydraulic principles to transmit power between the engine and the drivetrain. They provide a degree of slip, which allows for torque multiplication and smooth power delivery, especially during low-speed and high-load conditions. Torque converters help manage variations in torque by absorbing and dampening sudden changes, ensuring smoother operation.

3. Clutches:

Clutches play a critical role in drivelines, particularly in manual transmissions or systems that require torque control. Clutches engage and disengage the power flow between the engine and the drivetrain. By engaging or disengaging the clutch, the driveline can handle variations in load and torque. For instance, when starting a vehicle from a standstill, the clutch gradually engages to transmit power smoothly and prevent abrupt torque surges.

4. Gearboxes and Transmission Systems:

Drivelines often incorporate gearboxes and transmissions that provide multiple gear ratios. These systems allow for varying torque and speed outputs, enabling the driveline to adapt to different load conditions. By changing gears, the driveline can match the power requirements of the vehicle or machinery to the load and torque demands, optimizing power delivery and efficiency.

5. Differential Systems:

In drivelines for vehicles with multiple driven wheels, such as cars with rear-wheel drive or all-wheel drive, differential systems are employed. Differentials distribute torque between the driven wheels while allowing them to rotate at different speeds, particularly during turns. This capability helps handle variations in load and torque between the wheels, ensuring smooth operation and minimizing tire wear.

6. Control Systems:

Modern drivelines often incorporate control systems that monitor and adjust power distribution based on various inputs, including load and torque conditions. These control systems, such as electronic control units (ECUs), can optimize power delivery, manage gear shifts, and adjust torque output to handle variations in load and torque. They may also incorporate sensors and feedback mechanisms to continuously monitor driveline performance and make real-time adjustments.

7. Overload Protection Mechanisms:

Some driveline systems include overload protection mechanisms to safeguard against excessive load or torque. These mechanisms can include torque limiters, shear pins, or safety clutches that disengage or slip when the load or torque exceeds a certain threshold. By providing a fail-safe mechanism, drivelines can protect the components from damage due to sudden or excessive variations in load and torque.

By incorporating these components and mechanisms, drivelines are capable of handling variations in load and torque during operation. They optimize power transmission, ensure smooth operation, and protect the driveline components from excessive stress or damage, ultimately enhancing the performance and longevity of the driveline system.

pto shaft

Are there any limitations or disadvantages associated with driveline systems?

While driveline systems offer numerous advantages in terms of power transmission and vehicle performance, there are also some limitations and disadvantages associated with their use. It’s important to consider these factors when designing, operating, and maintaining driveline systems. Let’s explore some of the limitations and disadvantages:

1. Complex Design and Integration:

Driveline systems can be complex in design, especially in modern vehicles with advanced technologies. They often consist of multiple components, such as transmissions, differentials, transfer cases, and drive shafts, which need to be properly integrated and synchronized. The complexity of the driveline system can increase manufacturing and assembly challenges, as well as the potential for compatibility issues or failures if not designed and integrated correctly.

2. Energy Losses:

Driveline systems can experience energy losses during power transmission. These losses occur due to factors such as friction, heat generation, mechanical inefficiencies, and fluid drag in components like gearboxes, differentials, and torque converters. The energy losses can negatively impact overall efficiency and result in reduced fuel economy or power output, especially in systems with multiple driveline components.

3. Limited Service Life and Maintenance Requirements:

Driveline components, like any mechanical system, have a limited service life and require regular maintenance. Components such as clutches, bearings, gears, and drive shafts are subject to wear and tear, and may need to be replaced or repaired over time. Regular maintenance, including lubrication, adjustments, and inspections, is necessary to ensure optimal performance and prevent premature failures. Failure to perform proper maintenance can lead to driveline malfunctions, increased downtime, and costly repairs.

4. Weight and Space Constraints:

Driveline systems add weight and occupy space within a vehicle. The additional weight affects fuel efficiency and overall vehicle performance. Moreover, the space occupied by driveline components can limit design flexibility, particularly in compact or electric vehicles where space optimization is crucial. Manufacturers must strike a balance between driveline performance, vehicle weight, and available space to meet the requirements of each specific vehicle type.

5. Noise, Vibration, and Harshness (NVH):

Driveline systems can generate noise, vibration, and harshness (NVH) during operation. Factors such as gear meshing, unbalanced rotating components, or improper driveline alignment can contribute to unwanted vibrations or noise. NVH issues can affect driving comfort, passenger experience, and vehicle refinement. Manufacturers employ various techniques, including vibration dampening materials, isolators, and precision engineering, to minimize NVH levels, but achieving complete elimination can be challenging.

6. Limited Torque Handling Capability:

Driveline systems have limitations in terms of torque handling capability. Excessive torque beyond the rated capacity of driveline components can lead to failures, such as shearing of gears, clutch slippage, or drive shaft breakage. High-performance vehicles or heavy-duty applications may require specialized driveline components capable of handling higher torque loads, which can increase costs and complexity.

7. Traction Limitations:

Driveline systems, particularly in vehicles with two-wheel drive configurations, may experience traction limitations, especially in slippery or off-road conditions. Power is typically transmitted to only one or two wheels, which can result in reduced traction and potential wheel slippage. This limitation can be mitigated by utilizing technologies such as limited-slip differentials, electronic traction control, or implementing all-wheel drive systems.

While driveline systems provide crucial power transmission and vehicle control, they do have limitations and disadvantages that need to be considered. Manufacturers, designers, and operators should carefully assess these factors and implement appropriate design, maintenance, and operational practices to optimize driveline performance, reliability, and overall vehicle functionality.

pto shaft

Can you explain the components of a typical driveline and their specific roles?

A typical driveline consists of several components that work together to transmit power from the engine or power source to the driven components, enabling motion and providing torque. Each component plays a specific role in the driveline system. Here’s an explanation of the key components of a typical driveline and their specific roles:

1. Engine: The engine is the power source of the driveline system. It converts fuel energy (such as gasoline or diesel) into mechanical power by the process of combustion. The engine generates rotational power, which is transferred to the driveline to initiate power transmission.

2. Transmission: The transmission is responsible for selecting the appropriate gear ratio and transmitting power from the engine to the driven components. It allows the driver or operator to control the speed and torque output of the driveline. In manual transmissions, the driver manually selects the gears, while in automatic transmissions, the gear shifts are controlled by the vehicle’s computer system.

3. Drive Shaft: The drive shaft, also known as a propeller shaft or prop shaft, is a tubular component that transmits rotational power from the transmission to the differential or the driven components. It typically consists of a hollow metal tube with universal joints at both ends to accommodate variations in driveline angles and allow for smooth power transfer.

4. Differential: The differential is a gearbox-like component that distributes power from the drive shaft to the wheels or driven axles while allowing them to rotate at different speeds, particularly during turns. It compensates for the difference in rotational speed between the inner and outer wheels in a turn, ensuring smooth and controlled operation of the driveline system.

5. Axles: Axles are shafts that connect the differential to the wheels. They transmit power from the differential to the wheels, allowing them to rotate and generate motion. In vehicles with independent suspension, each wheel typically has its own axle, while in solid axle configurations, a single axle connects both wheels on an axle assembly.

6. Clutch: In manual transmission systems, a clutch is employed to engage or disengage the engine’s power from the driveline. It allows the driver to smoothly engage the engine’s power to the transmission when shifting gears or coming to a stop. By disengaging the clutch, power transmission to the driveline is temporarily interrupted, enabling gear changes or vehicle stationary positions.

7. Torque Converter: Torque converters are used in automatic transmissions to transfer power from the engine to the transmission. They provide a fluid coupling between the engine and transmission, allowing for smooth power transmission and torque multiplication. The torque converter also provides a torque amplification effect, which helps in vehicle acceleration.

8. Universal Joints: Universal joints, also known as U-joints, are flexible couplings used in the driveline to accommodate variations in angles and misalignments between the components. They allow for the smooth transmission of power between the drive shaft and other components, compensating for changes in driveline angles during vehicle operation or suspension movement.

9. Constant Velocity Joints (CV Joints): CV joints are specialized joints used in some drivelines, particularly in front-wheel-drive and all-wheel-drive vehicles. They enable smooth power transmission while accommodating variations in angles and allowing the wheels to turn at different speeds. CV joints maintain a constant velocity during rotation, minimizing vibrations and power losses.

10. Transfer Case: A transfer case is a component found in four-wheel-drive and all-wheel-drive systems. It transfers power from the transmission to both the front and rear axles, allowing all wheels to receive power. The transfer case usually includes additional components such as a multi-speed gearbox and differential mechanisms to distribute power effectively to the axles.

These are the key components of a typical driveline and their specific roles. Each component is crucial in transferring power, enabling motion, and ensuring the smooth and efficient operation of vehicles and equipment.

China best Agricultural Machinery and Tractors Spare Parts Forged Alloy Steel Drive Shaft Tractor Pto Drive LineChina best Agricultural Machinery and Tractors Spare Parts Forged Alloy Steel Drive Shaft Tractor Pto Drive Line
editor by CX 2024-02-17