Product Description
1. Description
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Product name |
304 stainless steel shaft |
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Material |
Stainless Steel,Aluminum,Brass, Bronze,Carbon steel and ect. environmental protection material. |
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Size |
Customized according to your drawing. |
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Services |
OEM, design, customized |
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Tolerance |
+/-0.01mm to +/-0.005mm |
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Surface treatment |
Passivation *Polishing *Anodizing *Sand blasting *Electroplating(color, blue, white, black zinc, Ni, Cr, tin, copper, silver) *Black oxide coating *Heat-disposing *Hot-dip galvanizing *Rust preventive oil |
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MOQ |
1 piece Copper bushing |
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Samples |
We can make sample within 7days free of charge |
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Certificate |
ISO9001:2015 cnc machining turning parts shaft |
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Payment Terms |
Bank Transfer;Western Union; Paypal ; Payoneer, Alibaba Trade Assurance30% deposit & balance before shipping. |
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Delivery time |
Within 15-20 workdays after deposit or payment received |
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Shipping Port |
HangZhou 304 stainless steel shaft |
2. Main Motor Shafts
3. Work Flow
4. Application
5. About US
| Material: | Carbon Steel |
|---|---|
| Load: | Central Spindle |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
| Journal Diameter Dimensional Accuracy: | IT6-IT9 |
| Axis Shape: | Soft Wire Shaft |
| Shaft Shape: | Real Axis |
| Samples: |
US$ 50/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
How do PTO drivelines accommodate variations in length and connection methods?
PTO (Power Take-Off) drivelines are designed to accommodate variations in length and connection methods to provide flexibility and compatibility with different equipment and applications. Here’s how PTO drivelines achieve this:
1. Telescoping Design:
– PTO drivelines often feature a telescoping design, allowing for adjustable length. Telescoping drivelines consist of two or more shaft sections that can slide within one another, similar to a telescope. This design enables the driveline to extend or retract to match the required length for connecting the power source (e.g., tractor) to the implement. By adjusting the length, telescoping drivelines can accommodate variations in the distance between the power source and the implement, ensuring a proper fit and efficient power transfer.
2. Splined Connections:
– PTO drivelines commonly use splined connections to ensure secure and reliable power transmission. Splines are ridges or grooves on the driveline shaft and corresponding mating components. They provide a positive engagement and torque transfer between the driving and driven shafts. Splined connections allow for variations in length and also provide some flexibility in alignment. By sliding the shaft sections within the telescoping design, operators can align the splined connections to achieve proper engagement and compensate for small misalignments.
3. Shear Pins and Slip Clutches:
– PTO drivelines incorporate shear pins or slip clutches as safety devices to protect against sudden overloads or obstructions. Shear pins are designed to break when excessive torque is applied to the driveline, preventing damage to the driveline components. Slip clutches, on the other hand, allow for controlled slippage when a certain torque threshold is exceeded. These safety mechanisms not only protect the driveline but also accommodate slight variations in length and sudden changes in load. They provide a degree of flexibility and help prevent driveline damage in case of unexpected stress or resistance.
4. Interchangeable Components:
– PTO drivelines often utilize interchangeable components, such as yokes, couplings, and adapters, to accommodate different connection methods. These components allow for compatibility between the driveline and various implements or equipment. For example, driveline yokes are available in different sizes, styles, and connection types, such as round, square, or hexagonal bores. This interchangeability enables operators to select the appropriate components that match the connection methods used by their specific equipment, ensuring a secure and proper fit.
5. Manufacturer Specifications:
– PTO drivelines are designed and manufactured according to specific standards and guidelines provided by the manufacturers. These specifications outline the maximum and minimum length requirements, connection methods, torque ratings, and other parameters necessary for safe and efficient operation. Operators should refer to the manufacturer’s guidelines and recommendations to ensure that the driveline accommodates any variations in length and connection methods within the specified limits.
6. Customization and Adaptation:
– In some cases, PTO drivelines may require customization or adaptation to accommodate unique length or connection requirements. This can involve modifying the length of the driveline shafts, using different adapters or couplings, or even ordering custom-made driveline assemblies. Consulting with driveline manufacturers, equipment suppliers, or driveline specialists can help determine the best approach for accommodating specific variations in length and connection methods.
In summary, PTO drivelines accommodate variations in length and connection methods through telescoping designs, splined connections, shear pins, slip clutches, interchangeable components, and adherence to manufacturer specifications. These features ensure flexibility, compatibility, and reliable power transfer between the power source and the implement, regardless of the specific length or connection requirements of the equipment or application.
How do PTO drivelines enhance the performance of tractors and agricultural equipment?
PTO (Power Take-Off) drivelines play a crucial role in enhancing the performance of tractors and agricultural equipment. By providing a reliable and versatile power source, PTO drivelines improve the functionality, efficiency, and productivity of agricultural machinery. Here are several ways in which PTO drivelines enhance the performance of tractors and agricultural equipment:
1. Power Versatility:
– PTO drivelines enable tractors and agricultural equipment to utilize a wide range of power-driven implements and attachments. By connecting to the PTO shaft of a tractor, implements such as mowers, tillers, seeders, and balers can be powered directly, eliminating the need for separate engines or motors. This versatility allows farmers to perform multiple tasks using a single power source, reducing equipment redundancy and increasing operational efficiency.
2. Increased Efficiency:
– PTO drivelines contribute to increased efficiency by providing a direct power transfer mechanism. The driveline ensures minimal power loss during transmission, resulting in more efficient utilization of available power. This efficiency leads to improved performance and reduced fuel consumption, ultimately optimizing resource utilization and lowering operating costs.
3. Flexibility in Equipment Usage:
– PTO drivelines offer flexibility in equipment usage by allowing quick and easy attachment and detachment of implements. Farmers can rapidly switch between different implements, tailoring the equipment to suit specific tasks and field conditions. This flexibility enhances productivity as it reduces downtime associated with changing equipment, enabling farmers to adapt to changing agricultural needs efficiently.
4. Time Savings:
– PTO drivelines contribute to time savings by enabling faster and more efficient completion of agricultural tasks. Machinery powered by PTO drivelines can operate at higher speeds and cover larger areas, reducing the time required for tasks such as mowing, tilling, planting, and harvesting. Additionally, the direct power transfer provided by PTO drivelines eliminates the need for manual labor or slower power transmission methods, further enhancing productivity and time efficiency.
5. Enhanced Capability:
– PTO drivelines enhance the capability of tractors and agricultural equipment by enabling them to handle a broader range of tasks and operate specialized implements. For example, PTO-driven sprayers allow precise and efficient spraying of fertilizers and pesticides, ensuring optimal crop health. PTO-driven balers enable efficient baling and packaging of hay or other forage materials. The versatility and enhanced capability provided by PTO drivelines allow farmers to expand their operations and achieve higher levels of productivity.
6. Consistent Power Delivery:
– PTO drivelines ensure consistent power delivery to agricultural equipment, resulting in consistent and uniform operation. The power from the tractor or power source is transmitted directly to the driven machinery, maintaining a steady power input. Consistent power delivery helps ensure optimum performance, reducing variations in output quality and minimizing the need for rework or adjustments.
7. Improved Safety:
– PTO drivelines contribute to improved safety by reducing the need for direct operator interaction with moving parts. Implements and machinery powered by PTO drivelines often have guards and safety features in place to protect operators from potential hazards. Additionally, the direct power transfer eliminates the need for manual belt or chain drives, reducing the risk of entanglement or mechanical failures.
8. Advanced Technology Integration:
– PTO drivelines enable the integration of advanced technologies and features into agricultural equipment. For example, PTO-driven machinery can incorporate precision farming technologies, such as GPS guidance systems, automatic controls, and variable-rate application capabilities. These technologies enhance accuracy, efficiency, and input optimization, resulting in improved performance and increased yields.
Overall, PTO drivelines significantly enhance the performance of tractors and agricultural equipment by providing a versatile power source, increasing efficiency, enabling flexibility in equipment usage, saving time, enhancing capability, ensuring consistent power delivery, improving safety, and facilitating the integration of advanced technologies. These advantages contribute to increased productivity, improved operational effectiveness, and enhanced profitability in agricultural operations.
Can you explain the types of PTO drivelines available and their specific applications?
PTO (Power Take-Off) drivelines come in various types and configurations, each designed to suit specific applications and equipment requirements. The choice of PTO driveline depends on factors such as power transmission needs, rotational speed, torque requirements, and the type of machinery being used. Let’s explore some of the commonly used types of PTO drivelines and their specific applications:
1. Non-Constant Velocity (Non-CV) PTO Driveline:
– Applications: Non-CV PTO drivelines are typically used for applications where the driven equipment operates at a constant speed and does not require smooth, continuous power transmission. They are commonly employed in tasks such as powering stationary equipment, grain augers, water pumps, and generators.
2. Constant Velocity (CV) PTO Driveline:
– Applications: CV PTO drivelines are designed for applications that require smooth and continuous power transmission, especially in situations where the driven equipment operates at varying angles or speeds. They are commonly used in tasks such as operating mowers, balers, combines, forage harvesters, and other equipment that involve rotational movement at different angles and speeds.
3. Shear Bolt PTO Driveline:
– Applications: Shear bolt PTO drivelines are primarily used to protect the driveline and driven equipment from excessive shock loads or sudden obstructions. They are commonly employed in tasks such as rotary cutters, flail mowers, and other implements that may encounter obstacles or tough vegetation. The shear bolts in the driveline are designed to break and disconnect the power transmission in case of excessive load, preventing damage to the driveline or equipment.
4. Slip Clutch PTO Driveline:
– Applications: Slip clutch PTO drivelines offer a means of protecting the driveline and driven equipment from excessive torque or sudden shock loads. They are commonly used in tasks such as rotary tillers, post hole diggers, and other implements where the equipment may encounter resistance or encounter obstacles. The slip clutch mechanism allows the driveline to slip or disengage momentarily when the torque exceeds a certain threshold, protecting against damage and allowing the equipment to continue operating once the resistance is removed.
5. Hydraulic PTO Driveline:
– Applications: Hydraulic PTO drivelines utilize hydraulic power instead of mechanical power transmission. They are commonly used in applications such as operating hydraulic pumps, winches, and other hydraulic-driven equipment. Hydraulic PTO drivelines are often found in industrial machinery, construction equipment, and vehicles where hydraulic power is readily available.
6. Front PTO Driveline:
– Applications: Front PTO drivelines are specifically designed for machinery with front-mounted implements or attachments. They are commonly used in tasks such as operating front-mounted mowers, snow blowers, or hydraulic front loaders. Front PTO drivelines enable power transmission to the front of the vehicle or equipment, allowing for efficient operation of front-mounted implements.
These are just some of the commonly used types of PTO drivelines and their specific applications. It’s important to note that the specific type of PTO driveline used may vary depending on the manufacturer, equipment design, and industry requirements. When selecting a PTO driveline, it’s crucial to consider the specific needs of the equipment and the intended application to ensure optimal performance, efficiency, and reliability.
editor by CX 2023-10-07
China manufacturer Customized Axle CNC Hydraulic Pump Motor DC Shaft/Pto Shaft PTO Driveline
Product Description
Our advantage:
*Specialization in CNC formulations of high precision and quality
*Independent quality control department
*Control plan and process flow sheet for each batch
*Quality control in all whole production
*Meeting demands even for very small quantities or single units
*Short delivery times
*Online orders and production progress monitoring
*Excellent price-quality ratio
*Absolute confidentiality
*Various materials (stainless steel, iron, brass, aluminum, titanium, special steels, industrial plastics)
*Manufacturing of complex components of 1 – 1000mm.
Production machine:
Inspection equipment :
Certificate:
| Material: | Carbon Steel |
|---|---|
| Load: | Drive Shaft |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
| Journal Diameter Dimensional Accuracy: | IT01-IT5 |
| Axis Shape: | Straight Shaft |
| Shaft Shape: | Real Axis |
| Customization: |
Available
| Customized Request |
|---|
What maintenance practices are crucial for extending the lifespan of PTO driveline components?
Proper maintenance is essential for extending the lifespan of PTO (Power Take-Off) driveline components and ensuring their optimal performance. By following these crucial maintenance practices, you can minimize wear and tear, prevent premature failures, and maximize the longevity of your PTO driveline:
1. Regular Inspection:
– Conduct regular visual inspections of the entire PTO driveline assembly. Look for signs of damage, wear, or loose components. Pay close attention to the driveline shaft, universal joints, bearings, and couplings. Detecting early signs of wear or damage allows for timely repairs or replacements, preventing further damage and ensuring the longevity of the driveline components.
2. Lubrication:
– Proper lubrication is crucial for the smooth operation and longevity of PTO driveline components. Follow the manufacturer’s recommendations for lubricating the driveline, including the type of lubricant and the recommended intervals. Ensure that all lubrication points, such as universal joints and bearings, receive adequate grease or oil. Regular lubrication minimizes friction, reduces wear, and helps maintain the driveline’s efficiency and reliability.
3. Tightening and Fastener Checks:
– Periodically check and tighten all fasteners, such as bolts, nuts, and set screws, within the PTO driveline assembly. Vibrations and continuous operation can cause these fasteners to loosen over time, potentially leading to misalignment or damage. Regularly inspecting and tightening the fasteners ensures that the driveline remains securely connected, reducing the risk of component failure or disengagement during operation.
4. Balance and Alignment:
– Proper balance and alignment of the PTO driveline components are crucial for reducing vibrations, minimizing stress, and extending component life. Inspect and correct any imbalances or misalignments in the driveline components, including the driveline shaft and universal joints. Imbalances or misalignments can cause excessive wear on bearings, joints, and other driveline parts. Addressing these issues through proper balancing and alignment ensures smoother operation and prolongs the lifespan of the driveline.
5. Protection from Contaminants:
– Protecting the PTO driveline components from contaminants, such as dirt, debris, and moisture, is essential for preventing corrosion, premature wear, and damage. Clean the driveline regularly, removing any accumulated dirt or debris. Consider using protective covers or shields to minimize exposure to moisture and other environmental elements. Additionally, store the driveline in a clean and dry environment when not in use. Keeping the driveline components clean and protected helps maintain their performance and extends their lifespan.
6. Proper Usage and Handling:
– Follow the recommended usage guidelines provided by the manufacturer to ensure the driveline components are not subjected to excessive loads, speeds, or angles beyond their design capabilities. Avoid overloading the driveline or using it with incompatible equipment. Properly engage and disengage the PTO driveline according to the manufacturer’s instructions to prevent abrupt shocks or excessive wear. Handling the driveline with care and following proper usage practices reduces stress on the components and contributes to their longevity.
7. Prompt Repairs:
– Address any signs of damage, wear, or malfunction promptly. If you notice unusual vibrations, noise, or any other abnormal behavior during operation, investigate and address the issue as soon as possible. Delaying repairs or ignoring potential problems can lead to further damage and more extensive repairs down the line. Timely repairs help prevent component failures and extend the overall lifespan of the PTO driveline.
8. Professional Maintenance:
– For more complex maintenance tasks or when in doubt, consider seeking professional assistance. Experienced technicians or authorized service centers can provide thorough inspections, perform specialized maintenance procedures, and offer expert advice on maintaining the PTO driveline components. Professional maintenance ensures that the driveline receives the necessary care and attention to maximize its lifespan and performance.
By implementing these crucial maintenance practices, you can significantly extend the lifespan of PTO driveline components. Regular inspections, proper lubrication, tightening and fastener checks, balance and alignment, protection from contaminants, proper usage and handling, prompt repairs, and seeking professional maintenance when needed are key to preserving the driveline’s longevity and optimizing its performance.
What safety precautions should operators follow when working with PTO drivelines?
Working with PTO (Power Take-Off) drivelines requires careful attention to safety due to the potential hazards associated with rotating components and high levels of torque. Operators should follow specific safety precautions to minimize the risk of accidents and injuries. Here are the key safety precautions that operators should follow when working with PTO drivelines:
1. Read and Follow Manufacturer’s Instructions:
– Operators should thoroughly read and understand the manufacturer’s instructions and safety guidelines provided for the specific PTO driveline and equipment they are operating. These instructions typically cover proper installation, operation, maintenance, and safety precautions specific to the equipment. Following the manufacturer’s guidelines ensures that the equipment is used correctly and reduces the risk of accidents.
2. Wear Appropriate Personal Protective Equipment (PPE):
– Operators should always wear the appropriate personal protective equipment (PPE) when working with PTO drivelines. This includes items such as safety glasses, protective gloves, sturdy footwear, and clothing that covers the body. PPE helps protect against flying debris, accidental contact with rotating components, and other potential hazards.
3. Ensure Proper Guarding and Shielding:
– PTO drivelines should be equipped with proper guarding and shielding to prevent accidental contact with rotating or moving parts. Operators should ensure that all guards and shields are in place and properly secured before operating the equipment. Guards and shields help contain debris, reduce the risk of entanglement, and protect against accidental contact with the driveline components.
4. Avoid Loose-Fitting Clothing and Jewelry:
– Operators should avoid wearing loose-fitting clothing, jewelry, or any other items that could get caught in the driveline components. Loose clothing or jewelry can be pulled into the rotating parts, resulting in entanglement or serious injuries. It is important to wear fitted clothing and remove any dangling accessories before operating the equipment.
5. Engage PTO Only When Necessary:
– Operators should engage the PTO only when necessary and disengage it when the equipment is not in use. Engaging the PTO while personnel are near the driveline increases the risk of accidental contact and injuries. The PTO should be engaged only when the equipment is properly set up, and all personnel are at a safe distance.
6. Be Aware of Surroundings:
– Operators should always be aware of their surroundings and ensure that no one is near the driveline before starting or operating the equipment. It is crucial to maintain a safe distance from the driveline and keep bystanders away to prevent accidental contact and injuries.
7. Shut Down Equipment Before Servicing:
– Before performing any maintenance or servicing tasks on the equipment or the PTO driveline, operators should shut down the equipment and disable the power source. This ensures that the driveline components are not in motion and reduces the risk of accidental startup or contact with moving parts.
8. Regular Maintenance and Inspection:
– Operators should adhere to a regular maintenance and inspection schedule for the PTO driveline and associated equipment. This includes checking for any signs of wear, damage, or loose connections. Regular maintenance helps identify potential issues before they become safety hazards and ensures that the driveline operates properly.
9. Receive Proper Training:
– Operators should receive proper training on the safe operation of the equipment and the PTO driveline. Training should cover topics such as equipment setup, safe operating procedures, emergency shut-off procedures, and the recognition of potential hazards. Well-trained operators are more likely to operate the equipment safely and respond appropriately in case of emergencies.
10. Follow Lockout/Tagout Procedures:
– When performing maintenance or repair tasks that require accessing the driveline components, operators should follow lockout/tagout procedures. This involves isolating the power source, applying locks and tags to prevent accidental startup, and verifying that the equipment is de-energized before beginning any work. Lockout/tagout procedures are essential for preventing unexpected energization and protecting personnel from hazardous energy.
By following these safety precautions, operators can minimize the risk of accidents and injuries when working with PTO drivelines. Safety should always be a priority, and operators should remain vigilant, adhere to proper procedures, and use common sense to ensure a safe working environment.
What benefits do PTO drivelines offer for tasks like tilling, mowing, and harvesting?
PTO (Power Take-Off) drivelines offer several benefits for tasks like tilling, mowing, and harvesting in agricultural operations. These benefits contribute to increased efficiency, improved productivity, and enhanced performance in these specific tasks. Let’s explore the advantages that PTO drivelines provide for each of these tasks:
Tilling:
1. Powerful and Efficient Operation: PTO drivelines enable tilling equipment, such as rotary tillers or disc harrows, to efficiently break up and prepare the soil for planting. The rotational power transmitted through the PTO shaft provides the necessary force for the tines or blades of the tiller to penetrate the soil, ensuring thorough tillage and soil preparation.
2. Uniform and Consistent Tilling: PTO-driven tillers offer consistent and uniform tilling depth and quality throughout the field. The power generated by the power source is evenly distributed through the PTO driveline, resulting in uniform tilling across the entire working width of the implement. This helps create an optimal seedbed for planting, promoting seed germination and crop growth.
3. Versatility and Adjustability: PTO drivelines allow for the use of different types and sizes of tillage implements, providing flexibility and adaptability to varying soil conditions and farming practices. Operators can easily attach and detach different tillage equipment to the PTO shaft, enabling them to switch between implements based on the specific requirements of the soil and crops.
Mowing:
1. Efficient Cutting: PTO-driven mowers, whether rotary or flail mowers, provide efficient cutting performance. The high rotational speed and power transmitted through the PTO driveline enable the mower blades to effectively cut through grass, weeds, or crops, resulting in a well-maintained and visually appealing appearance of the mowed area.
2. Wide Coverage and Reduced Time: PTO-driven mowers typically have wide cutting widths, allowing operators to cover a larger area in less time. This reduces the overall mowing time, increasing efficiency and productivity. The power transmitted through the PTO driveline facilitates the swift operation of the mower, ensuring efficient cutting even in dense vegetation.
3. Adjustable Cutting Height: PTO drivelines allow for easy adjustment of the cutting height of the mower. Operators can modify the height of the mower deck or attachment, ensuring precise cutting based on the desired aesthetic or functional requirements. This flexibility in cutting height adjustment enhances the versatility of PTO-driven mowers for various applications, such as maintaining lawns, meadows, or pastures.
Harvesting:
1. Powerful Harvesting: PTO drivelines provide the necessary power to operate harvesting equipment, such as combines, forage harvesters, or balers. The high torque and rotational power transmitted through the PTO shaft enable efficient harvesting of crops, ensuring smooth operation and reduced crop loss during the process.
2. Improved Harvesting Capacity: PTO-driven harvesting equipment often features wider headers or cutting widths, allowing for increased harvesting capacity. The power transferred through the PTO driveline enables the equipment to cover a larger area, improving overall harvesting efficiency and reducing the time required to complete the task.
3. Integration with Other Equipment: PTO drivelines facilitate the integration of various harvesting equipment with other implements or attachments. For example, a PTO-driven combine harvester can be equipped with a straw chopper or a grain cart, which can be powered by the same PTO driveline. This integration enhances the efficiency of the overall harvesting process and simplifies the logistics of crop collection and storage.
In summary, PTO drivelines offer several benefits for tasks like tilling, mowing, and harvesting. They provide powerful and efficient operation, uniform and consistent performance, versatility and adjustability, wide coverage and reduced time, adjustable cutting height, and increased harvesting capacity. These advantages contribute to improved efficiency, productivity, and performance in agricultural operations, helping farmers achieve optimal results in these critical tasks.
editor by CX 2023-09-30
China Hot selling Custom CNC Shaft 304 CNC Machined Long Shaft Motor Drive Shaft Drive Line
Product Description
Product Description
|
Company Profile
HangZhou Xihu (West Lake) Dis. Machinery Manufacture Co., Ltd., located in HangZhou, “China’s ancient copper capital”, is a “national high-tech enterprise”. At the beginning of its establishment, the company adhering to the “to provide clients with high quality products, to provide timely service” concept, adhere to the “everything for the customer, make customer excellent supplier” for the mission.
Certifications
Q: Where is your company located ?
A: HangZhou ZheJiang .
Q: How could l get a sample?
A: Before we received the first order, please afford the sample cost and express fee. we will return the sample cost back
to you within your first order.
Q: Sample time?
A: Existing items: within 20-60 days.
Q: Whether you could make our brand on your products?
A: Yes. We can print your Logo on both the products and the packages if you can meet our MOQ.
Q: How to guarantee the quality of your products?
A: 1) stict detection during production. 2) Strict completely inspecion on products before shipment and intact product
packaging ensured.
Q: lf my drawings are safe?
A: Yes ,we can CZPT NDA.
| Material: | Carbon Steel |
|---|---|
| Load: | Drive Shaft |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
| Journal Diameter Dimensional Accuracy: | OEM/ODM/Customized |
| Axis Shape: | Straight Shaft |
| Shaft Shape: | OEM/ODM/Customized |
| Customization: |
Available
| Customized Request |
|---|
What factors should be considered when designing an efficient driveline system?
Designing an efficient driveline system involves considering various factors that contribute to performance, reliability, and overall system efficiency. Here are the key factors that should be considered when designing an efficient driveline system:
1. Power Requirements:
The power requirements of the vehicle play a crucial role in designing an efficient driveline system. It is essential to determine the maximum power output of the engine and ensure that the driveline components can handle and transfer that power efficiently. Optimizing the driveline for the specific power requirements helps minimize energy losses and maximize overall efficiency.
2. Weight and Packaging:
The weight and packaging of the driveline components have a significant impact on system efficiency. Lightweight materials and compact design help reduce the overall weight of the driveline, which can improve fuel efficiency and vehicle performance. Additionally, efficient packaging ensures that driveline components are properly integrated, minimizing energy losses and maximizing available space within the vehicle.
3. Friction and Mechanical Losses:
Minimizing friction and mechanical losses within the driveline system is crucial for achieving high efficiency. Frictional losses occur at various points, such as bearings, gears, and joints. Selecting low-friction materials, optimizing lubrication systems, and implementing efficient bearing designs can help reduce these losses. Additionally, employing advanced gear designs, such as helical or hypoid gears, can improve gear mesh efficiency and reduce power losses.
4. Gear Ratios and Transmission Efficiency:
The selection of appropriate gear ratios and optimizing transmission efficiency greatly impacts driveline efficiency. Gear ratios should be chosen to match the vehicle’s power requirements, driving conditions, and desired performance characteristics. In addition, improving the efficiency of the transmission, such as reducing gear mesh losses and enhancing hydraulic or electronic control systems, can contribute to overall driveline efficiency.
5. Aerodynamic Considerations:
Aerodynamics play a significant role in a vehicle’s overall efficiency, including the driveline system. Reducing aerodynamic drag through streamlined vehicle design, efficient cooling systems, and appropriate underbody airflow management can enhance driveline efficiency by reducing the power required to overcome air resistance.
6. System Integration and Control:
Efficient driveline design involves seamless integration and control of various components. Employing advanced control systems, such as electronic control units (ECUs), can optimize driveline operation by adjusting power distribution, managing gear shifts, and optimizing torque delivery based on real-time driving conditions. Effective system integration ensures smooth communication and coordination between driveline components, improving overall efficiency.
7. Environmental Considerations:
Environmental factors should also be taken into account when designing an efficient driveline system. Considerations such as emissions regulations, sustainability goals, and the use of alternative power sources (e.g., hybrid or electric drivetrains) can influence driveline design decisions. Incorporating technologies like regenerative braking or start-stop systems can further enhance efficiency and reduce environmental impact.
8. Reliability and Durability:
Designing an efficient driveline system involves ensuring long-term reliability and durability. Selecting high-quality materials, performing thorough testing and validation, and considering factors such as thermal management and component durability help ensure that the driveline system operates efficiently over its lifespan.
By considering these factors during the design process, engineers can develop driveline systems that are optimized for efficiency, performance, and reliability, resulting in improved fuel economy, reduced emissions, and enhanced overall vehicle efficiency.
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.
Which industries and vehicles commonly use drivelines for power distribution?
Drivelines are widely used in various industries and vehicles for power distribution. They play a crucial role in transmitting power from the engine or power source to the driven components, enabling motion and torque transfer. Here’s a detailed explanation of the industries and vehicles that commonly utilize drivelines for power distribution:
1. Automotive Industry: The automotive industry extensively utilizes drivelines in passenger cars, commercial vehicles, and off-road vehicles. Drivelines are a fundamental component of vehicles, enabling power transmission from the engine to the wheels. They are found in a range of vehicle types, including sedans, SUVs, pickup trucks, vans, buses, and heavy-duty trucks. Drivelines in the automotive industry are designed to provide efficient power distribution, enhance vehicle performance, and ensure smooth acceleration and maneuverability.
2. Agricultural Industry: Drivelines are essential in the agricultural industry for various farming machinery and equipment. Tractors, combines, harvesters, and other agricultural machinery rely on drivelines to transfer power from the engine to the wheels or tracks. Drivelines in agricultural equipment often incorporate power take-off (PTO) units, allowing the connection of implements such as plows, seeders, and balers. These drivelines are designed to handle high torque loads, provide traction in challenging field conditions, and facilitate efficient farming operations.
3. Construction and Mining Industries: Drivelines are extensively used in construction and mining equipment, where they enable power distribution and mobility in heavy-duty machinery. Excavators, bulldozers, wheel loaders, dump trucks, and other construction and mining vehicles rely on drivelines to transfer power from the engine to the wheels or tracks. Drivelines in these industries are designed to withstand rigorous operating conditions, deliver high torque and traction, and provide the necessary power for excavation, hauling, and material handling tasks.
4. Industrial Equipment: Various industrial equipment and machinery utilize drivelines for power distribution. This includes material handling equipment such as forklifts and cranes, industrial trucks, conveyor systems, and industrial vehicles used in warehouses, factories, and distribution centers. Drivelines in industrial equipment are designed to provide efficient power transmission, precise control, and maneuverability in confined spaces, enabling smooth and reliable operation in industrial settings.
5. Off-Road and Recreational Vehicles: Drivelines are commonly employed in off-road and recreational vehicles, including all-terrain vehicles (ATVs), side-by-side vehicles (UTVs), dirt bikes, snowmobiles, and recreational boats. These vehicles require drivelines to transfer power from the engine to the wheels, tracks, or propellers, enabling off-road capability, traction, and water propulsion. Drivelines in off-road and recreational vehicles are designed for durability, performance, and enhanced control in challenging terrains and recreational environments.
6. Railway Industry: Drivelines are utilized in railway locomotives and trains for power distribution and propulsion. They are responsible for transmitting power from the locomotive’s engine to the wheels or driving systems, enabling the movement of trains on tracks. Drivelines in the railway industry are designed to handle high torque requirements, ensure efficient power transfer, and facilitate safe and reliable train operation.
7. Marine Industry: Drivelines are integral components in marine vessels, including boats, yachts, ships, and other watercraft. Marine drivelines are used for power transmission from the engine to the propellers or water jets, providing thrust and propulsion. They are designed to withstand the corrosive marine environment, handle high torque loads, and ensure efficient power transfer for marine propulsion.
These are some of the industries and vehicles that commonly rely on drivelines for power distribution. Drivelines are versatile components that enable efficient power transmission, mobility, and performance across a wide range of applications, contributing to the functionality and productivity of various industries and vehicles.
editor by CX 2023-09-21
China manufacturer Customized CNC Hydraulic Pump Motor Extension DC Shaft/Pto Shaft PTO Driveline
Product Description
OEM Service Outlet CNC Machining Hot Forging Brass Parts
Product Description
1. Precision CNC machining parts strictly follow customers’ drawing, packing, and quality requirements.
2. Tolerance: between+/-0.01mm;
3. The high-tech CMM inspector to ensure the quality;
4. Full-Experienced engineers and well professional trained workers;
5. Fast delivery time;
6. Professional advice for our customers;
Detailed Photos
Product Parameters
Our advantage of cnc machining:
| Business Type | Beyond the Manufacturer and strong Milling Machining Parts organized ability in the industrial |
| Benefits | 1. Deeper industrial experience at CNC machining parts service for more than 10-years,our customer’s requirement is our 1st priority. 2. 2D or 3D files is available; 3. We trust the quality priority and we insist the good quality should be based on the customers’ satisfied; 4. Without any MOQ requirement; 5.Faster delivery time; 6. Customized size and specification /OEM available 7. Near ZheJiang Port |
The material
| Materials Accept |
Stainless Steel | SS201, SS303, SS304, SS316 etc. |
| Steel | Q235, 20#, 45#, | |
| Brass | C36000 ( C26800), C37700 ( HPb59), C38500( HPb58), C27200(CuZn37) , C28000(CuZn40) | |
| Iron | 1213, 12L14,1215 etc. | |
| Bronze | C51000, C52100, C54400, etc. | |
| Aluminum | Al6061, Al6063,AL7075,AL5052 etc | |
| Plastic | ABS,POM,PC(Poly-Carbonate),PC+GF,PA(nylon),PA+GF, PMMA(acrylic)PEEK,PEI etc) |
Packaging & Shipping
- We prefer DHL or TNT express or other air freight between 1kg-100kg.
- we prefer sea freight more than 100kg or more than 1CBM
- As per customized specifications.
Company Profile
About us
HangZhou CHINAMFG Technology Co.,Ltd is located in HangZhou City, ZheJiang Province, Which closed the ZheJiang .The Emitech Technology is mainly engaged in the CNC Machinery Industrial Service for 15 years. Our Parts are sold to Europe, America, Japan, South Korea and China in various kinds of industrial.At present, Our company has CNC Turning machines and CNC centers and equip with professional quality and testing instruments.We have full OEM Experience from worldwide, providing them with One-stop solutions for a broad range of applications.We look CHINAMFG to cooperating with you!
Our Advantages
1. Precision CNC machining parts strictly follow customer’s drawing,packing and quality requirement.
2. Tolerance: between+/-0.01mm;
3. The high-tech CMM inspector to ensure the quality;
4. Full-Experienced engineers and well professional trained workers;
5. Fast delivery time;
6. Professional advice for our customers;
After Sales Service
Iso9001 certified CHINAMFG cnc parts
We usually provide 12 Months repair service. If our duty, we will respond to send the new parts.
Our Service
| Our Processing | CNC center, CNC milling, CNC turning, drilling, grinding, bending, stamping, tapping, |
| Surface finish | Polishing, sandblasting, Zinc-plated, nickel-plated, chrome-plated, silver-plated, gold-plated, imitation gold-plated, |
| Tolerance | 0.05mm~0.1mm |
| QC System | 100% inspection before shipment |
| Drawing format | CAD / PDF/ DWG/ IGS/ STEP |
| Packaging | Plastic bag/Standard package / Carton or Pallet / As per customized specifications |
| Payment Terms | 30 -50%T/T in advance, 70-50% balance before delivery; Pay Pal or Western Union is acceptable. |
| Trade terms | EXW, FOB, CIF, As per the customer’s request |
| Shipment Terms |
1)We prefer DHL or TNT express or other air freight between 1kg-100kg. 2) we prefer sea freight more than 100kg or more than 1CBM |
| Note | The CNC machining parts are usually custom-made based on the customer’s drawings and samples. So we need the Down Payment |
| After-sales Service: | Repaire |
|---|---|
| Warranty: | Half a Year |
| Condition: | New |
| Certification: | CE, RoHS, GS, ISO9001 |
| Standard: | DIN, ASTM, GOST, GB, JIS, ANSI |
| Customized: | Customized |
| Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
How do PTO drivelines ensure efficient power transfer while maintaining operator safety?
PTO (Power Take-Off) drivelines are designed to ensure efficient power transfer while prioritizing operator safety. These drivelines incorporate various features and mechanisms to achieve both objectives. Let’s delve into the details:
1. Safety Shields and Guards:
PTO drivelines often include safety shields or guards to enclose the rotating components, such as the driveline shaft and universal joints. These shields are typically made of durable materials and are designed to prevent accidental contact with the moving parts, reducing the risk of entanglement or injury. Safety shields and guards serve as a physical barrier between the driveline and operators, ensuring operator safety while allowing power transfer to occur efficiently.
2. Shear Pins or Bolts:
Shear pins or bolts are commonly used in PTO drivelines to provide a safety measure against excessive loads or sudden obstructions. These pins or bolts are designed to break or shear off when the torque exceeds a certain threshold, disconnecting the driveline and preventing damage to the driveline components. By sacrificing themselves under high load conditions, shear pins or bolts protect the driveline from potential damage, ensuring operator safety and minimizing the need for costly repairs.
3. Slip Clutches:
Slip clutches are another safety feature incorporated into PTO drivelines. These clutches allow for a controlled slipping action when the torque exceeds a predetermined limit. The slipping action protects the driveline and driven equipment from sudden shock loads or excessive torque, preventing damage to the driveline components and reducing the risk of operator injury. Slip clutches provide a safety margin and help maintain efficient power transfer by momentarily disengaging the driveline until the excessive torque diminishes.
4. Overload Protection Devices:
Some PTO drivelines are equipped with overload protection devices, such as torque limiters or electronic control systems. These devices monitor the torque levels in the driveline and automatically disengage or limit power transmission when the torque exceeds a safe threshold. By preventing the driveline from operating under extreme loads, overload protection devices safeguard the driveline components and maintain operator safety. These devices can be reset or adjusted once the excessive load is removed, allowing power transfer to resume.
5. Constant Velocity (CV) Joints:
PTO drivelines that utilize constant velocity (CV) joints offer several safety benefits. CV joints maintain a constant angular velocity, regardless of the operating angle of the driveline, reducing vibration and power loss. By providing smooth power transmission, CV joints minimize the risk of sudden jolts or jerks that could endanger operators or compromise the stability of the driven equipment. The consistent power transfer facilitated by CV joints enhances both operator safety and the overall efficiency of the driveline.
6. Operator Training and Safety Practices:
While not directly built into the driveline itself, operator training and safety practices play a crucial role in ensuring safe and efficient PTO driveline operation. It is essential for operators to receive comprehensive training on the proper use, maintenance, and safety protocols associated with PTO drivelines. This training should include guidelines for safe engagement and disengagement of the driveline, understanding the importance of safety shields and guards, and recognizing potential hazards and risks during operation. By following recommended safety practices, operators can minimize the likelihood of accidents or injuries and maintain efficient power transfer.
By combining these features and promoting proper operator training, PTO drivelines achieve a balance between efficient power transfer and operator safety. The incorporation of safety shields, shear pins or bolts, slip clutches, overload protection devices, and CV joints helps prevent accidents, protect driveline components, and ensure the well-being of operators. It is crucial to adhere to manufacturer guidelines and industry safety standards to maximize the effectiveness of these safety measures and maintain a safe working environment.
Are there any limitations or challenges associated with using PTO driveline systems?
While PTO (Power Take-Off) driveline systems offer numerous benefits, there are also certain limitations and challenges associated with their use. Here are some of the key considerations:
1. Safety Risks:
– PTO driveline systems can pose safety risks if not handled properly. The rotating components of the driveline, such as the shafts, yokes, and universal joints, can cause serious injuries if operators come into contact with them while in motion. It is crucial to follow proper safety procedures, including the use of shields, guards, and safety devices, to prevent accidents. Adequate training and awareness about the potential hazards associated with PTO driveline systems are essential.
2. Maintenance and Lubrication:
– PTO driveline systems require regular maintenance and lubrication to ensure optimal performance and longevity. The universal joints, splines, and other moving parts need to be inspected, cleaned, and properly lubricated according to the manufacturer’s recommendations. Neglecting maintenance can lead to premature wear, increased friction, and potential failures, compromising the driveline’s efficiency and reliability.
3. Alignment and Misalignment:
– Proper alignment between the power source and the driven equipment is crucial for efficient power transfer in PTO driveline systems. Misalignment can result in increased vibration, excessive wear, and reduced power transmission efficiency. Achieving and maintaining proper alignment can be challenging, especially when connecting the driveline to equipment with varying mounting heights, angles, or misaligned driveline components. Operators need to carefully align the driveline to minimize stress and ensure smooth operation.
4. Length and Compatibility:
– PTO driveline systems need to be appropriately sized and compatible with the specific equipment and applications they are intended for. Variations in length, connection types, and torque requirements among different equipment can pose challenges in selecting the right driveline. Ensuring proper compatibility and fit between the driveline and the equipment is crucial for optimal power transmission and safety. Customization or adaptation may be necessary in certain cases, which could add complexity and cost.
5. Torque Overload and Protection:
– PTO driveline systems are susceptible to torque overload, especially when the driven equipment encounters sudden resistance or obstructions. Excessive torque can lead to driveline component failures, such as universal joint breakage or shear pin failure, potentially causing damage to the driveline or other connected components. Proper protection mechanisms, such as shear pins, slip clutches, or overload clutches, should be employed to prevent damage and ensure operator safety.
6. Noise and Vibration:
– PTO driveline systems can generate significant noise and vibration during operation. The rotating components, imbalances, misalignments, or worn-out components can contribute to increased noise levels and vibration. Excessive noise and vibration not only affect operator comfort but can also lead to component fatigue and premature wear. Employing appropriate vibration dampening techniques, balancing the driveline components, and using vibration-absorbing materials can help mitigate these issues.
7. Environmental Factors:
– PTO driveline systems may be exposed to various environmental factors, such as dust, debris, moisture, and temperature extremes. These factors can impact the driveline’s performance and longevity. Dust and debris can accumulate in the driveline components, leading to increased friction and wear. Moisture and corrosive environments can cause rust and degradation of driveline parts. Extreme temperatures can affect the lubrication properties and material integrity. Regular inspection, cleaning, and appropriate protection measures are essential to mitigate the impact of environmental factors.
In summary, while PTO driveline systems offer significant advantages, there are limitations and challenges that need to be addressed for safe and efficient operation. These include safety risks, maintenance requirements, alignment considerations, compatibility issues, torque overload protection, noise and vibration management, and the impact of environmental factors. By understanding and addressing these challenges, operators can ensure the proper functioning and longevity of PTO driveline systems.
Which industries and applications commonly utilize PTO drivelines for power distribution?
PTO (Power Take-Off) drivelines are widely used in various industries and applications that require the distribution of rotational power from a power source to driven equipment. The versatility and efficiency of PTO drivelines make them suitable for a range of tasks across different sectors. Let’s explore some of the industries and applications that commonly utilize PTO drivelines:
1. Agriculture:
The agriculture industry extensively relies on PTO drivelines for power distribution. Tractors equipped with PTO drivelines are commonly used to operate a wide array of implements and machinery, such as mowers, balers, harvesters, sprayers, seeders, and spreaders. PTO drivelines enable efficient power transmission for tasks like cutting, baling, spraying, planting, and spreading, contributing to the overall productivity and effectiveness of agricultural operations.
2. Construction and Earthmoving:
In the construction and earthmoving industry, PTO drivelines are utilized in heavy machinery for tasks such as excavating, grading, and material handling. Equipment like backhoes, loaders, and skid-steer loaders may feature PTO drivelines to power attachments like augers, trenchers, and hydraulic hammers. This enables these machines to perform a variety of functions efficiently, enhancing productivity on construction sites.
3. Forestry:
Forestry operations often employ PTO drivelines for power distribution in equipment used for wood processing, chipping, and mulching. Forestry mulchers, wood chippers, and stump grinders are commonly driven by PTO drivelines, allowing them to convert trees and wood waste into manageable sizes or mulch. PTO drivelines provide the necessary power to these machines, enabling efficient and effective forestry operations.
4. Landscaping and Groundskeeping:
The landscaping and groundskeeping industry extensively uses PTO drivelines for power distribution in equipment like lawn mowers, rotary cutters, and turf aerators. PTO-powered mowers can cover large areas efficiently, while rotary cutters are used for clearing brush and rough vegetation. Turf aerators equipped with PTO drivelines help maintain healthy lawns by improving soil aeration. PTO drivelines contribute to the performance and productivity of landscaping and groundskeeping tasks.
5. Utility and Municipal Services:
PTO drivelines find applications in utility and municipal services, where various equipment is used for maintenance and operations. Street sweepers, snow blowers, salt spreaders, and sewer cleaners often rely on PTO drivelines for power distribution. These machines can efficiently perform their respective tasks, such as cleaning streets, removing snow, spreading de-icing material, and maintaining sewer systems.
6. Industrial and Manufacturing:
In the industrial and manufacturing sectors, PTO drivelines are utilized in machinery and equipment for power distribution. Industrial mixers, pumps, generators, and compressors often incorporate PTO drivelines to transfer rotational power efficiently. This enables these machines to perform their specific functions, such as mixing materials, pumping fluids, generating electricity, or compressing air.
These are just a few examples of the industries and applications that commonly utilize PTO drivelines for power distribution. The versatility and efficiency of PTO drivelines make them suitable for a wide range of tasks, enabling power to be harnessed from a power source and efficiently distributed to driven equipment. PTO drivelines significantly contribute to the productivity and functionality of machinery in various sectors, enhancing overall operational efficiency.
editor by CX 2023-09-12
China OEM Custom CNC Shaft 304 CNC Machined Long Shaft Motor Drive Shaft Drive Line
Product Description
Product Description
|
Company Profile
HangZhou Xihu (West Lake) Dis. Machinery Manufacture Co., Ltd., located in HangZhou, “China’s ancient copper capital”, is a “national high-tech enterprise”. At the beginning of its establishment, the company adhering to the “to provide clients with high quality products, to provide timely service” concept, adhere to the “everything for the customer, make customer excellent supplier” for the mission.
Certifications
Q: Where is your company located ?
A: HangZhou ZheJiang .
Q: How could l get a sample?
A: Before we received the first order, please afford the sample cost and express fee. we will return the sample cost back
to you within your first order.
Q: Sample time?
A: Existing items: within 20-60 days.
Q: Whether you could make our brand on your products?
A: Yes. We can print your Logo on both the products and the packages if you can meet our MOQ.
Q: How to guarantee the quality of your products?
A: 1) stict detection during production. 2) Strict completely inspecion on products before shipment and intact product
packaging ensured.
Q: lf my drawings are safe?
A: Yes ,we can CZPT NDA.
| Material: | Carbon Steel |
|---|---|
| Load: | Drive Shaft |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
| Journal Diameter Dimensional Accuracy: | OEM/ODM/Customized |
| Axis Shape: | Straight Shaft |
| Shaft Shape: | OEM/ODM/Customized |
| Customization: |
Available
| Customized Request |
|---|
How do drivelines ensure optimal power transfer while minimizing energy losses?
Drivelines play a crucial role in ensuring optimal power transfer from the engine to the wheels while minimizing energy losses. The design and components of the driveline system are carefully engineered to maximize efficiency and minimize power wastage. Here are some key factors that contribute to achieving optimal power transfer and minimizing energy losses within a driveline:
1. Efficient Power Transmission:
Drivelines utilize various components, such as transmissions, clutches, and torque converters, to transmit power from the engine to the wheels. These components are designed to minimize energy losses by reducing friction, improving gear mesh efficiency, and optimizing torque transfer. For example, using low-friction materials, such as roller bearings, and employing advanced gear designs, like helical or hypoid gears, can help reduce power losses due to friction and gear meshing.
2. Gear Ratio Optimization:
The selection of appropriate gear ratios is essential for achieving optimal power transfer. By choosing gear ratios that match the engine’s power characteristics and the vehicle’s driving conditions, the driveline can efficiently convert and transmit power to the wheels. Optimized gear ratios ensure that the engine operates within its optimal RPM range, reducing unnecessary power losses and improving overall efficiency.
3. Limited Slip Differentials:
In driveline systems with multiple driven wheels (such as all-wheel drive or four-wheel drive), limited slip differentials (LSDs) are often employed to distribute power between the wheels. LSDs allow for better traction by transferring torque to the wheels with more grip while minimizing energy losses. By allowing some degree of differential wheel speed, LSDs ensure power is efficiently transmitted to the wheels that can utilize it most effectively.
4. Hybrid and Electric Drivetrains:
In hybrid and electric drivetrains, driveline systems are designed to optimize power transfer and minimize energy losses specific to the characteristics of electric motors and energy storage systems. These drivetrains often utilize sophisticated power electronics, regenerative braking systems, and advanced control algorithms to efficiently manage power flow and energy regeneration, resulting in improved overall system efficiency.
5. Aerodynamic Considerations:
Drivelines can also contribute to optimal power transfer by considering aerodynamic factors. By minimizing air resistance through streamlined vehicle designs, efficient cooling systems, and appropriate underbody airflow management, drivelines help reduce the power required to overcome aerodynamic drag. This, in turn, improves overall driveline efficiency and minimizes energy losses.
6. Advanced Control Systems:
The integration of advanced control systems within drivelines allows for optimized power transfer and efficient operation. Electronic control units (ECUs) monitor various parameters such as throttle position, vehicle speed, and driving conditions to adjust power distribution, manage gear shifts, and optimize torque delivery. By continuously adapting to real-time conditions, these control systems help maximize power transfer efficiency and minimize energy losses.
7. Material Selection and Weight Reduction:
The choice of materials and weight reduction strategies in driveline components contribute to minimizing energy losses. Lightweight materials, such as aluminum or composites, reduce the overall weight of the driveline system, resulting in reduced inertia and lower power requirements. Additionally, reducing the weight of rotating components, such as driveshafts or flywheels, helps improve driveline efficiency by minimizing energy losses associated with rotational inertia.
8. Regular Maintenance and Lubrication:
Proper maintenance and lubrication of driveline components are essential for minimizing energy losses. Regular maintenance ensures that driveline components, such as bearings and gears, are in optimal condition, minimizing frictional losses. Additionally, using high-quality lubricants and maintaining appropriate lubrication levels reduces friction and wear, improving driveline efficiency.
By incorporating these design considerations and engineering techniques, drivelines can achieve optimal power transfer while minimizing energy losses. This leads to improved overall efficiency, enhanced fuel economy, and reduced environmental impact.
What safety precautions should be followed when working with driveline components?
Working with driveline components requires careful attention to safety to prevent accidents, injuries, and damage to equipment. Driveline components, such as transmissions, drive shafts, and differentials, can involve rotating parts, high torque, and heavy machinery, making it essential to follow proper safety precautions. Here are some important safety measures to consider when working with driveline components:
1. Personal Protective Equipment (PPE):
Always wear appropriate personal protective equipment, including safety glasses, gloves, and protective clothing. PPE helps protect against potential hazards such as flying debris, sharp edges, and contact with hot or moving parts. Use steel-toed safety boots to protect your feet from heavy objects or accidental impacts.
2. Lockout/Tagout:
Prior to working on driveline components, follow lockout/tagout procedures to ensure the equipment is properly shut down and isolated from its power source. Lockout/tagout involves disconnecting power, applying locks or tags to control switches, and verifying that the equipment is de-energized. This prevents accidental startup or release of stored energy that could cause serious injuries.
3. Vehicle/Equipment Stability:
Ensure that the vehicle or equipment is stable and securely supported before working on driveline components. Use appropriate jack stands or hoists to provide a stable and reliable support structure. Never rely solely on hydraulic jacks or unstable supports, as they can lead to accidents or equipment damage.
4. Proper Lifting Techniques:
When handling heavy driveline components, use proper lifting techniques to prevent strains or injuries. Lift with your legs, not your back, and get assistance when dealing with heavy or bulky components. Use mechanical lifting aids, such as hoists or cranes, when necessary to avoid overexertion or dropping components.
5. Component Inspection:
Prior to installation or maintenance, carefully inspect driveline components for any signs of damage, wear, or corrosion. Replace any worn or damaged parts to ensure safe and reliable operation. Follow the manufacturer’s guidelines and specifications for component inspection, maintenance, and replacement intervals.
6. Proper Tools and Equipment:
Use the correct tools and equipment for the job. Improper tools or makeshift solutions can lead to accidents, damaged components, or stripped fasteners. Follow the manufacturer’s recommendations for specialized tools or equipment needed for specific driveline components.
7. Follow Service Manuals and Procedures:
Refer to the relevant service manuals and follow proper procedures when working on driveline components. Service manuals provide step-by-step instructions, torque specifications, and safety precautions specific to the vehicle or equipment you are working on. Adhering to these guidelines ensures proper disassembly, installation, and adjustment of driveline components.
8. Proper Disposal of Fluids and Waste:
Dispose of fluids, such as oil or coolant, and waste materials in accordance with local regulations. Spilled fluids can create slip hazards, and improper disposal can harm the environment. Use appropriate containers and disposal methods as prescribed by local laws and regulations.
9. Training and Knowledge:
Ensure that individuals working with driveline components have received proper training and possess the necessary knowledge and skills. Inadequate training or lack of knowledge can lead to errors, accidents, or improper installation, compromising safety and performance.
10. Follow Workplace Safety Regulations:
Adhere to workplace safety regulations and guidelines established by relevant authorities. These regulations may include specific requirements for working with driveline components, such as safety standards, training requirements, and equipment certifications. Stay updated on safety regulations and ensure compliance to maintain a safe working environment.
By following these safety precautions, individuals can minimize the risk of accidents, injuries, and equipment damage when working with driveline components. Safety should always be a top priority to promote a secure and productive work environment.
What benefits do drivelines offer for different types of vehicles and equipment?
Drivelines offer several benefits for different types of vehicles and equipment across various industries. They play a critical role in power transmission, mobility, efficiency, and overall performance. Here’s a detailed explanation of the benefits drivelines offer for different types of vehicles and equipment:
1. Power Transmission: Drivelines are designed to efficiently transmit power from the engine or power source to the driven components, such as wheels, tracks, implements, or machinery. They ensure the smooth transfer of torque, allowing vehicles and equipment to generate the necessary power for propulsion, lifting, hauling, or other tasks. By effectively transmitting power, drivelines maximize the performance and productivity of vehicles and equipment.
2. Mobility and Maneuverability: Drivelines enable vehicles and equipment to achieve mobility and maneuverability across various terrains and working conditions. By transmitting power to the wheels or tracks, drivelines provide the necessary traction and control to overcome obstacles, navigate uneven surfaces, and operate in challenging environments. They contribute to the overall stability, handling, and agility of vehicles and equipment, allowing them to move efficiently and safely.
3. Versatility and Adaptability: Drivelines offer versatility and adaptability for different types of vehicles and equipment. They can be designed and configured to meet specific requirements, such as front-wheel drive, rear-wheel drive, four-wheel drive, or all-wheel drive systems. This flexibility allows vehicles and equipment to adapt to various operating conditions, including normal roads, off-road terrains, agricultural fields, construction sites, or industrial facilities. Drivelines also accommodate different power sources, such as internal combustion engines, electric motors, or hybrid systems, enhancing the adaptability of vehicles and equipment.
4. Efficiency and Fuel Economy: Drivelines contribute to efficiency and fuel economy in vehicles and equipment. They optimize power transmission by utilizing appropriate gear ratios, minimizing energy losses, and improving overall system efficiency. Drivelines with advanced technologies, such as continuously variable transmissions (CVTs) or automated manual transmissions (AMTs), can further enhance efficiency by continuously adjusting gear ratios based on load and speed conditions. Efficient driveline systems help reduce fuel consumption, lower emissions, and maximize the operational range of vehicles and equipment.
5. Load Carrying Capacity: Drivelines are designed to handle and transmit high torque and power, enabling vehicles and equipment to carry heavy loads. They incorporate robust components, such as heavy-duty axles, reinforced drive shafts, and durable differentials, to withstand the demands of load-bearing applications. Drivelines ensure the reliable transmission of power, allowing vehicles and equipment to transport materials, tow trailers, or carry payloads efficiently and safely.
6. Safety and Control: Drivelines contribute to safety and control in vehicles and equipment. They enable precise control over acceleration, deceleration, and speed, enhancing driver or operator confidence and maneuverability. Drivelines with features like traction control systems, limited-slip differentials, or electronic stability control provide additional safety measures by improving traction, stability, and handling in challenging road or operating conditions. By ensuring optimal power distribution and control, drivelines enhance the overall safety and stability of vehicles and equipment.
7. Durability and Reliability: Drivelines are built to withstand harsh operating conditions and provide long-term durability and reliability. They are engineered with high-quality materials, precise manufacturing processes, and advanced technologies to ensure the driveline components can endure the stresses of power transmission. Well-designed drivelines require minimal maintenance, reducing downtime and enhancing the overall reliability of vehicles and equipment.
8. Specialized Functionality: Drivelines offer specialized functionality for specific types of vehicles and equipment. For example, in off-road vehicles or heavy-duty construction equipment, drivelines with features like differential locks, torque vectoring, or adjustable suspension systems provide enhanced traction, stability, and control. In agricultural machinery, drivelines with power take-off (PTO) units enable the connection of various implements for specific tasks like plowing, seeding, or harvesting. Such specialized driveline features enhance the performance and versatility of vehicles and equipment in their respective applications.
In summary, drivelines provide numerous benefits for different types of vehicles and equipment. They ensure efficient power transmission, facilitate mobility and maneuverability, offer versatility and adaptability, contribute to efficiency and fuel economy, handle heavy loads, enhance safety and control, provide durability and reliability, and offer specialized functionality. By incorporating well-designed drivelines, manufacturers can optimize the performance, productivity, and overall functionality of vehicles and equipment across various industries.
editor by CX 2023-09-06
China Professional Agricultural Machinery Gear Box Tractor Pto 90 Degree Right Angle Bevel 540 Rpm Mowers Rakes Balers Combine Harvester Gearbox Bevel Reduction Motor Steering pto shaft cover parts
Product Description
Agricultural Machinery gear box Tractor Pto 90 Degree Right Angle bevel 540 rpm Mowers Rakes Balers Combine Harvester Gearbox bevel reduction motor steering
Ever-power specialist in making all kinds of mechanical transmission and hydraulic transmission like: planetary gearboxes, worm reducers, in-line helical gear speed reducers, parallel shaft helical gear reducers, helical bevel reducers, helical worm gear reducers, agricultural gearboxes, tractor gearboxes, auto gearboxes, pto drive shafts, special reducer & related gear components and other related products, sprockets, hydraulic system, vaccum pumps, fluid coupling, gear racks, chains, timing pulleys, udl speed variators, v pulleys, hydraulic cylinder, gear pumps, screw air compressors, shaft collars low backlash worm reducers and so on. furthermore, we can produce customized variators, geared motors, electric motors and other hydraulic products according to customers’ drawings.
The company provides a reliable gurantee for the product’ s quality by advanced inspection and testing equipment. professional technical team, exquisite processing technology and strict control system.
In recent years, the company has been developing rapidly by its rich experience in production, adcanced managemant system, standardized management system, strong technical force. We always adhere the concept of survial by quality, and decelopment by innovation in science and technology.
Ever-power Group is willing to work with you hand in hand and create brilliance together!
company information
| Application: | Motor, Electric Cars, Motorcycle, Machinery, Marine, Toy, Agricultural Machinery, Car |
|---|---|
| Hardness: | Hardened Tooth Surface |
| Installation: | 90 Degree |
| Layout: | Coaxial |
| Gear Shape: | Bevel Gear |
| Step: | Stepless |
| Samples: |
US$ 999/Piece
1 Piece(Min.Order) | |
|---|
Choosing the Right PTO for Your Machine
There are many types of PTOs, and you may be wondering which one is the best choice for your machine. In this article, you’ll learn about Splined PTOs, Reverse PTOs, and Independent PTOs. Choosing the right PTO for your needs will allow you to operate your machine more efficiently.
LPTO
LPTOs can be dangerous for operators. They should stay at a safe distance from them to avoid getting entangled in the rotating shaft. If an operator gets caught, he or she could sustain severe injuries or even death. Safety precautions include wearing clothing that does not cling to the shaft.
There are many types of PTOs. Some of them support high power applications. These models have different shafts with varying spline configurations. Type 3 shafts have 20 splines, while Type 2 shafts have just 10. Type 3 and Type 2 shafts are referred to as large 1000 and small 1000 respectively by farmers.
The power that drives the PTO shaft comes from the gearbox through the countershaft. Standardizing the PTO speed helps to design equipment around the given speed. For example, a threshing machine is supposed to run at a specific peripheral velocity of the threshing cylinder, so pulley arrangements are usually designed with that speed in mind.
Because the PTO shaft is often low to the ground, it is easier to handle it from a kneeling position. Using a good surface to place the implement on will help you align the splines properly. To make this process easier, use a floor mat, a carpet, or a sturdy piece of cardboard. Once you have positioned the shaft on the PTO, press the locking pin button. If the PTO shaft is stuck, jiggling the implement a bit will help it slide into position.
Reverse PTO
There are several different ways to reverse the PTO shaft. Some older Massey Ferguson style tractors are designed to reverse the PTO shaft by turning it backward. This feature is useful for raising upright silo unloaders. The first method involves driving backward with the rear wheel jacked up and rotating while the rear wheel spins. This method is also useful for reversing a baler or unplugging a baler.
Another option is to install a reverse PTO adapter. These adapters are available for all types of PTOs. A reverse PTO is an excellent choice for any implement that can get stuck when rotating in one direction. However, it should only be used when it is absolutely necessary. The reverse PTO should not be rotated too far backward or for too long.
There are also different types of PTO shafts. Some transfer energy faster than others. That is why a large tractor’s PTO will transfer energy faster than a small tractor’s. Furthermore, independent PTOs don’t require a parking break like transmission PTOs do. There is also a difference between metric and domestic PTO shafts.
In farming, the reverse PTO is used when the farm machinery gets stuck or needs to be reversed. It also makes it possible to use the tractor to turn in the opposite direction. A PTO is a mechanical gearbox that transfers energy from the tractor’s engine to other implements. It can also supply power in the form of rotating pumps.
Splined PTO
The splined PTO shaft consists of six equal-sized splines that are spaced apart by grooves. The splines are angled to the axis of rotation of the PTO shaft. When the splines and the grooves meet, they align the screw end portion.
A splined PTO shaft can be retrofitted to most size 6 PTO shafts. It can also be used as a replacement for a worn out or damaged PTO shaft. This type of PTO shaft is recommended for tractors that require a quick and easy install.
Splined PTO shafts can be used for different types of agricultural equipment. They are compatible with standard and Weasler yokes. They can be cut to size and are available in North American and Metric series. They also come in an Italian Metric series. These shafts are easy to install and remove with a simple key.
A splined PTO shaft is essential for facilitating the interconnection of different components. A power take off (PTO) shaft tool engages the splined PTO shaft and turns it in order to align it with the input shaft of a cooperating structure. This tool is used to connect the PTO shaft to a tractor. This can also be used on a truck, trailer, or any other powered vehicle.
A wrench 40 is also useful for securing a PTO shaft. It enables the wrench to rotate the P.T.O. shaft approximately 30 degrees. The wrench’s leg 46 engages the shaft on the opposite side of the PTO shaft 16. Once the wrench is tightened, the tool can rotate the PTO shaft to make it align with the input shaft 16.
Independent PTO
Independent PTO shafts can be mechanical or hydraulic. The mechanical type has a separate on/off selector and control lever, whereas hydraulic PTOs have just one. The mechanical version is preferred for tractors that need to operate at lower speeds and for applications such as baling and tilling. The hydraulic version reduces noise and vibration.
Another advantage of an independent PTO is that it is easy to engage. Instead of engaging a clutch, you simply shift the PTO selector lever away from ‘OFF’ and flip the PTO switch to “ON.” This lever is usually located on the right hand side of the operator’s seat.
The ISO 500 standard provides specifications for independent PTO shafts. This specification lays out the size of the shaft, number of splines and the location of the PTO. In addition, it specifies the maximum RPM and shaft diameter for a PTO. The original ISO 500-3 specification calls for 540 revolutions per minute for shafts with six splines.
Another benefit of an independent PTO is its ability to be engaged or disengaged without using the transmission clutch. The lever can be pressed halfway or fully to engage an independent PTO. The independent PTO also allows you to stop the tractor while it is in motion. Independent PTOs are available in hydrostatic or mechanical configurations, and are particularly popular with hydrostatic drives.
LPTO shaft guard
An LPTO shaft guard prevents accidental rotational collisions by covering the shaft of a PTO. A PTO shaft is a moving part that can entrap a person’s legs, arms, and clothing. In a pinch, a person could become entangled in the shaft and suffer a serious injury. A PTO shaft guard is a great way to protect yourself against these dangerous incidents.
PTO mishaps can cause severe injuries and even fatalities. To prevent this, equipment manufacturers have made strides in improving the design and construction of their PTO drive shafts. A PTO shaft guard will protect the drive shaft from entanglement and tearing. Proper installation and maintenance of a PTO shaft guard can help protect the tractor, PTO, and other machinery.
Tractor PTO shaft guards are made from durable plastics and can be installed easily. They keep all the parts of the tractor in place and prevent accidents during operation. These parts are vital components for many farm equipments. A 540 RPM shaft can pull a person from a distance of five feet. A PTO shaft guard will prevent this from happening by keeping clothing from becoming entangled in the shaft.
Another important component of a PTO system is the master shield, which covers the PTO stub and the input driveline shaft of an implement. The master shield protects both the tractor PTO stub and the connection end of the input driveline shaft. It extends over the PTO stub on three sides. Many people never replace their master shields because they are too expensive.
Safety of handling a pto shaft
Handling a PTO shaft safely is a vital component of tractor safety. Safety shields must be properly fastened to the shaft to prevent any accidents. The shield should also be inspected and maintained regularly. Otherwise, foreign materials, including clothing, can enter the shaft’s bearings. It is also important to walk around the rotating shaft whenever possible.
Power takeoff shafts are used to transfer mechanical power from farm tractors to implements. However, improper handling of these devices can lead to severe injuries, including amputation and multiple fractures. Spinal injuries are also common, especially if an individual is rotated around the shaft.
Operator awareness is key to avoiding PTO entanglement. Performing repairs while a machine is in operation or wearing loose, frayed clothing may lead to injury. It is also important to read the manufacturer’s instructions before operating a PTO. Lastly, it is important to never operate a PTO while the engine is running.
PTO shafts should be protected by ‘U’ or ‘O’ guards on the tractor and the attached implement. It is also important to use a PTO stand. As with any mechanical part, handling a PTO shaft requires care. Always ensure that the tractor is off before working and remove the key before working on it. Also, it is important to avoid stepping on the drive line or going under it. Make sure you wear protective clothing and shoes. Avoid wearing clothes that have laces as they could become entangled in the shaft and cause injury.
The connection to the PTO shaft should be close to the ground. If it is not, kneel on a flat surface. A piece of carpet, automobile floor-mat or cardboard can work well. Then, align the splines on the PTO shaft. To do this, press the locking pin button, then pull the ball-lock collar back, and then push the shaft onto the PTO.
editor by CX 2023-07-11
China High Precision Tractor Steering Motor Transmission Metal Machining Shaft pto shaft at tractor supply
Solution Description
Solution Description
| Company kind | Factory/producer |
|
Service |
CNC machining |
| Turning and milling | |
| CNC turning | |
| OEM components | |
|
Content |
(1) Aluminum:AL 6061-T6,6063,7075-T |
| (2)Stainless steel:303,304,316L,seventeen-4(SUS630) | |
| (3)Metal:4140,Q235,Q345B,twenty#,forty five# | |
| (4)Titanium:TA1,TA2/GR2,TA4/GR5,TC4,TC18 | |
| (5)Brass:C36000(HPb62),C37700(HPb59),C26800(H68) | |
| (6)Copper, bronze, magnesium alloy, Delan, POM, acrylic, Personal computer, and so forth. | |
| Provider | OEM/ODM avaliable |
|
Finish |
Sandblasting, anodizing, Blackenning, zinc/Nickl plating, Poland |
| Powder coating, passivation PVD plating titanium, electrogalvanization | |
| Chrome plating, electrophoresis, QPQ | |
| Electrochemical polishing, chrome plating, knurling, laser etching Emblem | |
| Major gear | CNC machining heart (milling machine), CNC lathe, grinding device |
| Cylindrical grinding machine, drilling machine, laser reducing equipment | |
| Graphic structure | Step, STP, GIS, CAD, PDF, DWG, DXF and other samples |
| Tolerance | +/-.003mm |
| Area roughness | Ra0.1~3.two |
| Inspection | Full screening laboratory with micrometer, optical comparator, caliper vernier, CMM |
| Depth caliper vernier, common protractor, clock gauge, inside Celsius gauge |
Comprehensive Photos
Solution Parameters
| Content Available | |||||
| Aluminum | Stainless Steel | Brass | Copper | Plastic | Iron |
| AL2571 | SS201 | C22000 | C15710 | POM | Q235 |
| ALA380 | SS301 | C24000 | C11000 | PEEK | Q345B |
| AL5052 | SS303 | C26000 | C12000 | PVC | 1214 / 1215 |
| AL6061 | SS304 | C28000 | C12200 | Abs | forty five# |
| AL6063 | SS316 | C35600 | and so on. | Nylon | 20# |
| AL6082 | SS416 | C36000 | PP | 4140 / 4130 | |
| AL7075 | etc. | C37000 | Delrin | 12L14 | |
| and so forth. | and so on. | and many others. | and so forth. | ||
| Floor Treatment | |||||
| Aluminum Components | Stainless Metal Components | Metal Components | Brass Areas | ||
| Very clear Anodized | Polishing | Zinc Plating | Nickel Plating | ||
| Color Anodized | Passivating | Oxide black | chrome plating | ||
| Sandblast Anodized | Sandblasting | Nickel Plating | Electrophoresis black | ||
| Chemical Film | Laser engraving | Powder Coated | Powder coated | ||
| Brushing | Electrophoresis black | Warmth therapy | Gold plating | ||
| Sharpening | Oxide black | Chrome Plating | etc. | ||
| Chroming | etc | and so forth | |||
| etc | |||||
| TOLERANCE | |||||
| The smallest tolerance can reach +/-.001mm or as per drawing request. | |||||
| DRAWING Format | |||||
| PFD | Action | Igs | CAD | Solid | and many others |
Packaging & Delivery
Company Profile
HangZhou Shinemotor Co.,Ltd located in HangZhou Town, ZheJiang Province of China.
Largely specializes in establishing, production and marketing all varieties of customized metallic and plastic areas.
Our manufacturing unit move SGS, ISO9001/ ISO9001/ ISO14001 verification, parts can be broadly utilized in the fields of car,
healthcare instruments, digital communications, industrial and buyer apps and so on.
We have launched a series of advanced and high overall performance production products imported from Japan and ZheJiang :
Substantial precision cnc lathes, 5/6 axis cnc machining centers, airplane grinding & centerless grinding devices,
stamping devices, wire cut devices, EDM and several other substantial-precision CNC tools.
Our inspection gear involves: projector, 2d, 2.5D, CMM, hardness tests machine, device microscope, etc.
We focused to building and creating kinds of brass, aluminum, steel, stainless metal
And plastic machining components, stamping areas, and also mould design and manufacturing.
We firmly maintain the principle of ” customer is the initial, honesty is the basic, accrete win-win “.
Committed to offering you with substantial-good quality products and superb service!
We sincerely search CZPT to generating a greater potential by mutually useful cooperation with you.
FAQ
1. Are you a factory or a investing firm?
A: We are a manufacturing facility which has been specialised in cnc machining & automated manufacturing for more than 10 many years.
2. Exactly where is your manufacturing facility and how can I visit it?
A: Our factory is positioned in HangZhou metropolis and you can get more in depth info by searching our web site.
three. How extended can I get some samples for checking and what about the price tag?
A: Normally samples will be completed inside of 1-2 times (automated machining elements) or 3-5 working day (cnc machining components).
The sample cost depends on all info (measurement, content, finish, and so on.).
We will return the sample value if your buy amount is excellent.
four. How is the guarantee of the goods quality control?
A: We hold the tightend quality managing from really begining to the stop and purpose at one hundred% error totally free.
five.How to get an accurate quotation?
♦ Drawings, pictures, detailed dimensions or samples of products.
♦ Content of merchandise.
♦ Common getting amount.
♦ Quotation inside of 1~6 hours
| Material: | Carbon Steel |
|---|---|
| Load: | Drive Shaft |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
| Journal Diameter Dimensional Accuracy: | IT6-IT9 |
| Axis Shape: | Soft Wire Shaft |
| Shaft Shape: | Real Axis |
| Samples: |
US$ 100/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
PTO Shafts and PTO Shaft Shields
When choosing a PTO shaft, measuring the various pieces is an important aspect. Each piece must be measured in a specific way, with the shaft in a closed position. Measure the length between the outsides of the yokes. The closed length will help you determine the correct PTO series size for the horsepower of your tractor.
540 rpm
A 540 RPM PTO Shaft will fit CZPT PTO models. These shafts are slightly indexed to allow for easy PTO drive hookups. These shafts will also work with 1000 RPM implements. They also feature a snap ring that will allow for quick and easy removal.
PTO shafts are commonly divided into two types: 1000 RPM and 540 RPM. The 540 RPM PTO shafts are smaller, with only six splines, while the 1000 RPM PTO shafts are larger. The 540 RPM version is used with implements that require less horsepower and are made for light-duty use.
The PTO shaft transfers power from the tractor’s engine to a PTO-driven implement. When operating at its recommended speed, the PTO shaft rotates at 540 rpm (9 times per second). The higher speed PTO shafts have more splines.
Safety chains
Safety chains for PTO shafts are an important safety feature to consider when operating a tractor. These chains are welded to the drive end of a tractor or implement. They are used to prevent the plastic shield from spinning on the PTO shaft. The chain’s reaction time is slower than the speed of the PTO shaft, which makes it important for safety.
When operating a tractor, it is important to follow the manufacturer’s instructions and keep the machine and equipment in a safe location. A poorly-guarded PTO can entrap ground personnel or cause a serious accident. Operator awareness is also important. It is important to avoid stepping over a revolving shaft, wearing loose clothing, or making repairs while the tractor is running. It is also important to follow the manufacturer’s instructions and use the PTO for its intended purpose.
The safety chains for PTO shafts must be properly connected and fully functional before each use. During a PTO operation, the PTO shaft may rotate as much as 1000 rpm, which is potentially deadly. In addition to safety chains, the tractor should have a clutch or torque limiter fitted on the implement end.
The PTO shaft must have a correct length for the machine. If it is a sliding metal PTO drive shaft, it is important to lubricate it according to manufacturer’s specifications. Lubrication is recommended after every eight hours of operation. Also, make sure that the button on the end of the PTO shaft moves freely. Hammering it into place can damage the guard and the shaft.
A PTO driveline hazard is one of the oldest farm machinery hazards. It refers to the PTO or Implement Input Connection. There are often protruding pins and bolts on the driveline, which can snag clothing.
Shield
The PTO shaft shield is a protective piece that encloses a PTO shaft. These shields are usually plastic, but some are also made of metal. They are made to protect the PTO shaft from debris, which can cause premature wear and damage to the universal joints. A PTO shaft shield is not a permanent fixture, but can be easily removed for replacement or repair.
The PTO shaft shield should be checked periodically to ensure that it is in good condition. It should have no loose ends or loose bolts. Ensure that the shear bolts and pins are the right length and hardness for the PTO shaft. Additionally, the operator should wear snug clothing to avoid stepping on the PTO shaft while working.
The PTO shaft shield should fit snugly over the PTO shaft. If the PTO shaft is loose, it may be difficult to attach the safety shield. However, with a proper PTO shaft shield, the process should be quick and easy. A CZPT safety clip allows easy removal and prevents co-rotation between the inner driveshaft and the safety shield. The driveline safety shield from RPM Transmissions is made of CZPT, which is a rigid and durable material.
In addition, some machine drive shafts are lacking a shield. This can cause a safety hazard. Without a PTO shaft shield, an operator may accidentally touch the shaft and get injured. These guards prevent this danger by enclosing the shaft in a plastic or metal guard.
The PTO shaft shield is a crucial part of tractor safety. It helps protect the operator from accidental entanglement while operating the tractor. When the PTO shaft stub becomes separated, it can cause severe injuries and even fatalities. Thankfully, the industry has made tremendous progress in reducing the risks associated with PTO mishaps. Operators must make sure they maintain the shields and do not remove them if not in use.
Reverse rotation
The PTO shaft reverse rotation mechanism prevents the main drive shaft from moving in a direction opposite to the direction of rotation of the driven shaft. The mechanism is compact, reducing the length of the rotation shaft. The mechanism includes two reversing members: first reversing member 151 rotates in a clockwise direction and second reversing member 153 rotates in a counterclockwise direction.
In a PTO shaft reverse rotation mechanism, a driven shaft is inserted into a hollow cylindrical body. It is rotatably positioned relative to the main driving shaft 112 and radially symmetrically around it. As a result, the driving and reverse-rotation mechanisms are symmetric.
One such PTO shaft reverse rotation mechanism has a main drive shaft and a driven shaft, and a plurality of transmission units coupled to it. The driven shaft and the transmission member rotate in tandem. The transmission units are arranged radially about the main driving member and the driven shaft. Alternatively, one of the reversing units may comprise the second reversing member and the first driving member.
editor by CX 2023-04-12
China OEM Motor Steering Intermediate Steel Pto Drive Axle Shaft tractor pto shaft
Design: CT660
Calendar year: 2013-2016
OE NO.: Standard
Vehicle Fitment: CATERPILLAR
Dimension: OEM Regular Size
Materials: Metal
Design Quantity: OEM
Guarantee: 1 A long time
Auto Make: Automobiles
Solution Name: Pto Generate Axle Shaft
Content Processing: Forging, Casting, Welding
Heat Remedy: Quenching & Tempering, Floor Hardening
Machining Tolerance: Max. .01mm
Machining Roughness: Max. Ra .four
Defect Manage: UT, MT, PT, RT
Chemical Compositions: spectrometer
Regular: GB, EN, DIN, ASTM, GOST, JIS, ISO
Weight/Unit: 100kgs – 60 000kgs
Certification: ISO 9001
Packaging Specifics: Exporting deals are appropriate for different transport in accordance to requests.
Port: HangZhou, ZheJiang or Other Chinese Port
Product Title: OEM Motor Steering Intermediate Steel Pto Travel Axle ShaftWe are specialised in manufacturing various kind of huge mechanical items according to engineer drawings.The merchandise incorporate gears, pinions, OMRON AC servo motor R88M-K1K030F-S2 big stock sprockets, shafts, wheels, rollers, couplings, pulleys, housings ,frames, molds, nonstandard machinery elements, dress in resistant areas and structural parts.
| Content Normal | GB, EN, DIN, ASTM, GOST, JIS, Brushless 12V 24V 36V 48V BLDC 300W 500W 800W DC Electric BLDC Motor ISO | |||||
| Substance Processing | Forging, Casting, Welding | |||||
| Heat Treatment | Annealing, Normalizing, Q&T, Induction Hardening | |||||
| Machining Tolerance | Max. .01mm | |||||
| Machining Roughness | Max. Ra .4 | |||||
| Module of Gear | 8-60 | |||||
| Precision of Teeth | Max. ISO Quality five | |||||
| Bodyweight/Device | 100kgs – sixty 000kgs | |||||
| Software | Mining, Cement, Construction, Chemical, Oil Drilling, Metal Mill, Sugar Mill and Energy Plant | |||||
| Certification | ISO 9001 | |||||
| OEM AND ODM Provider ARE Supplied | ||||||
Workshop Inspection 1.Chemical Compositions Examination
2.Mechanical Properties Check (Tensile Toughness, Generate Energy, Elongation, Reduction of Spot, Aluminum Rapid Release 38mm Od And10mm Width 38 Inch Anodic Alumina Rapid Clamping Shaft Collar Influence Benefit, Hardness)
3.Non Harmful Examination (UT, MT, PT, RT)
4.Dimensional Examining
Our Support Customer Satisfaction Good Quality of Products On Time Delivery are our go after purpose all the time. Each of our solution has been manufactured with the greatest high quality components and followed the most appropriate methods to make certain the prolonged lifespans of use.
Technical Supports are entirely offered for suggestion of new resources, single period 220V 2hp YL90L-4 ac induction electrical motor with pulley planning drawings, measuring and mounting provider.
Packing & Supply
drive shaft yoke
editor by czh 2023-03-12
China Drive Shaft Couplings Crank Gear Square Shredder Machine Double Propeller Steering Alignment Flexible Hub Motor Pool Cue Stainless Steel Splined Shafts pto shaft danger
Solution Description
Drive shaft couplings crank equipment sq. shredder device double propeller steering alignment flexible hub motor pool cue stainless metal splined shafts
|
US $10-99 / Piece | |
100 Pieces (Min. Order) |
###
| Material: | Carbon Steel |
|---|---|
| Load: | Drive Shaft |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
| Journal Diameter Dimensional Accuracy: | IT6-IT9 |
| Axis Shape: | Straight Shaft |
| Shaft Shape: | Real Axis |
###
| Samples: |
US$ 9999/Piece
1 Piece(Min.Order) |
|---|
|
US $10-99 / Piece | |
100 Pieces (Min. Order) |
###
| Material: | Carbon Steel |
|---|---|
| Load: | Drive Shaft |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
| Journal Diameter Dimensional Accuracy: | IT6-IT9 |
| Axis Shape: | Straight Shaft |
| Shaft Shape: | Real Axis |
###
| Samples: |
US$ 9999/Piece
1 Piece(Min.Order) |
|---|
Choosing the Right PTO for Your Machine
There are many types of PTOs, and you may be wondering which one is the best choice for your machine. In this article, you’ll learn about Splined PTOs, Reverse PTOs, and Independent PTOs. Choosing the right PTO for your needs will allow you to operate your machine more efficiently.
LPTO
LPTOs can be dangerous for operators. They should stay at a safe distance from them to avoid getting entangled in the rotating shaft. If an operator gets caught, he or she could sustain severe injuries or even death. Safety precautions include wearing clothing that does not cling to the shaft.
There are many types of PTOs. Some of them support high power applications. These models have different shafts with varying spline configurations. Type 3 shafts have 20 splines, while Type 2 shafts have just 10. Type 3 and Type 2 shafts are referred to as large 1000 and small 1000 respectively by farmers.
The power that drives the PTO shaft comes from the gearbox through the countershaft. Standardizing the PTO speed helps to design equipment around the given speed. For example, a threshing machine is supposed to run at a specific peripheral velocity of the threshing cylinder, so pulley arrangements are usually designed with that speed in mind.
Because the PTO shaft is often low to the ground, it is easier to handle it from a kneeling position. Using a good surface to place the implement on will help you align the splines properly. To make this process easier, use a floor mat, a carpet, or a sturdy piece of cardboard. Once you have positioned the shaft on the PTO, press the locking pin button. If the PTO shaft is stuck, jiggling the implement a bit will help it slide into position.
Reverse PTO
There are several different ways to reverse the PTO shaft. Some older Massey Ferguson style tractors are designed to reverse the PTO shaft by turning it backward. This feature is useful for raising upright silo unloaders. The first method involves driving backward with the rear wheel jacked up and rotating while the rear wheel spins. This method is also useful for reversing a baler or unplugging a baler.
Another option is to install a reverse PTO adapter. These adapters are available for all types of PTOs. A reverse PTO is an excellent choice for any implement that can get stuck when rotating in one direction. However, it should only be used when it is absolutely necessary. The reverse PTO should not be rotated too far backward or for too long.
There are also different types of PTO shafts. Some transfer energy faster than others. That is why a large tractor’s PTO will transfer energy faster than a small tractor’s. Furthermore, independent PTOs don’t require a parking break like transmission PTOs do. There is also a difference between metric and domestic PTO shafts.
In farming, the reverse PTO is used when the farm machinery gets stuck or needs to be reversed. It also makes it possible to use the tractor to turn in the opposite direction. A PTO is a mechanical gearbox that transfers energy from the tractor’s engine to other implements. It can also supply power in the form of rotating pumps.
Splined PTO
The splined PTO shaft consists of six equal-sized splines that are spaced apart by grooves. The splines are angled to the axis of rotation of the PTO shaft. When the splines and the grooves meet, they align the screw end portion.
A splined PTO shaft can be retrofitted to most size 6 PTO shafts. It can also be used as a replacement for a worn out or damaged PTO shaft. This type of PTO shaft is recommended for tractors that require a quick and easy install.
Splined PTO shafts can be used for different types of agricultural equipment. They are compatible with standard and Weasler yokes. They can be cut to size and are available in North American and Metric series. They also come in an Italian Metric series. These shafts are easy to install and remove with a simple key.
A splined PTO shaft is essential for facilitating the interconnection of different components. A power take off (PTO) shaft tool engages the splined PTO shaft and turns it in order to align it with the input shaft of a cooperating structure. This tool is used to connect the PTO shaft to a tractor. This can also be used on a truck, trailer, or any other powered vehicle.
A wrench 40 is also useful for securing a PTO shaft. It enables the wrench to rotate the P.T.O. shaft approximately 30 degrees. The wrench’s leg 46 engages the shaft on the opposite side of the PTO shaft 16. Once the wrench is tightened, the tool can rotate the PTO shaft to make it align with the input shaft 16.
Independent PTO
Independent PTO shafts can be mechanical or hydraulic. The mechanical type has a separate on/off selector and control lever, whereas hydraulic PTOs have just one. The mechanical version is preferred for tractors that need to operate at lower speeds and for applications such as baling and tilling. The hydraulic version reduces noise and vibration.
Another advantage of an independent PTO is that it is easy to engage. Instead of engaging a clutch, you simply shift the PTO selector lever away from ‘OFF’ and flip the PTO switch to “ON.” This lever is usually located on the right hand side of the operator’s seat.
The ISO 500 standard provides specifications for independent PTO shafts. This specification lays out the size of the shaft, number of splines and the location of the PTO. In addition, it specifies the maximum RPM and shaft diameter for a PTO. The original ISO 500-3 specification calls for 540 revolutions per minute for shafts with six splines.
Another benefit of an independent PTO is its ability to be engaged or disengaged without using the transmission clutch. The lever can be pressed halfway or fully to engage an independent PTO. The independent PTO also allows you to stop the tractor while it is in motion. Independent PTOs are available in hydrostatic or mechanical configurations, and are particularly popular with hydrostatic drives.
LPTO shaft guard
An LPTO shaft guard prevents accidental rotational collisions by covering the shaft of a PTO. A PTO shaft is a moving part that can entrap a person’s legs, arms, and clothing. In a pinch, a person could become entangled in the shaft and suffer a serious injury. A PTO shaft guard is a great way to protect yourself against these dangerous incidents.
PTO mishaps can cause severe injuries and even fatalities. To prevent this, equipment manufacturers have made strides in improving the design and construction of their PTO drive shafts. A PTO shaft guard will protect the drive shaft from entanglement and tearing. Proper installation and maintenance of a PTO shaft guard can help protect the tractor, PTO, and other machinery.
Tractor PTO shaft guards are made from durable plastics and can be installed easily. They keep all the parts of the tractor in place and prevent accidents during operation. These parts are vital components for many farm equipments. A 540 RPM shaft can pull a person from a distance of five feet. A PTO shaft guard will prevent this from happening by keeping clothing from becoming entangled in the shaft.
Another important component of a PTO system is the master shield, which covers the PTO stub and the input driveline shaft of an implement. The master shield protects both the tractor PTO stub and the connection end of the input driveline shaft. It extends over the PTO stub on three sides. Many people never replace their master shields because they are too expensive.
Safety of handling a pto shaft
Handling a PTO shaft safely is a vital component of tractor safety. Safety shields must be properly fastened to the shaft to prevent any accidents. The shield should also be inspected and maintained regularly. Otherwise, foreign materials, including clothing, can enter the shaft’s bearings. It is also important to walk around the rotating shaft whenever possible.
Power takeoff shafts are used to transfer mechanical power from farm tractors to implements. However, improper handling of these devices can lead to severe injuries, including amputation and multiple fractures. Spinal injuries are also common, especially if an individual is rotated around the shaft.
Operator awareness is key to avoiding PTO entanglement. Performing repairs while a machine is in operation or wearing loose, frayed clothing may lead to injury. It is also important to read the manufacturer’s instructions before operating a PTO. Lastly, it is important to never operate a PTO while the engine is running.
PTO shafts should be protected by ‘U’ or ‘O’ guards on the tractor and the attached implement. It is also important to use a PTO stand. As with any mechanical part, handling a PTO shaft requires care. Always ensure that the tractor is off before working and remove the key before working on it. Also, it is important to avoid stepping on the drive line or going under it. Make sure you wear protective clothing and shoes. Avoid wearing clothes that have laces as they could become entangled in the shaft and cause injury.
The connection to the PTO shaft should be close to the ground. If it is not, kneel on a flat surface. A piece of carpet, automobile floor-mat or cardboard can work well. Then, align the splines on the PTO shaft. To do this, press the locking pin button, then pull the ball-lock collar back, and then push the shaft onto the PTO.
editor by czh 2023-01-24
China Customized 45# Steel Thread Shaft for Motor pto shaft came apart
Solution Description
Merchandise Description
| Organization variety | Manufacturing facility/company |
|
Service |
CNC machining |
| Turning and milling | |
| CNC turning | |
| OEM components | |
|
Material |
(1) Aluminum:AL 6061-T6,6063,7075-T |
| (2)Stainless steel:303,304,316L,17-4(SUS630) | |
| (3)Steel:4140,Q235,Q345B,twenty#,forty five# | |
| (4)Titanium:TA1,TA2/GR2,TA4/GR5,TC4,TC18 | |
| (5)Brass:C36000(HPb62),C37700(HPb59),C26800(H68) | |
| (6)Copper, bronze, magnesium alloy, Delan, POM, acrylic, Pc, and so forth. | |
| Support | OEM/ODM avaliable |
|
Complete |
Sandblasting, anodizing, Blackenning, zinc/Nickl plating, Poland |
| Powder coating, passivation PVD plating titanium, electrogalvanization | |
| Chrome plating, electrophoresis, QPQ | |
| Electrochemical sharpening, chrome plating, knurling, laser etching Logo | |
| Significant products | CNC machining center (milling equipment), CNC lathe, grinding equipment |
| Cylindrical grinding equipment, drilling machine, laser cutting machine | |
| Graphic format | Stage, STP, GIS, CAD, PDF, DWG, DXF and other samples |
| Tolerance | +/-.003mm |
| Surface roughness | Ra0.1~3.2 |
| Inspection | Full testing laboratory with micrometer, optical comparator, caliper vernier, CMM |
| Depth caliper vernier, universal protractor, clock gauge, inside Celsius gauge |
Detailed Photographs
Item Parameters
| Substance Offered | |||||
| Aluminum | Stainless Steel | Brass | Copper | Plastic | Iron |
| AL2571 | SS201 | C22000 | C15710 | POM | Q235 |
| ALA380 | SS301 | C24000 | C11000 | PEEK | Q345B |
| AL5052 | SS303 | C26000 | C12000 | PVC | 1214 / 1215 |
| AL6061 | SS304 | C28000 | C12200 | Ab muscles | forty five# |
| AL6063 | SS316 | C35600 | and so on. | Nylon | twenty# |
| AL6082 | SS416 | C36000 | PP | 4140 / 4130 | |
| AL7075 | and so on. | C37000 | Delrin | 12L14 | |
| and many others. | and many others. | and so forth. | etc. | ||
| Area Remedy | |||||
| Aluminum Elements | Stainless Steel Areas | Metal Parts | Brass Elements | ||
| Clear Anodized | Polishing | Zinc Plating | Nickel Plating | ||
| Colour Anodized | Passivating | Oxide black | chrome plating | ||
| Sandblast Anodized | Sandblasting | Nickel Plating | Electrophoresis black | ||
| Chemical Film | Laser engraving | Powder Coated | Powder coated | ||
| Brushing | Electrophoresis black | Warmth remedy | Gold plating | ||
| Polishing | Oxide black | Chrome Plating | etc. | ||
| Chroming | etc | and so on | |||
| and so forth | |||||
| TOLERANCE | |||||
| The smallest tolerance can reach +/-.001mm or as for every drawing ask for. | |||||
| DRAWING Structure | |||||
| PFD | Step | Igs | CAD | Sound | and so forth |
Packaging & Shipping
Firm Profile
HangZhou Shinemotor Co.,Ltd located in HangZhou Town, ZheJiang Province of China.
Primarily specializes in establishing, manufacturing and marketing all varieties of customized metallic and plastic elements.
Our manufacturing unit pass SGS, ISO9001/ ISO9001/ ISO14001 verification, components can be commonly utilized in the fields of automobile,
health-related instruments, digital communications, industrial and buyer programs and so on.
We have introduced a sequence of sophisticated and high functionality production tools imported from Japan and ZheJiang :
High precision cnc lathes, 5/6 axis cnc machining facilities, airplane grinding & centerless grinding devices,
stamping equipment, wire minimize machines, EDM and several other substantial-precision CNC gear.
Our inspection gear involves: projector, 2d, 2.5D, CMM, hardness screening device, device microscope, and so on.
We devoted to building and making types of brass, aluminum, metal, stainless steel
And plastic machining parts, stamping parts, and also CZPT style and production.
We firmly keep the concept of ” customer is the first, honesty is the fundamental, accrete earn-win “.
Committed to offering you with higher-quality items and superb support!
We sincerely search ahead to creating a greater long term by mutually useful cooperation with you.
FAQ
one. Are you a manufacturing facility or a investing firm?
A: We are a manufacturing unit which has been specialised in cnc machining & automatic production for much more than 10 many years.
2. In which is your manufacturing facility and how can I pay a visit to it?
A: Our manufacturing unit is situated in HangZhou metropolis and you can get far more comprehensive data by browsing our internet site.
3. How lengthy can I get some samples for examining and what about the value?
A: Normally samples will be accomplished within 1-2 days (automatic machining areas) or 3-5 day (cnc machining areas).
The sample cost depends on all details (size, material, complete, and so on.).
We will return the sample expense if your buy amount is very good.
four. How is the guarantee of the products high quality handle?
A: We maintain the tightend quality managing from very begining to the finish and purpose at a hundred% error free of charge.
five.How to get an correct quotation?
♦ Drawings, images, comprehensive dimensions or samples of items.
♦ Content of goods.
♦ Regular purchasing amount.
♦ Quotation inside 1~6 hrs
|
US $0.99-9.99 / Piece | |
100 Pieces (Min. Order) |
###
|
Shipping Cost:
Estimated freight per unit. |
To be negotiated| Freight Cost Calculator |
|---|
###
| Material: | Carbon Steel |
|---|---|
| Load: | Drive Shaft |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
###
| Samples: |
US$ 100/Piece
1 Piece(Min.Order) |
|---|
###
| Customization: |
Available
|
|---|
###
| Business type | Factory/manufacturer |
|
Service |
CNC machining |
| Turning and milling | |
| CNC turning | |
| OEM parts | |
|
Material |
(1) Aluminum:AL 6061-T6,6063,7075-T |
| (2)Stainless steel:303,304,316L,17-4(SUS630) | |
| (3)Steel:4140,Q235,Q345B,20#,45# | |
| (4)Titanium:TA1,TA2/GR2,TA4/GR5,TC4,TC18 | |
| (5)Brass:C36000(HPb62),C37700(HPb59),C26800(H68) | |
| (6)Copper, bronze, magnesium alloy, Delan, POM, acrylic, PC, etc. | |
| Service | OEM/ODM avaliable |
|
Finish |
Sandblasting, anodizing, Blackenning, zinc/Nickl plating, Poland |
| Powder coating, passivation PVD plating titanium, electrogalvanization | |
| Chrome plating, electrophoresis, QPQ | |
| Electrochemical polishing, chrome plating, knurling, laser etching Logo | |
| Major equipment | CNC machining center (milling machine), CNC lathe, grinding machine |
| Cylindrical grinding machine, drilling machine, laser cutting machine | |
| Graphic format | STEP, STP, GIS, CAD, PDF, DWG, DXF and other samples |
| Tolerance | +/-0.003mm |
| Surface roughness | Ra0.1~3.2 |
| Inspection | Complete testing laboratory with micrometer, optical comparator, caliper vernier, CMM |
| Depth caliper vernier, universal protractor, clock gauge, internal Celsius gauge |
###
| MATERIAL AVAILABLE | |||||
| Aluminum | Stainless Steel | Brass | Copper | Plastic | Iron |
| AL2024 | SS201 | C22000 | C10100 | POM | Q235 |
| ALA380 | SS301 | C24000 | C11000 | PEEK | Q345B |
| AL5052 | SS303 | C26000 | C12000 | PVC | 1214 / 1215 |
| AL6061 | SS304 | C28000 | C12200 | ABS | 45# |
| AL6063 | SS316 | C35600 | etc. | Nylon | 20# |
| AL6082 | SS416 | C36000 | PP | 4140 / 4130 | |
| AL7075 | etc. | C37000 | Delrin | 12L14 | |
| etc. | etc. | etc. | etc. | ||
| SURFACE TREATMENT | |||||
| Aluminum Parts | Stainless Steel Parts | Steel Parts | Brass Parts | ||
| Clear Anodized | Polishing | Zinc Plating | Nickel Plating | ||
| Color Anodized | Passivating | Oxide black | chrome plating | ||
| Sandblast Anodized | Sandblasting | Nickel Plating | Electrophoresis black | ||
| Chemical Film | Laser engraving | Powder Coated | Powder coated | ||
| Brushing | Electrophoresis black | Heat treatment | Gold plating | ||
| Polishing | Oxide black | Chrome Plating | etc. | ||
| Chroming | etc | etc | |||
| etc | |||||
| TOLERANCE | |||||
| The smallest tolerance can reach +/-0.001mm or as per drawing request. | |||||
| DRAWING FORMAT | |||||
| PFD | Step | Igs | CAD | Solid | etc |
|
US $0.99-9.99 / Piece | |
100 Pieces (Min. Order) |
###
|
Shipping Cost:
Estimated freight per unit. |
To be negotiated| Freight Cost Calculator |
|---|
###
| Material: | Carbon Steel |
|---|---|
| Load: | Drive Shaft |
| Stiffness & Flexibility: | Stiffness / Rigid Axle |
###
| Samples: |
US$ 100/Piece
1 Piece(Min.Order) |
|---|
###
| Customization: |
Available
|
|---|
###
| Business type | Factory/manufacturer |
|
Service |
CNC machining |
| Turning and milling | |
| CNC turning | |
| OEM parts | |
|
Material |
(1) Aluminum:AL 6061-T6,6063,7075-T |
| (2)Stainless steel:303,304,316L,17-4(SUS630) | |
| (3)Steel:4140,Q235,Q345B,20#,45# | |
| (4)Titanium:TA1,TA2/GR2,TA4/GR5,TC4,TC18 | |
| (5)Brass:C36000(HPb62),C37700(HPb59),C26800(H68) | |
| (6)Copper, bronze, magnesium alloy, Delan, POM, acrylic, PC, etc. | |
| Service | OEM/ODM avaliable |
|
Finish |
Sandblasting, anodizing, Blackenning, zinc/Nickl plating, Poland |
| Powder coating, passivation PVD plating titanium, electrogalvanization | |
| Chrome plating, electrophoresis, QPQ | |
| Electrochemical polishing, chrome plating, knurling, laser etching Logo | |
| Major equipment | CNC machining center (milling machine), CNC lathe, grinding machine |
| Cylindrical grinding machine, drilling machine, laser cutting machine | |
| Graphic format | STEP, STP, GIS, CAD, PDF, DWG, DXF and other samples |
| Tolerance | +/-0.003mm |
| Surface roughness | Ra0.1~3.2 |
| Inspection | Complete testing laboratory with micrometer, optical comparator, caliper vernier, CMM |
| Depth caliper vernier, universal protractor, clock gauge, internal Celsius gauge |
###
| MATERIAL AVAILABLE | |||||
| Aluminum | Stainless Steel | Brass | Copper | Plastic | Iron |
| AL2024 | SS201 | C22000 | C10100 | POM | Q235 |
| ALA380 | SS301 | C24000 | C11000 | PEEK | Q345B |
| AL5052 | SS303 | C26000 | C12000 | PVC | 1214 / 1215 |
| AL6061 | SS304 | C28000 | C12200 | ABS | 45# |
| AL6063 | SS316 | C35600 | etc. | Nylon | 20# |
| AL6082 | SS416 | C36000 | PP | 4140 / 4130 | |
| AL7075 | etc. | C37000 | Delrin | 12L14 | |
| etc. | etc. | etc. | etc. | ||
| SURFACE TREATMENT | |||||
| Aluminum Parts | Stainless Steel Parts | Steel Parts | Brass Parts | ||
| Clear Anodized | Polishing | Zinc Plating | Nickel Plating | ||
| Color Anodized | Passivating | Oxide black | chrome plating | ||
| Sandblast Anodized | Sandblasting | Nickel Plating | Electrophoresis black | ||
| Chemical Film | Laser engraving | Powder Coated | Powder coated | ||
| Brushing | Electrophoresis black | Heat treatment | Gold plating | ||
| Polishing | Oxide black | Chrome Plating | etc. | ||
| Chroming | etc | etc | |||
| etc | |||||
| TOLERANCE | |||||
| The smallest tolerance can reach +/-0.001mm or as per drawing request. | |||||
| DRAWING FORMAT | |||||
| PFD | Step | Igs | CAD | Solid | etc |
What Is a PTO Shaft?
A PTO shaft is a component that is important for a power take-off (PTO) tractor. There are many different kinds of PTOs, including Italian, German, and North American types. The types are categorized into different series, which will have different features such as bearing diameter, cap-to-cap length, and snap rings.
Power Take-Off (PTO) shaft
A PTO shaft is a high-speed working shaft that provides torque and lift. This is an advantage for machines that lift and lower loads and are often used on construction sites. Often, the operating elements are located outside of the operator’s cabin. A safety system is also present that allows the PTO shaft to automatically disengage if it is not turned on.
A safety retaining band 12 is used to secure the PTO shaft. The retaining band extends axially from the PTO shaft S and includes a hinge. The band may be adjustable in width to ensure a correct clearance from the PTO shaft. If necessary, it may also be secured with a conventional over-center clamp.
The power-take-off (PTO) shaft is a crucial part of a tractor. Understanding how power is transferred from the tractor’s engine to the implement requires a better understanding of how this shaft works. The torque and speed of the PTO shaft is essential to developing and utilizing the power of the tractor. There are many ways to measure torque and speed at the PTO shaft, including using a telemetry or encoder system.
A Power Take-Off (PTO) shaft safety retainer is an inexpensive, dependable, and fully effective device that protects the PTO shaft from entanglement. Its effectiveness will become clear after reading the specification. A power take-off shaft safety retainer is not difficult to install and is a good choice for many applications.
PTO shafts have a dangerous tendency to separate from the driven machinery. This poses a safety hazard because the PTO shaft can continue to whip around while the operator is driving the machine. Additionally, it can be very difficult for the operator to reach the power plant when operating PTO-driven equipment.
Safety chain
The safety chain on your PTO shaft is an important component of your tractor’s safety system. A properly guarded PTO can prevent entanglement with people, tools, and objects. Moreover, it reduces the risk of the PTO shaft becoming detached from the tractor. It also prevents people from stepping over the rotating shaft.
When not guarded, a PTO shaft is extremely dangerous. It can cause serious injuries and even death. Proper safety chains can prevent this from happening and protect livestock from damage to the PTO shaft. If you’re looking to purchase a safety chain for your PTO shaft, be sure to get one that fits tightly.
When properly attached, a safety chain can keep the shaft from swinging when the PTO is engaged. A 540-rpm PTO shaft will make more than two complete revolutions in less than five seconds. That means it can wrap someone in five tenths of a second. And if you try to pull away, you’ll get wrapped even tighter!
Another reason to use a safety chain is to prevent injury from clothing getting caught in the drive shaft. A jacket or a sweater can entangle itself around the PTO shaft and cause a serious injury. The clothing can also trap the injured limb against the shaft. Hence, the chain should be removed as soon as possible after the operation is completed.
A safety chain is an essential part of your tractor’s safety system. It prevents an accident from happening because of improper maintenance. A poorly maintained PTO shaft can result in severe injuries or even death. Properly installed and maintained safety chain can help you prevent any kind of PTO shaft accident.
Universal joint
A bad universal joint can cause a number of problems for your tractor or implement. These issues may include squeaking or clunking noises when you shift gears, or a shuddering sensation when you brake. If you notice any of these symptoms, it is best to take your vehicle to a mechanic right away for a thorough inspection. If not fixed properly, a bad universal joint can separate from the drive shaft and cause major damage to the tractor or implement.
In order to choose the proper universal joint, you must consider the size of your PTO shaft. Some implements have a diameter of 14 inches or more from the hitch point to the end of the input shaft. The longer distance helps prevent the PTO shaft from bottoming out when making sharp turns. It also prevents the two parts of the shaft from detaching during cornering.
Universal joints are used in agricultural and forestry equipment and other vehicles with large number of rotors. They can be made of different materials. The most common is steel or stainless steel. This material can last for many years. A universal joint is an excellent option for small tractors, lawn mowers, and other agricultural equipment.
The universal joint is also very useful when coupling or extending drive lines. It comes with 2 yokes and a cross kit. The yokes measure 6 x 13/8″ spline, while the cross kit measures 30,2 x 92 mm. The universal joint is made to withstand extreme temperatures. It can be easily disassembled and serviced if necessary.
Square rigid shaft
Torsion is a property of a mechanical system that is affected by changes in torsional rigidity. Torsional rigidity is measured as the torque needed to twist one unit of angular measurement over one unit of length. A shaft with high torsional rigidity will provide a stable mechanical interface.
Different shafts may have different types of collars. The most basic one is a sleeve, which is composed of a thick tube with the same diameter as the shaft. The sleeve is attached to each end of the shaft and has threaded inserts to prevent longitudinal movement.
The PTO shaft also has a safety shield on both ends. It helps to prevent accidents by securing equipment to the tractor. It can be found in domestic and metric shapes. The domestic versions are generally round and domestic shaped, while metric versions are available in a bell, football, star, and metric shape.
An CZPT coupling consists of three pieces: a center plastic disc, two encompassing discs, and a flange. These parts are joined together with a ring that is screwed to the shaft. Some couplings feature oil injection points on the coupling. These can supply oil under pressure to the coupling’s annular grooves. This helps it ‘float’ and aids in the removal.
Another type of flexible coupling is the universal joint. These couplings can be made from a variety of materials, such as rubber, braided metal wire, or woven wire. They can be fabricated to withstand various misalignments. But, unlike rigid couplings, flexible couplings are susceptible to shock and vibration.
Economy PTO
Economy PTO shafts are designed to reduce the overall torque and power consumption of a tractor. They can be manually adjusted to engage and disengage the PTO. The cab mounted control/monitoring unit 14 has a switch 19 that selects between the economy and normal driving modes of the PTO. Using the economy mode decreases the engine rpm while using a lower gear ratio to drive the PTO shaft.
Economy PTO shafts come in hydraulic and mechanical versions. Both types are suitable for agricultural tractors. They allow the tractor to operate at a lower rpm, which reduces noise and vibration. They can also be used in a wide range of equipment. The transmission PTO is the oldest type, and is directly connected to the transmission. When the clutch is engaged, it drives the transmission.
Standard PTO shafts are available in various diameters, splines, and speeds. Many implements are designed to be compatible with one or more of these types of PTO shafts. The domestic versions come with a splined front shaft and a square, rectangle, or round secondary shaft.
Another difference between the two types is the number of teeth on the toothed wheel. The economy PTO allows the tractor to run at a lower rpm than the standard PTO. The engine rpm can go as low as 1600 while using the economy PTO. It also helps to reduce noise and vibration in the cab.
The present invention solves these issues and provides an increased level of automation and operator awareness of the PTO function. It also includes a system for detecting the type of PTO shaft and automatically setting the parameters of the control routine.
editor by czh 2022-12-21