Product Description
Shaft-Pto (15252439) for CHINAMFG Dumper Part
Various way to deliver the parts
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Genuine parts
Reasonable price
Enough inventories
Fast delivery
Original terex (mining)dump truck parts,include TR50,TR60,TR100 series.competitive price.
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1.framed structure
2.PTO assembly
3.Connection
4.transmission shaft
5.wheel hub
6.absorber
7.Front axle and wheel hub
8.differential mechanism
9.rear axle assembly, axle shaft
10.braking system
11.gap adjuster
12.wheel-side/planetary structure
13.front suspension cylinder
14.rear suspension cylinder
15.steering cylinder
16.lifting cylinder
17.Chassis parts, fastening bolt, pin, shaft sleeve.
| drawing NO | Vehicle model |
| framed structure | |
| 9015218 | TR50 |
| 20019310 | TR50 |
| 9240460 | TR50 |
| 0571 5394 | TR50 |
| TR50 |
| PTO assembly | |
| 20000042 | TR50 |
| 9060268 | TR50 |
| 9274893 | TR50 |
| 9195847 | TR50 |
| 571528 | TR50 |
| 009 0571 6 | TR50 |
| 0905711 | TR50 |
| 0905710 | TR50 |
| 15252439 | TR50 |
| 15245600 | TR50 |
| 15016501 | TR50 |
| 09264925 | TR50 |
| 1530571 | TR50 |
| 05714209 | TR50 |
| 06772182 | TR50 |
| 6772182 | TR50 |
| 09269703 | TR50 |
| connection | |
| 1530 0571 | TR50 |
| 1530 0571 | TR50 |
| 09227330 | TR50 |
| 06772182 | TR50 |
| transmission shaft | |
| old 0571 0571 /new1530 0571 | 3307/TR50 |
| old15233277/new15272774 | 3307/TR50 |
| old09072552/new1530571 | 3307/TR50 |
| old0957152/new15272772 | 3307/TR50 |
| 15352300 | TR100new |
| 15352330 | TR100 |
| 15352327 | TR100. |
| 09253468 | TR100 |
| 09255689 | TR100.11E |
| 0571 3576 | TR100 |
| 0571 2983 | TR100.11E. |
| 15571746 | TR100 |
| 0571 2983 | TR100 |
| 9011828 | TR100 |
| 1500 0571 | TR100 |
| 0571 5398 | TR100 |
| 15249677 | TR100 |
| 15228480 | TR100 |
| 15335654 | TR100 |
| PTO assembly | |
| 15252682 | TR60 |
| 9065715 | TR60 |
| 9274893 | TR60 |
| 9195847 | TR60 |
| 15252439 | TR60 |
| 15300845 | TR60 |
| transmission shaft | |
| 15300843 | TR60 |
| 15272772 | TR60 |
| 1530571 | TR60 |
| 15272865 | TR60 |
| wheel hub | |
| 15246296 | TR60 |
| 9253468 | TR60 |
| 15265338 | TR60 |
| differential mechanism | |
| 9272352 | TR60 |
| 1530571 | TR60 |
| 9272346 | TR60 |
| 9272386 | TR60 |
| front suspension cylinder | |
| 15336056 | TR60 |
| 15336055 | TR60 |
| 15247973 | TR60 |
| 0571 8668 | TR60 |
| 5714086 | TR60 |
| 0957149 | TR60 |
| 5716508A | TR60 |
| absorber | |
| 15228210 | TR100 |
| 9065712 | TR100 |
| 9423067 | TR100 |
| 15246912 | TR100 |
| 15229318 | 3311E |
| 15336167 | TR100 |
| 1535712 | TR100 |
| 15336167 | TR100 |
| PTO assembly | |
| old15257485/new15331595 | TR100 |
| old15257459/new15331594 | TR100 |
| 20038184 | TR100new |
| 20038083 | TR100new |
| 9274893 | TR100 |
| 9195847 | TR100 |
| 15331585 | TR100new |
| 15246910 | 3311E |
| 1530571 | TR100/11E |
| 15331582 | TR100 |
| connection | |
| old06777070/new1530571 | TR100 |
| old15258084/new15230619 | TR100 |
| 09227330 | TR100 |
| 06772182 | TR100 |
| transmission shaft | |
| old15300850/new15336537 | TR100 |
| 15272865 | TR100 |
| old15258114/new15352888 | TR100 |
| 15271476 | TR100 |
| differential mechanism | |
| 15315244 | TR100 |
| 9272346 | TR100 |
| 9272352 | TR100 |
| 9272386 | TR100 |
| 150571 | TR100 |
| 15007646 | TR100 |
| Front suspension cylinder | |
| 20 0571 1/1525 0571 /15352794 | TR100 |
| 15335709/1525 0571 /15335709 | TR100 |
| 0571 9475 | TR100 |
| 5713858 | TR100 |
| 0571 9476 | TR100 |
| 9396484/9396486 | TR100 |
Various shipment ways.
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| Terex Part: | Terex Part |
|---|---|
| Brand: | Terex |
| Model1: | TR50 |
| Model2: | TR60 |
| Model3: | TR100 |
| Warranty: | 3 Months |
| Samples: |
US$ 900/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
| Customized Request |
|---|
How do PTO shafts handle variations in length and connection methods?
PTO (Power Take-Off) shafts are designed to handle variations in length and connection methods to accommodate different equipment setups and ensure efficient power transfer. PTO shafts need to be adjustable in length to bridge the distance between the power source and the driven machinery. Additionally, they must provide versatile connection methods to connect to a wide range of equipment. Here’s a detailed explanation of how PTO shafts handle variations in length and connection methods:
1. Telescoping Design: PTO shafts often feature a telescoping design, allowing them to be adjusted in length to suit different equipment configurations. The telescoping feature enables the shaft to extend or retract, accommodating varying distances between the power source (such as a tractor or engine) and the driven machinery. By adjusting the length of the PTO shaft, it can be properly aligned and connected to ensure optimal power transfer. Telescoping PTO shafts typically consist of multiple tubular sections that slide into one another, providing flexibility in length adjustment.
2. Splined Shafts: PTO shafts commonly employ splined shafts as the primary connection method between the power source and driven machinery. Splines are a series of ridges or grooves along the shaft that interlock with corresponding grooves in the mating component. The splined connection allows for torque transfer while maintaining alignment between the power source and driven machinery. Splined shafts can handle variations in length by extending or retracting the telescoping sections while still maintaining a solid connection between the power source and the driven equipment.
3. Adjustable Sliding Yokes: PTO shafts typically feature adjustable sliding yokes on one or both ends of the shaft. These yokes allow for angular adjustment, accommodating variations in the alignment between the power source and driven machinery. The sliding yokes can be moved along the splined shaft to achieve the desired angle and maintain proper alignment. This flexibility ensures that the PTO shaft can handle length variations while ensuring efficient power transfer without placing excessive strain on the universal joints or other components.
4. Universal Joints: Universal joints are integral components of PTO shafts that allow for angular misalignment between the power source and driven machinery. They consist of a cross-shaped yoke with bearings that transmit torque between connected shafts while accommodating misalignment. Universal joints provide flexibility in connecting PTO shafts to equipment that may not be perfectly aligned. As the PTO shaft length varies, the universal joints compensate for the changes in angle, allowing for smooth power transmission even when there are variations in length or misalignment between the power source and driven machinery.
5. Coupling Mechanisms: PTO shafts utilize various coupling mechanisms to securely connect to the power source and driven machinery. These mechanisms often involve a combination of splines, bolts, locking pins, or quick-release mechanisms. The coupling methods can vary depending on the specific equipment and industry requirements. The versatility of PTO shafts allows for the use of different coupling methods, ensuring a reliable and secure connection regardless of the length variation or equipment configuration.
6. Customization Options: PTO shafts can be customized to handle specific length variations and connection methods. Manufacturers offer options to select different lengths of telescoping sections to match the specific distance between the power source and driven machinery. Additionally, PTO shafts can be tailored to accommodate various connection methods through the selection of splined shaft sizes, yoke designs, and coupling mechanisms. This customization enables PTO shafts to meet the specific requirements of different equipment setups, ensuring optimal power transfer and compatibility.
7. Safety Considerations: When handling variations in length and connection methods, it is essential to consider safety. PTO shafts incorporate protective guards and shields to prevent accidental contact with rotating components. These safety measures must be appropriately adjusted and installed to provide adequate coverage and protection, regardless of the PTO shaft’s length or connection configuration. Safety guidelines and regulations should be followed to ensure the proper installation, adjustment, and use of PTO shafts in order to prevent accidents or injuries.
By incorporating telescoping designs, splined shafts, adjustable sliding yokes, universal joints, and versatile coupling mechanisms, PTO shafts can handle variations in length and connection methods. The flexibility of PTO shafts allows them to adapt to different equipment setups, ensuring efficient power transfer while maintaining alignment and safety.
What safety precautions should be followed when working with PTO shafts?
Working with Power Take-Off (PTO) shafts requires strict adherence to safety precautions to prevent accidents and ensure the well-being of individuals operating or working in the vicinity of the equipment. PTO shafts involve rotating machinery and can pose significant hazards if not handled properly. Here are several important safety precautions that should be followed when working with PTO shafts:
1. Familiarize Yourself with the Equipment: Prior to operating or working near a PTO shaft, it is crucial to thoroughly understand the equipment’s operation, including the specific PTO shaft configuration, safety features, and any associated machinery. Read and follow the manufacturer’s instructions and safety guidelines pertaining to the PTO shaft and associated equipment. Training and familiarity with the equipment are essential to ensure safe practices.
2. Wear Appropriate Personal Protective Equipment (PPE): When working with PTO shafts, individuals should wear appropriate personal protective equipment to minimize the risk of injury. This may include safety glasses, hearing protection, gloves, and sturdy footwear. PPE protects against potential hazards such as flying debris, noise, and accidental contact with rotating components.
3. Guarding and Shielding: Ensure that the PTO shaft and associated machinery are equipped with appropriate guarding and shielding. Guarding helps prevent accidental contact with rotating parts, reducing the risk of entanglement or injury. PTO shafts should have guard shields covering the rotating shaft and any exposed universal joints. Machinery driven by the PTO shaft should also have adequate guarding in place to protect against contact with moving parts.
4. Securely Fasten and Align PTO Shaft Components: Before operating or connecting the PTO shaft, ensure that all components are securely fastened and aligned. Loose or misaligned components can lead to shaft dislodgement, imbalance, and potential failure. Follow the manufacturer’s guidelines for proper installation and tightening of couplings, yokes, and other connecting points. Proper alignment is crucial to prevent excessive stress, vibrations, and premature wear on the PTO shaft and associated equipment.
5. Avoid Loose Clothing and Jewelry: Loose clothing, jewelry, or other items that can become entangled in the PTO shaft or associated machinery should be avoided. Secure long hair, tuck in loose clothing, and remove or properly secure any dangling accessories. Loose items can get caught in rotating parts, leading to serious injury or entanglement hazards.
6. Do Not Modify or Remove Safety Features: PTO shafts are equipped with safety features such as guard shields, safety covers, and torque limiters for a reason. These features are designed to protect against potential hazards and should not be modified, bypassed, or removed. Altering or disabling safety features can significantly increase the risk of accidents and injury. If any safety features are damaged or not functioning correctly, they should be repaired or replaced promptly.
7. Shut Down Power Source Before Maintenance: Before performing any maintenance, repairs, or adjustments on the PTO shaft or associated machinery, ensure that the power source is completely shut down and disconnected. This includes turning off the engine, disconnecting power supply, and engaging any safety locks or mechanisms. Lockout/tagout procedures should be followed to prevent accidental energization or startup during maintenance activities.
8. Regular Maintenance and Inspection: Regular maintenance and inspection of the PTO shaft and associated equipment are vital for safe operation. Follow the manufacturer’s recommended maintenance schedule and perform routine inspections to identify any signs of wear, damage, or misalignment. Lubricate universal joints as per the manufacturer’s guidelines to ensure smooth operation. Promptly address any maintenance or repair needs to prevent potential hazards.
9. Training and Communication: Ensure that individuals operating or working near PTO shafts receive proper training on safe work practices, hazard identification, and emergency procedures. Promote clear communication regarding the presence and operation of PTO shafts to prevent accidental contact or interference. Establish effective communication methods, such as signals or radios, when working in teams or near noisy equipment.
10. Be Aware of Surroundings: Maintain situational awareness when working with PTO shafts. Be mindful of the location of bystanders, obstacles, and potential hazards. Ensure a clear and safe work area around the PTO shaft. Avoid distractions and focus on the task at hand to prevent accidents caused by inattention.
By following these safety precautions, individuals can minimize the risk of accidents and injuries when working with PTO shafts. Safety should always be the top priority to ensure a safe and productive work environment.
How do PTO shafts handle variations in speed and torque requirements?
PTO shafts (Power Take-Off shafts) are designed to handle variations in speed and torque requirements between the power source (such as a tractor or engine) and the driven machinery or equipment. They incorporate various mechanisms and components to ensure efficient power transmission while accommodating the different speed and torque demands. Here’s a detailed explanation of how PTO shafts handle variations in speed and torque requirements:
1. Gearbox Systems: PTO shafts often incorporate gearbox systems to match the speed and torque requirements between the power source and the driven machinery. Gearboxes allow for speed reduction or increase and can also change the rotational direction if necessary. By using different gear ratios, PTO shafts can adapt the rotational speed and torque output to suit the specific requirements of the driven equipment. Gearbox systems enable PTO shafts to provide the necessary power and speed compatibility between the power source and the machinery they drive.
2. Shear Bolt Mechanisms: Some PTO shafts, particularly in applications where sudden overloads or shock loads are expected, use shear bolt mechanisms. These mechanisms are designed to protect the driveline components from damage by disconnecting the PTO shaft in case of excessive torque or sudden resistance. Shear bolts are designed to break at a specific torque threshold, ensuring that the PTO shaft separates before the driveline components suffer damage. By incorporating shear bolt mechanisms, PTO shafts can handle variations in torque requirements and provide a safety feature to protect the equipment.
3. Friction Clutches: PTO shafts may incorporate friction clutch systems to enable smooth engagement and disengagement of power transfer. Friction clutches use a disc and pressure plate mechanism to control the transmission of power. Operators can gradually engage or disengage the power transfer by adjusting the pressure on the friction disc. This feature allows for precise control over torque transmission, accommodating variations in torque requirements while minimizing shock loads on the driveline components. Friction clutches are commonly used in applications where smooth power engagement is essential, such as in hydraulic pumps, generators, and industrial mixers.
4. Constant Velocity (CV) Joints: In cases where the driven machinery requires a significant range of movement or articulation, PTO shafts may incorporate Constant Velocity (CV) joints. CV joints allow the PTO shaft to accommodate misalignment and angular variations without affecting power transmission. These joints provide a smooth and constant power transfer even when the driven machinery is at an angle relative to the power source. CV joints are commonly used in applications such as articulated loaders, telescopic handlers, and self-propelled sprayers, where the machinery requires flexibility and a wide range of movement.
5. Telescopic Designs: Some PTO shafts feature telescopic designs that allow for length adjustment. These shafts consist of two or more concentric shafts that slide within each other, providing the ability to extend or retract the PTO shaft as needed. Telescopic designs accommodate variations in the distance between the power source and the driven machinery. By adjusting the length of the PTO shaft, operators can ensure proper power transmission without the risk of the shaft dragging on the ground or being too short to reach the equipment. Telescopic PTO shafts are commonly used in applications where the distance between the power source and the implement varies, such as in front-mounted implements, snow blowers, and self-loading wagons.
By incorporating these mechanisms and designs, PTO shafts can handle variations in speed and torque requirements effectively. They provide the necessary flexibility, safety, and control to ensure efficient power transmission between the power source and the driven machinery. PTO shafts play a critical role in adapting power to meet the specific needs of various equipment and applications.
editor by CX 2024-03-14