China Standard Brush Cutter Part Diameter 8 mm Drive Shaft Brushcutter Spare Part

Product Description

Brush Cutter Part diameter 8 mm Drive Shaft For BrushCutter

  

 

NO Model L- 1 (MM) A (MM) B (MM) Material Note
1 ESR-DS-80-1 80 A STYPE 26*9T A STYPE 26*9T 40CR  
2 ESR-DS-120-1 120 A STYPE 22*9T A STYPE 22*9T 40CR  
3 ESR-DS-120-2 120 A STYPE 22*9T C STYPE 24*5.3 40CR  
4 ESR-DS-135-1 135 A STYPE 22*9T C STYPE 22*5.35 40CR  
5 ESR-DS-135-2 135 A STYPE 22*9T A STYPE 22*9T 72B  
6 ESR-DS-330-1 330 A STYPE 22*9T A STYPE 22*9T 40CR  
7 ESR-DS-340-1 340 C STYPE 22*6.6 B STYPE 13*M7 40CR  
8 ESR-DS-388-1 388 A STYPE 26*9T A STYPE 26*9T 72B  
9 ESR-DS-469-1 469 A STYPE 22*9T A STYPE 22*9T 40CR  
10 ESR-DS-530-1 530 A STYPE 22*9T A STYPE 22*9T 40CR  
11 ESR-DS-600-1 600 A STYPE 26*9T A STYPE 26*9T 40CR  
12 ESR-DS-660-1 660 A STYPE 20*9T B STYPE 25*M8 40CR  
13 ESR-DS-675-1 675 A STYPE 23*9T B STYPE 21*M8 72B  
14 ESR-DS-685-1 685 A STYPE 22*9T B STYPE 26*M8 40CR  
15 ESR-DS-703-1 703 A STYPE 22*9T C STYPE 22*5.3 40CR  
16 ESR-DS-703-2 703 C STYPE 25*5.35 C STYPE 25*5.35 40CR  
17 ESR-DS-725-1 725 B STYPE 25*M8 B STYPE 25*M8 40CR  
18 ESR-DS-747-1 747 A STYPE 24*9T A STYPE 24*9T 40CR  
19 ESR-DS-750-1 750 A STYPE 20*9T B STYPE 25*M8 72B Spline 79.5X1.1X<P7.4
20 ESR-DS-751.5-1 751.5 A STYPE 27*7T B STYPE 20*M7 40CR Spline 138X1.1X<ll7
21 ESR-DS-755- 1 755 A STYPE 2 0*9T C STYPE 24*6.8 72B Spline 44.5X1.1X<D7.4
22 ESR-DS-755-2 755 A STYPE 2 0*9T B STYPE  25*M8 72B  
23 ESR-DS-755-3 755 A STYPE 22*9T A STYPE 22*9T 72B  
24 ESR-DS-757-1 757 A STYPE 20*9T B STYPE 25*M8 72B Spline 79.5X1.1X7.4
25 ESR-DS-757-2 757 A STYPE 20*9T C STYPE 24*6.8 72B Spline 94.5X1.1X7.4
26 ESR-DS-760.5-1 760.5 A STYPE 22*9T A STYPE 22*9T 40CR Spline 25X1.1X7
27 ESR-DS-762-1 762 A STYPE 22*9T A STYPE 22*9T 40CR  
28 ESR-DS-762-2 762 A STYPE 22*7T C STYPE 24*5.3 40CR  

NO Model L-1 (MM) A (MM) B (MM) Material Note
29 ESR-DS-762-3 762 A Style 22*7T A Style 22*7T 40CR  
30 ESR-DS-762-4 762 A Style 22*9T B Style 22*M8 72B  
31 ESR-DS-762-5 762 C Style 22*5.3 C Style 22*5.3 40CR  
32 ESR-DS-763-1 763 A Style 26*9T B Style 30*M8 40CR  
33 ESR-DS-765-1 765 A Style 26*9T C Style 25*6.8 40CR  
34 ESR-DS-772-1 772 A Style 22*9T A Style 22*9T 72B  
35 ESR-DS-773-1 773 A Style 20*9T C Style 24*5 72B  spline44.55X1.1X<P7.4
36 ESR-DS-782-1 782 A Style 22*9T B Style 24*M8 40CR  
37 ESR-DS-784-1 784 A Style 22*9T D Style <P12X22*9T 40CR  
38 ESR-DS-790-1 790 A Style 20*9T A Style 20*9T 40CR  
39 ESR-DS-790-2 790 A Style 22*9T C Style 22*5 72B  
40 ESR-DS-798.5-1 798.5 A Style 28*9T D Style <ll14X19*5.4 40CR  
41 ESR-DS-822-1 822 A Style 25*9T B Style 20*M8 40CR  
42 ESR-DS-832-1 832 A Style 24*9T B Style 15*M8 40CR  
43 ESR-DS-840-1 840 A Style 22*9T A Style 22*9T 40CR  
44 ESR-DS-846-1 846 A Style 24*9T B Style 18*M8 40CR  
45 ESR-DS-855-1 855 A Style 22*9T A Style 22*9T 72B  
46 ESR-DS-915-1 915 A Style 22*9T A Style 22*9T 40CR  
47 ESR-DS-948-1 948 A Style 22*9T A Style 22*9T 40CR  
48 ESR-DS-953-1 953 A Style 22*9T A Style 22*9T 40CR  
49 ESR-DS-965-1 965 A Style 22*9T A Style 22*9T 72B  
50 ESR-DS-1000-1 1000 A Style 22*9T A Style 22*9T 40CR  
51 ESR-DS-1015-1 1015 A Style 22*9T A Style 22*9T 40CR  
52 ESR-DS-1092-1 1092 A Style 22*9T A Style 22*9T 40CR  
53 ESR-DS-1222-1 1222 C Style 22*5.3 B Style 13*M7 40CR  
54 ESR-DS-1255-1 1255 A Style 22*9T D Style 13X26*7 40CR  
55 ESR-DS-1299-1 1299 A Style 22*9T B Style 13*M7 40CR  
56 ESR-DS-1322-1 1322 C Style 22*5.3 B Style 14*M7 40CR  
57 ESR-DS-1324-1 1324 A Style 30*9T B Style 25*M8 40CR  
58 ESR-DS-1330-1 1330 A Style 22*9T C Style 30*6.8 40CR  

59 ESR-DS-1350-1 1350 A Style 26*9T B Style 25*M8 40CR  
60 ESR-DS-1370-1 1370 A Style 24*9T B Style 25*M8 40CR  
61 ESR-DS-1375- 1 1375 A Style 22*9T A Style 22*9T 40CR  
62 ESR-DS-1380-1 1380 A Style 24*9T B Style 25*M8 40CR  
63 ESR-DS-1380-2 1380 A Style 24*7T B Style 25*M8 40CR  
64 ESR-DS-1380-3 1380 A Style 30*9T B Style 25*M8 40CR  
65 ESR-DS-1390-1 1390 A Style 22*9T A Style 22*9T 40CR  
66 ESR-DS-1390-2 1390 A Style 24*7T B Style 25*M8 40CR  
67 ESR-DS-1390-3 1390 A Style 24*9T B Style 25*M8 40CR  
68 ESR-DS-1390-4 1390 A Style 24*9T D Style 13X26*7 40CR  
69 ESR-DS-1398-1 1398 A Style 25*9T D Style 4>13X26*7 40CR  
70 ESR-DS-1405- 1 1405 A Style 24*9T D Style 13X26*7 40CR  
71 ESR-DS-1448-1 1448 A Style 22*9T C Style 22*5.35 40CR  

72 ESR-DS-1460-1 1460 AStyle 22*9T AStyle 22*9T 40CR  
73 JG-VZ-1469-1 1469 AStyle 30*9T BStyle 25*M8 40CR  
74 ESR-DS-1476-1 1476 CStyle 22*5.3 BStyle 13*M7 40CR  
75 JG-VZ-1480-1 1480 AStyle 22*9T AStyle 22*9T 40CR  
76 ESR-DS-1490-1 1490 AStyle 20*9T AStyle 20*9T 40CR  
77 ESR-DS-1500-1 1500 AStyle 26*9T AStyle 26*9T 40CR  
78 ESR-DS-1500-2 1500 AStyle 22*9T CStyle 30*6.8 40CR  
79 ESR-DS-1500-3 1500 AStyle 26*9T AStyle 26*9T 40CR  
80 ESR-DS-1510-1 1510 AStyle 26*9T AStyle 26*9T 40CR  
81 ESR-DS-1515-1 1515 AStyle 26*9T AStyle 26*9T 40CR  
82 ESR-DS-1517-1 1517 AStyle 22*9T AStyle 22*9T 40CR  
83 ESR-DS-1518-1 1518 AStyle 27*9T CStyle 27*5.35 40CR  
84 ESR-DS-1519-1 1519 AStyle 24*9T AStyle 24*9T 40CR  
85 ESR-DS-1522-1 1522 AStyle 22*9T AStyle 22*9T 40CR  
86 ESR-DS-1522-2 1522 AStyle 22*7T AStyle 22*7T 72B  
87 ESR-DS-1522-3 1522 AStyle 22*9T AStyle 30*9T 72B  
88 ESR-DS-1525-1 1525 AStyle 20*9T AStyle 25*9T 40CR  
89 ESR-DS-1526-1 1526 AStyle 24*9T AStyle 24*9T 40CR  
90 ESR-DS-1526.5-1 1526.5 AStyle 22*9T AStyle 22*9T 40CR  
91 ESR-DS-1530-1 1530 AStyle 26*9T AStyle 26*9T 40CR  
92 ESR-DS-1530-2 1530 AStyle 26*9T BStyle 25*M8 40CR  
93 ESR-DS-1530-3 1530 AStyle 26*7T AStyle 26*7T 40CR  
94 ESR-DS-1530-4 1530 CStyle 26*5.3 CStyle 26*5.3 40CR  
95 ESR-DS-1532-1 1532 AStyle 27*9T AStyle 27*9T 40CR  
96 ESR-DS-1534-1 1534 AStyle 24*9T AStyle 24*9T 40CR  
97 ESR-DS-1534- 2 1534 AStyle 24*9T BStyle 14*M8 40CR  
98 ESR-DS-1535- 1 1535 AStyle 25*9T BStyle 20*M8 40CR  
99 ESR-DS-1537- 1 1537 AStyle 25*9T BStyle 13*M8 40CR  
100 ESR-DS-1537- 2 1537 AStyle 25*9T BStyle 25*M8 40CR  
101 ESR-DS-1540-1 1540 AStyle 26*9T AStyle 26*9T 40CR  
102 ESR-DS-1542-1 1542 AStyle 31*9T BStyle 14*1*M8 72B  
103 ESR-DS-1545-1 1545 AStyle 28*10T AStyle 28*10T 40CR  
104 ESR-DS-1545- 2 1545 AStyle 22*9T CStyle 26*6.8 40CR  
105 ESR-DS-1546-1 1546 AStyle 26*9T AStyle 26*9T 40CR  
106 ESR-DS-1550-1 1550 AStyle 26*9T BStyle 25*M8 40CR  
107 ESR-DS-1550-2 1550 AStyle 26*9T AStyle 26*9T 40CR  
108 ESR-DS-1553-1 1553 AStyle 26*9T AStyle 26*9T 40CR  
109 ESR-DS-1555-1 1555 AStyle 26*9T DStyle cP1 3X26*7 40CR  
110 ESR-DS-1560- 1 1560 AStyle 28*10T AStyle 28*10T 40CR  
111 ESR-DS-1575- 1 1575 AStyle 26*9T DStyle CD13X26*7 40CR  
112 ESR-DS-1610-1 1610 CStyle 27*6.1 CStyle 27*6.1 40CR  
113 ESR-DS-1622-1 1622 AStyle 22*9T AStyle 22*9T 40CR  

FAQ:

 

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We do retail and wholesale for gasoline chainsaw, brush cutter, grass trimmer, and other garden tool parts. Welcome here to pick out and buy.

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Certification: RoHS, CE, ISO, CCC
Power Source: Gasoline
Type: Drive Shaft
Material: Abcd Style
Diameter: 8mm
Drive Shaft Style: a/B/C/D
Customization:
Available

|

Customized Request

pto shaft

What factors should be considered when selecting the right drive shaft for an application?

When selecting the right drive shaft for an application, several factors need to be considered. The choice of drive shaft plays a crucial role in ensuring efficient and reliable power transmission. Here are the key factors to consider:

1. Power and Torque Requirements:

The power and torque requirements of the application are essential considerations. It is crucial to determine the maximum torque that the drive shaft will need to transmit without failure or excessive deflection. This includes evaluating the power output of the engine or power source, as well as the torque demands of the driven components. Selecting a drive shaft with the appropriate diameter, material strength, and design is essential to ensure it can handle the expected torque levels without compromising performance or safety.

2. Operating Speed:

The operating speed of the drive shaft is another critical factor. The rotational speed affects the dynamic behavior of the drive shaft, including the potential for vibration, resonance, and critical speed limitations. It is important to choose a drive shaft that can operate within the desired speed range without encountering excessive vibrations or compromising the structural integrity. Factors such as the material properties, balance, and critical speed analysis should be considered to ensure the drive shaft can handle the required operating speed effectively.

3. Length and Alignment:

The length and alignment requirements of the application must be considered when selecting a drive shaft. The distance between the engine or power source and the driven components determines the required length of the drive shaft. In situations where there are significant variations in length or operating angles, telescopic drive shafts or multiple drive shafts with appropriate couplings or universal joints may be necessary. Proper alignment of the drive shaft is crucial to minimize vibrations, reduce wear and tear, and ensure efficient power transmission.

4. Space Limitations:

The available space within the application is an important factor to consider. The drive shaft must fit within the allocated space without interfering with other components or structures. It is essential to consider the overall dimensions of the drive shaft, including length, diameter, and any additional components such as joints or couplings. In some cases, custom or compact drive shaft designs may be required to accommodate space limitations while maintaining adequate power transmission capabilities.

5. Environmental Conditions:

The environmental conditions in which the drive shaft will operate should be evaluated. Factors such as temperature, humidity, corrosive agents, and exposure to contaminants can impact the performance and lifespan of the drive shaft. It is important to select materials and coatings that can withstand the specific environmental conditions to prevent corrosion, degradation, or premature failure of the drive shaft. Special considerations may be necessary for applications exposed to extreme temperatures, water, chemicals, or abrasive substances.

6. Application Type and Industry:

The specific application type and industry requirements play a significant role in drive shaft selection. Different industries, such as automotive, aerospace, industrial machinery, agriculture, or marine, have unique demands that need to be addressed. Understanding the specific needs and operating conditions of the application is crucial in determining the appropriate drive shaft design, materials, and performance characteristics. Compliance with industry standards and regulations may also be a consideration in certain applications.

7. Maintenance and Serviceability:

The ease of maintenance and serviceability should be taken into account. Some drive shaft designs may require periodic inspection, lubrication, or replacement of components. Considering the accessibility of the drive shaft and associated maintenance requirements can help minimize downtime and ensure long-term reliability. Easy disassembly and reassembly of the drive shaft can also be beneficial for repair or component replacement.

By carefully considering these factors, one can select the right drive shaft for an application that meets the power transmission needs, operating conditions, and durability requirements, ultimately ensuring optimal performance and reliability.

pto shaft

How do drive shafts enhance the performance of automobiles and trucks?

Drive shafts play a significant role in enhancing the performance of automobiles and trucks. They contribute to various aspects of vehicle performance, including power delivery, traction, handling, and overall efficiency. Here’s a detailed explanation of how drive shafts enhance the performance of automobiles and trucks:

1. Power Delivery: Drive shafts are responsible for transmitting power from the engine to the wheels, enabling the vehicle to move forward. By efficiently transferring power without significant losses, drive shafts ensure that the engine’s power is effectively utilized, resulting in improved acceleration and overall performance. Well-designed drive shafts with minimal power loss contribute to the vehicle’s ability to deliver power to the wheels efficiently.

2. Torque Transfer: Drive shafts facilitate the transfer of torque from the engine to the wheels. Torque is the rotational force that drives the vehicle forward. High-quality drive shafts with proper torque conversion capabilities ensure that the torque generated by the engine is effectively transmitted to the wheels. This enhances the vehicle’s ability to accelerate quickly, tow heavy loads, and climb steep gradients, thereby improving overall performance.

3. Traction and Stability: Drive shafts contribute to the traction and stability of automobiles and trucks. They transmit power to the wheels, allowing them to exert force on the road surface. This enables the vehicle to maintain traction, especially during acceleration or when driving on slippery or uneven terrain. The efficient power delivery through the drive shafts enhances the vehicle’s stability by ensuring balanced power distribution to all wheels, improving control and handling.

4. Handling and Maneuverability: Drive shafts have an impact on the handling and maneuverability of vehicles. They help establish a direct connection between the engine and the wheels, allowing for precise control and responsive handling. Well-designed drive shafts with minimal play or backlash contribute to a more direct and immediate response to driver inputs, enhancing the vehicle’s agility and maneuverability.

5. Weight Reduction: Drive shafts can contribute to weight reduction in automobiles and trucks. Lightweight drive shafts made from materials such as aluminum or carbon fiber-reinforced composites reduce the overall weight of the vehicle. The reduced weight improves the power-to-weight ratio, resulting in better acceleration, handling, and fuel efficiency. Additionally, lightweight drive shafts reduce the rotational mass, allowing the engine to rev up more quickly, further enhancing performance.

6. Mechanical Efficiency: Efficient drive shafts minimize energy losses during power transmission. By incorporating features such as high-quality bearings, low-friction seals, and optimized lubrication, drive shafts reduce friction and minimize power losses due to internal resistance. This enhances the mechanical efficiency of the drivetrain system, allowing more power to reach the wheels and improving overall vehicle performance.

7. Performance Upgrades: Drive shaft upgrades can be popular performance enhancements for enthusiasts. Upgraded drive shafts, such as those made from stronger materials or with enhanced torque capacity, can handle higher power outputs from modified engines. These upgrades allow for increased performance, such as improved acceleration, higher top speeds, and better overall driving dynamics.

8. Compatibility with Performance Modifications: Performance modifications, such as engine upgrades, increased power output, or changes to the drivetrain system, often require compatible drive shafts. Drive shafts designed to handle higher torque loads or adapt to modified drivetrain configurations ensure optimal performance and reliability. They enable the vehicle to effectively harness the increased power and torque, resulting in improved performance and responsiveness.

9. Durability and Reliability: Robust and well-maintained drive shafts contribute to the durability and reliability of automobiles and trucks. They are designed to withstand the stresses and loads associated with power transmission. High-quality materials, appropriate balancing, and regular maintenance help ensure that drive shafts operate smoothly, minimizing the risk of failures or performance issues. Reliable drive shafts enhance the overall performance by providing consistent power delivery and minimizing downtime.

10. Compatibility with Advanced Technologies: Drive shafts are evolving in tandem with advancements in vehicle technologies. They are increasingly being integrated with advanced systems such as hybrid powertrains, electric motors, and regenerative braking. Drive shafts designed to work seamlessly with these technologies maximize their efficiency and performance benefits, contributing to improved overall vehicle performance.

In summary, drive shafts enhance the performance of automobiles and trucks by optimizing power delivery, facilitating torque transfer, improving traction and stability, enhancing handling and maneuverability, reducing weight, increasing mechanical efficiency, enabling compatibility with performance upgrades and advanced technologies, and ensuring durability and reliability. They play a crucial role in ensuring efficient power transmission, responsive acceleration, precise handling, and overall improved performance of vehicles.

pto shaft

What benefits do drive shafts offer for different types of vehicles and equipment?

Drive shafts offer several benefits for different types of vehicles and equipment. They play a crucial role in power transmission and contribute to the overall performance, efficiency, and functionality of various systems. Here’s a detailed explanation of the benefits that drive shafts provide:

1. Efficient Power Transmission:

Drive shafts enable efficient power transmission from the engine or power source to the wheels or driven components. By connecting the engine or motor to the driven system, drive shafts efficiently transfer rotational power, allowing vehicles and equipment to perform their intended functions. This efficient power transmission ensures that the power generated by the engine is effectively utilized, optimizing the overall performance and productivity of the system.

2. Versatility:

Drive shafts offer versatility in their applications. They are used in various types of vehicles, including cars, trucks, motorcycles, and off-road vehicles. Additionally, drive shafts are employed in a wide range of equipment and machinery, such as agricultural machinery, construction equipment, industrial machinery, and marine vessels. The ability to adapt to different types of vehicles and equipment makes drive shafts a versatile component for power transmission.

3. Torque Handling:

Drive shafts are designed to handle high levels of torque. Torque is the rotational force generated by the engine or power source. Drive shafts are engineered to efficiently transmit this torque without excessive twisting or bending. By effectively handling torque, drive shafts ensure that the power generated by the engine is reliably transferred to the wheels or driven components, enabling vehicles and equipment to overcome resistance, such as heavy loads or challenging terrains.

4. Flexibility and Compensation:

Drive shafts provide flexibility and compensation for angular movement and misalignment. In vehicles, drive shafts accommodate the movement of the suspension system, allowing the wheels to move up and down independently. This flexibility ensures a constant power transfer even when the vehicle encounters uneven terrain. Similarly, in machinery, drive shafts compensate for misalignment between the engine or motor and the driven components, ensuring smooth power transmission and preventing excessive stress on the drivetrain.

5. Weight Reduction:

Drive shafts contribute to weight reduction in vehicles and equipment. Compared to other forms of power transmission, such as belt drives or chain drives, drive shafts are typically lighter in weight. This reduction in weight helps improve fuel efficiency in vehicles and reduces the overall weight of equipment, leading to enhanced maneuverability and increased payload capacity. Additionally, lighter drive shafts contribute to a better power-to-weight ratio, resulting in improved performance and acceleration.

6. Durability and Longevity:

Drive shafts are designed to be durable and long-lasting. They are constructed using materials such as steel or aluminum, which offer high strength and resistance to wear and fatigue. Drive shafts undergo rigorous testing and quality control measures to ensure their reliability and longevity. Proper maintenance, including lubrication and regular inspections, further enhances their durability. The robust construction and long lifespan of drive shafts contribute to the overall reliability and cost-effectiveness of vehicles and equipment.

7. Safety:

Drive shafts incorporate safety features to protect operators and bystanders. In vehicles, drive shafts are often enclosed within a protective tube or housing, preventing contact with moving parts and reducing the risk of injury in the event of a failure. Similarly, in machinery, safety shields or guards are commonly installed around exposed drive shafts to minimize the potential hazards associated with rotating components. These safety measures ensure the well-being of individuals operating or working in proximity to vehicles and equipment.

In summary, drive shafts offer several benefits for different types of vehicles and equipment. They enable efficient power transmission, provide versatility in various applications, handle torque effectively, offer flexibility and compensation, contribute to weight reduction, ensure durability and longevity, and incorporate safety features. By providing these advantages, drive shafts enhance the performance, efficiency, reliability, and safety of vehicles and equipment across a wide range of industries.

China Standard Brush Cutter Part Diameter 8 mm Drive Shaft Brushcutter Spare Part  China Standard Brush Cutter Part Diameter 8 mm Drive Shaft Brushcutter Spare Part
editor by CX 2024-04-08

Pto driveshaft

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