China OEM Gft36t3b139-07 CZPT Planetary Gearboxes best automatic gearbox

Product Description

  • Make: Volvo 
  • Model: CZPT XCMG  PAVER DRIVE GEAR
  • Part No: ABG (Volvo), Gear set  80615/8822 0571
    R988/8822 0571
    R98857133 GFT60W3B86~/8822 0571
    R GFT7T2B51-01
    R98857156 GFT7T2B63-01
    R9880 0571 9 GFT80T3-185-03
    R9880 0571 6 GFT80T3B127-01 W/O MOTOR
    R988056701 GFT80T3B127-09
    R988064513 GFT80T3B127-09 W/O MOTOR
    R988006366 GFT80T3B150-01
    R988006367 GFT80T3B150-02
    R988006370 GFT80T3B185-06
    R98857127 GFT80T3B185-10
    R988049613 GFT80T3B185-10 W/O MOTOR
    R988062758 GFT80T3B185-11
    R988006374 GFT80T3B204
    R988006375 GFT80T3B77-01
    R988006551 GFT80W3B127-07
    R988006866 GFT80W3B127-14
    R988018309 GFT80W3B127-17
    R98857113 GFT80W3B127-19
    R98857163 GFT60A3B65-03
    R988006277 GFT60T3B106-03
    R9880 0571 6 GFT60T3B106-05 W/O MOTOR
    R988006284 GFT60T3B106-13
    R988006286 GFT60T3B120-06
    R GFT60T3B140-19
    R988 0571 1 GFT60T3B140-20
    R988006307 GFT60T3B170-06
    R988006308 GFT60T3B170-08
    R9880 0571 5 GFT60T3B170-12 W/O MOTOR
    R GFT60T3B64-01
    R9880 0571 4 GFT60T3B86-02
    R9880 0571 2 GFT60W3B106-06
    R9880 0571 3 GFT60W3B106-11
    R988054345 GFT60W3B106-20
    R988018532 GFT60W3B170-11
    R988007035 GFT60W3B400 W/O MOTOR
    R988006589 GFT60W3B64-01
    R988006591 GFT60W3B64-02
    R988006526 GFT60W3B64-03
    R9885711 GFT60W3B64-09
    R988054749 GFT60W3B64-10
    R988064141 GFT60W3B64-12
    R988006136 GFT24T2B19-01
    R988006137 GFT24T2B19-03
    R988006143 GFT24T3B103-07
    R988049105 GFT26T2B43-08
    R988006159 GFT26T2B51-02
    R988006160 GFT26T2B62-06
    R988006173 GFT26W2B62-06
    R988006177 GFT26W2B62-10
    R988006178 GFT26W2B62-15
    R988018533 GFT26W2B62-20
    R GFT34T2B43-01
    R988006187 GFT36T2B28-02
    R988006189 GFT36T3-131-04
    R9885719 GFT36T3-131-04 W/O MOTOR
    R988006199 GFT36T3B100-12
    R988006216 GFT36T3B139-01
    R9885712 GFT36T3B139-02 W/O MOTOR
    R988046030 GFT36T3B139-07
    R GFT36T3B67-15
    R988006228 GFT36T3B79-09
    R988006966 GFT36T3B79-09 W/O MOTOR
    R988065729 GFT36W3B100-06
    R988006244 GFT36W3B67-03
    R988017691 GFT36W3B67-16
    R988006255 GFT36W3B79-25
    R988040808 GFT36W3B79-30
    R98857110 GFT36W3B79-32
    R9885718 GFT40T2B41-04
    R98804 0571 GFT40T2B41-05
    R988006266 GFT40W2B49-01
    R988006267 GFT40W2B49-02
    R988046595 GFT40W2B59-15
    R98857123 GFT40W2B59-16
    R GFT40W2B59-17
    R GFT50T3B100-01
    R98857162 GFT50T3B177-04
    R988006274 GFT60A2B40-01
    R98805711 GFT110W3B96-09
    R988018531 GFT110W3B96-21
    R988044467 GFT110W3B96-28
    R GFT110W3B96-30
    R GFT110W3B96-34
    R98857173 GFT110W3B96-36
    R98857175 GFT110W3B96-38
    R988065817 GFT110W3B96-40
    R988017539 GFT13T2B32-01
    R988006082 GFT17T2B45-21
    R988006086 GFT17T2B45-25
    R988017334 GFT17T2B45-33
    R988006089 GFT17T2B54-04
    R988006090 GFT17T2B54-05
    R988006093 GFT17T2B54-09
    R988006886 GFT17T2B54-12 W/O MOTOR
    R98857112 GFT17T2B54-22
    R988006105 GFT17T3B78-07
    R98857124 GFT17T3B88-05
    R988006118 GFT17W2B45-15
    R988006119 GFT17W2B45-16
    R988058732 GFT17W3B78-06 W/O MOTOR
    R91605715 GFT2160E/30-AAAA0045M1-HA1/0170AS0-0CJ
    R916008231 GFT2160E/30-AAAA0045M1-HA1/0170AS0-0CJ
    R988056777 GFB26T2B52-02
    R988005877 GFB26T2B63-12
    R988005879 GFB36T2B24-04
    R988005881 GFB36T2B24-06
    R988056999 GFB36T3B101-12
    R988005909 GFB36T3B101-29
    R9885710 GFB36T3B101-30
    R9885711 GFB36T3B101-31
    R9885713 GFB36T3B101-33
    R9885717 GFB36T3B101-37
    R988006816 GFB36T3B101-38
    R98805712 GFB36T3B118-06
    R98805714 GFB36T3B118-10
    R98857185 GFB36T3B118-11
    R988048093 GFB36T3B118-12
    R98857195 GFB36T3B132-10
    R988054750 GFB36T3B132-11
    R9885711 GFB36T3B68-03
    R9885713 GFB36T3B68-05
    R988046591 GFB36T3B68-11
    R98805713 GFB36T3B80-15
    R98805715 GFB36T3B80-17
    R9880571 GFB36T3B80-17 W/O MOTOR
    R98805717 GFB40T2B49-01 /* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

    Application: Motor, Machinery, Marine, Agricultural Machinery
    Function: Distribution Power, Speed Changing, Speed Increase
    Layout: Planetary
    Hardness: Hardened Tooth Surface
    Installation: Torque Arm Type
    Step: Three-Step
    Customization:
    Available

    |

    Customized Request

planetary gearbox

Concept of Coaxial and Parallel Shaft Arrangements in Planetary Gearboxes

In planetary gearboxes, the arrangement of shafts plays a crucial role in determining the gearbox’s overall structure and functionality. The two common shaft arrangements are coaxial and parallel configurations:

Coaxial Shaft Arrangement: In a coaxial arrangement, the input shaft and output shaft are positioned along the same axis, resulting in a compact and streamlined design. The planetary gears and other components are aligned concentrically around the central axis, allowing for efficient power transmission and reduced space requirements. Coaxial planetary gearboxes are commonly used in applications where space is limited, and a compact form factor is essential. They are often employed in robotics, automotive systems, and aerospace mechanisms.

Parallel Shaft Arrangement: In a parallel arrangement, the input and output shafts are positioned parallel to each other but on different axes. The planetary gears are aligned in a way that allows the power to be transmitted from the input shaft to the output shaft via a combination of meshing gears. This arrangement allows for a larger gear diameter and higher torque transmission capabilities. Parallel planetary gearboxes are often used in applications requiring high torque and heavy-duty performance, such as industrial machinery, construction equipment, and material handling systems.

The choice between coaxial and parallel shaft arrangements depends on the specific requirements of the application. Coaxial configurations are favored for compactness and efficient power transmission, while parallel configurations excel in handling higher torque and heavy loads. Both arrangements offer distinct advantages and are chosen based on factors like available space, torque demands, load characteristics, and overall system design.

planetary gearbox

Considerations for Selecting Size and Gear Materials in Planetary Gearboxes

Choosing the appropriate size and gear materials for a planetary gearbox is crucial for optimal performance and reliability. Here are the key considerations:

1. Load and Torque Requirements: Evaluate the anticipated load and torque that the gearbox will experience in the application. Select a gearbox size that can handle the maximum load without exceeding its capacity, ensuring reliable and durable operation.

2. Gear Ratio: Determine the required gear ratio to achieve the desired output speed and torque. Different gear ratios are achieved by varying the number of teeth on the gears. Select a gearbox with a suitable gear ratio for your application’s requirements.

3. Efficiency: Consider the efficiency of the gearbox, which is influenced by factors such as gear meshing, bearing losses, and lubrication. A higher efficiency gearbox minimizes energy losses and improves overall system performance.

4. Space Constraints: Evaluate the available space for installing the gearbox. Planetary gearboxes offer compact designs, but it’s essential to ensure that the selected size fits within the available area, especially in applications with limited space.

5. Material Selection: Choose suitable gear materials based on factors like load, speed, and operating conditions. High-quality materials, such as hardened steel or specialized alloys, enhance gear strength, durability, and resistance to wear and fatigue.

6. Lubrication: Proper lubrication is critical for reducing friction and wear in the gearbox. Consider the lubrication requirements of the selected gear materials and ensure the gearbox is designed for efficient lubricant distribution and maintenance.

7. Environmental Conditions: Assess the environmental conditions in which the gearbox will operate. Factors such as temperature, humidity, and exposure to contaminants can impact gear material performance. Choose materials that can withstand the operating environment.

8. Noise and Vibration: Gear material selection can influence noise and vibration levels. Some materials are more adept at dampening vibrations and reducing noise, which is essential for applications where quiet operation is crucial.

9. Cost: Consider the budget for the gearbox and balance the cost of materials, manufacturing, and performance requirements. While high-quality materials may increase initial costs, they can lead to longer gearbox lifespan and reduced maintenance expenses.

10. Manufacturer’s Recommendations: Consult with gearbox manufacturers or experts for guidance on selecting the appropriate size and gear materials. They can provide insights based on their experience and knowledge of various applications.

Ultimately, the proper selection of size and gear materials is vital for achieving reliable, efficient, and long-lasting performance in planetary gearboxes. Taking into account load, gear ratio, materials, lubrication, and other factors ensures the gearbox meets the specific needs of the application.

planetary gearbox

Factors to Consider When Selecting a Planetary Gearbox

Choosing the right planetary gearbox for a specific application involves considering various factors to ensure optimal performance and compatibility. Here are the key factors to keep in mind:

  • Load Requirements: Determine the torque and speed requirements of your application. Planetary gearboxes offer different torque and speed ratios, so selecting the appropriate gearbox with the right load capacity is crucial.
  • Ratio: Evaluate the gear reduction ratio needed to achieve the desired output speed and torque. Planetary gearboxes come in various gear ratios, allowing you to customize the output characteristics.
  • Efficiency: Consider the gearbox’s efficiency, as it affects energy consumption and heat generation. Higher efficiency gearboxes minimize power losses during transmission.
  • Size and Compactness: Planetary gearboxes are known for their compact size, but it’s essential to choose a size that fits within the available space while meeting performance requirements.
  • Mounting Configuration: Determine how the gearbox will be mounted in your application. Planetary gearboxes can have different mounting options, including flange, shaft, or foot mountings.
  • Input and Output Types: Select the appropriate input and output shaft configurations, such as male, female, keyed, splined, or hollow shafts, to ensure compatibility with your equipment.
  • Environment: Consider the operating environment, including temperature, humidity, dust, and potential exposure to chemicals. Choose a gearbox with appropriate seals and materials to withstand the conditions.
  • Accuracy: Some applications require precise motion control. If accuracy is essential, choose a gearbox with minimal backlash and high gear mesh quality.
  • Service Life and Reliability: Evaluate the gearbox’s expected service life and reliability based on the manufacturer’s specifications. Choose a reputable manufacturer known for producing reliable products.
  • Backlash: Backlash is the play between gears that can affect positioning accuracy. Depending on your application, you might need a gearbox with low backlash or a method to compensate for it.
  • Budget: Consider your budget constraints while balancing performance requirements. Sometimes, investing in a higher-quality gearbox upfront can lead to long-term cost savings through reduced maintenance and downtime.

By carefully considering these factors and consulting with gearbox manufacturers or experts, you can select a planetary gearbox that best meets the unique demands of your application.

China OEM Gft36t3b139-07 CZPT Planetary Gearboxes   best automatic gearbox	China OEM Gft36t3b139-07 CZPT Planetary Gearboxes   best automatic gearbox
editor by CX 2024-01-09