China wholesaler Hydraulic Pumps Drive System Splitter Gearboxes Multiple Power Take-off Units for Sale cycloidal gearbox

Product Description

The Pump Drives (Hydraulic pump Drives) is a gearbox allowing the connection between a prime mover (internal combustion engine or electric motor for example) and 1 or more hydraulic pumps. Usually it is used on both stationary and mobile application where mechanical power must be converted into hydraulic power for the purpose of operating travel functions and services.

The hydraulic pumps drives gearboxes consist of a gear drive inside a CHINAMFG housing that connects to a gasoline or diesel engine. The opposite side contains 1 or more standard 2- or 4-bolt flanges for mounting hydraulic pumps. This configuration provides several benefits. For one, 2 or more identical pumps can be connected to provide nearly identical hydraulic output flow from each. Or different sized pumps can be used provide output flow proportional to the displacement of each pump.These gearboxes not only saves space and weight but also eliminates the number of components and reduces assembly time for the whole machinery. Our modular pump drives could allow driving 2 to 4 pumps simultaneously. This not only offers design flexibility, but can boost system efficiency as well.

Model 2 pumps drive 3 pumps drive 4 pumps drive
Parameter KK190-2N KK400-2N KK530-2N KK700-2N KK280-3N KK400-3N KK530-3N KK700-3N KK530-4N KK700-4N
Max. Input power (KW) 190 400 530 700 280 400 530 700 530 700
Max. Output power per pump pad (KW) 110 210 270 360 150 210 270 360 270 330
Max. Output torque per pump pad (Nm) 400 900 1500 1900 800 900 1500 1900 1500 1800
Max. Input speed (RPM) 2800 2600 2600 2400 2800 2600 2600 2400 2600 2400
Max. Output speed (RPM) 3200 2800 2800 2700 3200 2800 2800 2700 2800 2700
Transmission ratio 0.74/0.81/0.89/0.98··· 0.67/0.74/0.81/0.89/0.98··· 0.67/0.74/0.81/0.89/0.98··· 0.67/0.74/0.81/0.89/0.98··· 0.74/0.81/0.89/0.98··· 0.67/0.74/0.81/0.89/0.98··· 0.67/0.74/0.81/0.89/0.98··· 0.67/0.74/0.81/0.89/0.98··· 0.67/0.74/0.81/0.89/0.98··· 0.67/0.74/0.81/0.89/0.98···
Mount size of Prime mover SAE #3 #4 etc. SAE #2 #3 etc. SAE #1 #2 #3 etc. SAE #0 #1 #2  etc. SAE #3 #4 etc. SAE #2 #3 etc. SAE #1 #2 #3 etc. SAE #0 #1 #2  etc. SAE #1 #2 #3 etc. SAE #1 #2  etc.
Port size of Single pump SAE A,B,C flange etc. SAE A,B,C,D flange etc. SAE B,C,D,E flange etc. SAE C,D,E flange etc. SAE A,B,C flange etc. SAE A,B,C,D flange etc. SAE B,C,D,E flange etc. SAE C,D,E flange etc. SAE B,C,D,E flange etc. SAE B C,D flange etc.
Housing material Cast iron Cast iron Cast iron Cast iron Cast iron Cast iron Cast iron Cast iron Cast iron Cast iron

Application: Machinery, Agricultural Machinery
Function: Distribution Power, Speed Changing, Speed Reduction, Speed Increase
Installation: Horizontal Type
Type: Cylindrical Gear Box
Output Power Kw: 110-330
Housing Material: Cast Iron
Samples:
US$ 4990/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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Customized Request

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Proper Installation and Alignment of Miter Gearboxes

Installing and aligning a miter gearbox correctly is essential to ensure its optimal performance and longevity. Follow these steps to achieve proper installation and alignment:

  1. Preparation: Gather all necessary tools and equipment for the installation, including mounting hardware, shims, and alignment tools.
  2. Mounting Surface: Ensure that the mounting surface is clean, flat, and free from any debris or contaminants that could affect the gearbox’s alignment and operation.
  3. Alignment Tools: Use precision alignment tools, such as dial indicators or laser alignment systems, to accurately measure and adjust the alignment of the gearbox and its input and output shafts.
  4. Check for Parallelism: Align the input and output shafts of the gearbox to be parallel to each other and perpendicular to the mounting surface. This step is crucial to prevent misalignment-induced wear and reduce backlash.
  5. Adjustment: Use shims or other adjustable components to fine-tune the alignment. Make incremental adjustments while continuously checking the alignment with the chosen alignment tools.
  6. Bearing Loads: Ensure that the bearings supporting the gearbox shafts are properly lubricated and preloaded according to the manufacturer’s recommendations. Proper bearing preload helps maintain alignment and reduces wear.
  7. Tightening Bolts: Tighten the mounting bolts gradually and evenly to avoid introducing additional misalignment during the installation process.
  8. Runout and Clearance: Check for any runout or clearance issues during rotation by turning the input shaft. If there is any binding, interference, or abnormal noise, investigate and address the cause before finalizing the installation.
  9. Final Checks: Double-check the alignment using the alignment tools and ensure that the gearbox operates smoothly without any unusual vibrations, noises, or resistance.
  10. Documentation: Keep a record of the alignment measurements and adjustments made during the installation process. This documentation can be valuable for future reference and maintenance.

Proper installation and alignment of miter gearboxes help optimize their performance, minimize wear and tear, and contribute to the overall efficiency and reliability of the mechanical system in which they are used.

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Differences Between Miter Gearboxes and Other Types of Gearboxes

Miter gearboxes possess distinct characteristics that differentiate them from other types of gearboxes, such as helical, spur, and planetary gearboxes. These differences contribute to their unique capabilities and suitability for specific applications:

  • Gear Arrangement: Miter gearboxes utilize bevel gears that intersect at a 90-degree angle. In contrast, helical and spur gearboxes use parallel or co-planar gear arrangements, and planetary gearboxes feature multiple gears arranged around a central sun gear.
  • Motion Direction Change: Miter gearboxes excel at changing the direction of rotational motion by 90 degrees. Other gearboxes may change motion direction by different angles or maintain the same direction.
  • Compactness: Miter gearboxes are known for their compact design, making them suitable for applications with limited space. Planetary gearboxes, while compact, have a different internal structure.
  • Backlash Control: Miter gearboxes are designed to minimize backlash and ensure accurate motion transfer. Helical and spur gearboxes may have more backlash due to their gear arrangement, while planetary gearboxes can provide good backlash control.
  • Torque and Speed: Different gearboxes vary in their torque and speed capabilities. Miter gearboxes are suitable for moderate torque and speed applications, while planetary gearboxes offer high torque density.
  • Applications: Miter gearboxes are commonly used for applications requiring 90-degree changes in motion direction, such as conveyor systems, printing machinery, and some types of industrial equipment. Helical and spur gearboxes are prevalent in various machinery and equipment. Planetary gearboxes find use in robotics, aerospace, and heavy machinery.

Each type of gearbox has its own advantages and is chosen based on the specific requirements of the application, including space constraints, motion control precision, torque, and speed needs.

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Miter Gearbox: Function and Mechanism

A miter gearbox, also known as a bevel gearbox or angle gearbox, is a type of gearbox that transmits power and changes the direction of rotational motion between intersecting shafts positioned at a 90-degree angle to each other. It consists of a set of bevel gears with intersecting axes.

The function of a miter gearbox in mechanical systems is to redirect the rotational motion of input shaft(s) to output shaft(s) at a right angle. This allows for power transmission and torque conversion between two shafts that are not aligned. Miter gearboxes are particularly useful when space constraints or specific mechanical configurations require a change in the direction of motion.

The working principle of a miter gearbox involves the meshing of bevel gears. Bevel gears have conically shaped teeth that enable them to mesh smoothly at a 90-degree angle. When the input shaft rotates, the teeth of the input bevel gear engage with the teeth of the output bevel gear, causing the output shaft to rotate perpendicularly to the input shaft. The gear ratio and number of teeth on the gears determine the speed and torque conversion between the input and output shafts.

Miter gearboxes find applications in various industries, such as automotive, machinery, agriculture, and robotics, where changes in motion direction are required. They are often used in equipment that needs to transmit power around corners or in tight spaces while maintaining the desired torque and speed characteristics.

China wholesaler Hydraulic Pumps Drive System Splitter Gearboxes Multiple Power Take-off Units for Sale   cycloidal gearbox	China wholesaler Hydraulic Pumps Drive System Splitter Gearboxes Multiple Power Take-off Units for Sale   cycloidal gearbox
editor by CX 2023-09-26

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