China factory CHINAMFG CHINAMFG XCEL XL6 Series Hydraulic Orbital Motor for Ship and Port Machinery vacuum pump oil near me

Product Description


Product Description

• Proven orbit motor principle
• Hydrodynamic journal bearings
• Three moving components (Gerotor-star, drive, and shaft)
• Three -zone pressure design
• Optimized drive running angle
• Variety of displacements and shafts
• Designed for medium and low duty

• Compact, powerful package
• High efficiency
• Design flexibility
• Economically tailored solutions
• Long bearing life (at rated loads)

Product Parameters


Detailed Photos

After Sales Service


How soon the parts supply?
We won’t guarantee you that all parts can be within 3 days or 7 days. That’s not realistic for some special parts.
For exapmple, For some normal parts, we can do that within 1 day. But for special parts, could be 2 weeks.
We don’t talk big but actions speak louder than words. We will try our best to shorten the delivery time by any means.

Maintenance technical support.
All of equipment are with elaborate spare part catalogue, service manual, maintenance manual. Easy to understand.
Our 7*24 service hour will be with you and our high sense of responsibility as well.

Is OEM structural component service available?
YES, but this scope of business is not our main business. Just to provide multiple service to meet different demand from our customers and we won’t take much profit on that as not every business will win. 

What other service you can provide?
One stop service from:
· product,
· shipping,
. marketing,
. to customer,
· After-sales service,
· Spare parts supply, 
· Training.
A closed loop service for you.



What You Have?
We are the solution provider for hydraulic spare parts. Such as:
Hydraulic Proportional Valve,
Hydraulic Piston Pump,
Hydraulic Vane Pump,
Hydraulic Piston Motor,
Hydraulic Cartridge Valve,
Hydraulic Orbital Motor,
Hydraulic Gear Pump and Motor,
Hydraulic Pump Parts,
Hydraulic Control Valve Series…

I want to buy your products, how can I pay?
You can pay via T/T , WEST UNION or other payment terms we reach agreement.

What’s MOQ?
MOQ is 1 unit. But in this way, be aware of the possible high local charging.

What is the lead time?
For this product, normally 3 days,3 days and lead time is calculated from the day we receive your deposit.
Exact time is determined by factory schedule.


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Certification: ISO9001
Excitation Mode: SACS
Power Rating: 2500W
Casing Protection: Open Type
Number of Poles: 2
Speed: Low Speed


hydraulic motor

What types of hydraulic motors are commonly used, and how do they differ in terms of design and functionality?

Several types of hydraulic motors are commonly used in various applications, each with its own design and functionality. Here’s an overview of the most commonly used types of hydraulic motors:

  • Gear Motors: Gear motors utilize intermeshing gears to convert hydraulic energy into mechanical energy. They are compact and efficient, making them suitable for applications requiring high torque at low speeds. Gear motors are commonly used in winches, conveyors, and other industrial machinery.
  • Piston Motors: Piston motors utilize reciprocating pistons to generate rotational motion. They can be further classified into axial piston motors and radial piston motors. Axial piston motors have pistons arranged in a circular pattern around a central shaft, while radial piston motors have pistons arranged radially around a cylindrical block. Piston motors offer high torque and are commonly used in heavy machinery, construction equipment, and automotive applications.
  • Vane Motors: Vane motors use sliding vanes to convert hydraulic energy into mechanical energy. The vanes are pushed against the housing by the hydraulic fluid, creating contact and generating rotational motion. Vane motors are known for their smooth operation, high efficiency, and compact design. They are commonly used in industrial automation, material handling equipment, and agricultural machinery.
  • Radial Piston Motors: Radial piston motors have pistons arranged radially around a central drive shaft. The pistons are pushed outward by hydraulic pressure, generating rotational motion. These motors provide high torque and are often used in heavy-duty applications, such as mining equipment and marine propulsion systems.
  • Gerotor Motors: Gerotor motors consist of an outer rotor with inner gear teeth and an inner rotor with outer gear teeth. The hydraulic fluid flows between the two rotors, causing them to rotate and generate mechanical motion. Gerotor motors are compact and offer high torque at low speeds. They are commonly used in automotive power steering systems and certain industrial applications.

These are just a few examples of the commonly used types of hydraulic motors. Each type has its own design and functionality, allowing them to be suitable for different applications based on torque requirements, speed range, efficiency, and other factors. The choice of hydraulic motor depends on the specific needs of the application, considering factors such as torque, speed, size, and environmental conditions.

hydraulic motor

What resources are available for further learning about the principles and applications of hydraulic motors?

There are several resources available for individuals interested in further learning about the principles and applications of hydraulic motors. Here are some valuable sources:

  • Books and Publications: Numerous books and publications cover hydraulic systems and components, including hydraulic motors. Some recommended titles include “Industrial Hydraulics Manual” by Eaton, “Hydraulic Control Systems” by Noah Manring, and “Fluid Power Basics” by Jay F. Hooper. These resources provide in-depth explanations of hydraulic principles, components, and applications.
  • Online Courses and Tutorials: Online learning platforms offer courses and tutorials specifically focused on hydraulic systems and components. Websites like Udemy, Coursera, and LinkedIn Learning offer a variety of courses that cover hydraulic principles, motor operation, maintenance, and troubleshooting. These courses often include video lectures, interactive quizzes, and practical exercises to enhance learning.
  • Manufacturer and Supplier Websites: Many hydraulic motor manufacturers and suppliers provide educational resources on their websites. These resources can include technical specifications, application guides, whitepapers, and instructional videos. Examples of such manufacturers and suppliers include Eaton, Parker Hannifin, and Bosch Rexroth. Exploring their websites can provide valuable insights into hydraulic motor principles and applications.
  • Industry Associations and Forums: Industry associations and online forums related to fluid power and hydraulics can be excellent resources for further learning. Associations such as the National Fluid Power Association (NFPA) and the International Fluid Power Society (IFPS) often provide educational materials, webinars, and conferences focused on hydraulic systems. Online forums like Hydraulic & Pneumatic and Eng-Tips Fluid Power Engineering Forum allow individuals to ask questions, share knowledge, and engage in discussions with industry professionals.
  • Technical Documentation and Standards: Technical documentation, such as manuals and catalogs, provided by hydraulic motor manufacturers can offer detailed information about the principles, specifications, and applications of their products. Additionally, international standards organizations like ISO (International Organization for Standardization) and SAE (Society of Automotive Engineers) publish technical standards and guidelines related to hydraulic systems that can provide valuable insights.

By utilizing these resources, individuals can deepen their understanding of hydraulic motor principles, explore various applications, and stay updated with the latest advancements in the field. It is recommended to combine multiple sources and approaches to gain a comprehensive understanding of hydraulic motors.

hydraulic motor

How does the displacement of a hydraulic motor affect its speed and torque characteristics?

The displacement of a hydraulic motor plays a significant role in determining its speed and torque characteristics. The displacement refers to the volume of hydraulic fluid that the motor can displace in a single rotation or reciprocating cycle. Here’s a detailed explanation of how the displacement affects the speed and torque characteristics:

  • Speed: The displacement of a hydraulic motor is directly related to its rotational speed. Generally, a larger displacement motor will have a higher maximum speed. This is because a larger displacement motor can displace more hydraulic fluid per rotation, allowing for faster movement and higher rotational speeds.
  • Torque: The displacement of a hydraulic motor also affects its torque output. A larger displacement motor typically generates higher torque values. This is because the larger volume of hydraulic fluid being displaced results in more force being applied to the motor’s output shaft, leading to increased torque. As a result, a motor with a larger displacement can provide greater pulling, lifting, or pushing force.
  • Speed-Torque Relationship: The displacement of a hydraulic motor influences the speed-torque relationship. In general, hydraulic motors exhibit an inverse relationship between speed and torque. As the speed increases, the torque output decreases, and vice versa. However, the specific speed-torque characteristics can vary depending on the motor design and type.
  • Varying Displacement for Speed and Torque Control: Some hydraulic motors offer variable displacement capabilities. By adjusting the displacement, operators can control both the speed and torque output of the motor. Increasing the displacement can result in higher speeds but lower torque, while decreasing the displacement can provide higher torque at the expense of speed. This feature allows for flexibility and adaptability in different applications.
  • Efficiency Considerations: It’s important to note that the displacement of a hydraulic motor can impact its overall efficiency. Generally, larger displacement motors tend to have higher volumetric losses and lower overall efficiency compared to smaller displacement motors. However, advancements in motor design and technologies have helped to improve the efficiency of hydraulic motors across a wide range of displacements.

In summary, the displacement of a hydraulic motor directly influences its speed and torque characteristics. A larger displacement motor typically offers higher maximum speed and greater torque output. Understanding the relationship between displacement, speed, and torque is crucial in selecting the appropriate hydraulic motor for specific applications, considering the desired balance between speed, torque, and efficiency.

China factory CHINAMFG CHINAMFG XCEL XL6 Series Hydraulic Orbital Motor for Ship and Port Machinery   vacuum pump oil near me		China factory CHINAMFG CHINAMFG XCEL XL6 Series Hydraulic Orbital Motor for Ship and Port Machinery   vacuum pump oil near me
editor by CX 2024-04-04