China best Original Ca Ca50 Ca70 Ca100 Ca140 Ca210 CB280 CB400 CB560 Hydraulic Hagglunds Motor vacuum pump adapter

Product Description

We supply full range Hagglunds Compact CA series CA50, CA70, CA100, CA140, CA210 Radial Piston Hydraulic Motor Drive, and CB series of CB280 CB400 CB560 motor. 

Feature below:
1. CA Size 50…210
2.CB size CB560
3.Capacity 1256 to 13200 cm³/rotation
4.Specific torque 20…210 Nm/bar
5.Nominal speed 85…400 rpm
6.Maximum operating pressure 350 bar. 

Hagglunds compact CA motor was designed for 1 specific purpose: to power heavy-duty applications with minimum size and weight. Its light and compact design yields a superior ratio of power to weight, Among the popular features of the Compact CA are its ability to handle shock loads and its useful through hole. These, as well as the motor’s numerous mounting options, make it a small but flexible powerhouse that provides advantages in many applications. 

 Technical for the CA motors performance data below:

Metric

Motor type

Full displacement

Max. speed

r/min

Displacement

Specific torque

Rated speed

Max. speed

Vi

ml/rev 

Ts

Nm/bar

n

rev/min

n

rev/min

P

bar

CA50-20

1256

20

340

340

315

CA50-25

1570

25

298

340

315

CA50-32

2571

32

238

340

315

CA50-40

2512

40

196

298

315

CA50-50

3140

50

170

238

315

CA70-40

2512

40

238

340

315

CA70-50

3140

50

191

272

315

CA70-60

3771

60

166

234

315

CA70-70

4400

70

153

204

315

CA100-40

2512

40

332

340

315

CA100-50

3140

50

272

340

315

CA100-64

4571

64

221

332

315

CA100-80

5571

80

187

264

315

CA100-100

6280

100

162

230

315

CA140-80

5571

80

208

289

315

CA140-100

2680

100

174

234

315

CA140-120

7543

120

153

208

315

CA140-140

8800

140

145

187

315

CA210-160

10051

160

89

128

315

CA210-180

11314

180

85

115

315

CA210-210

13200

210

72

98

315

 

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Certification: ISO9001
Speed: Low Speed
Condition: New
Transport Package: Plywood Case
Trademark: Hagglunds
Customization:
Available

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hydraulic motor

Can you explain the basic principles behind the conversion of hydraulic energy into mechanical energy in a hydraulic motor?

The conversion of hydraulic energy into mechanical energy in a hydraulic motor relies on the fundamental principles of fluid dynamics and mechanical motion. Here’s a detailed explanation of the basic principles behind this conversion:

A hydraulic motor operates by utilizing the force exerted by pressurized hydraulic fluid to generate rotational mechanical motion. The hydraulic motor consists of several key components, including a housing, an output shaft, and a rotating mechanism.

The rotating mechanism of a hydraulic motor typically comprises gears, pistons, or vanes. When pressurized hydraulic fluid enters the motor through an inlet port, it imparts force on the rotating mechanism.

In a gear-type hydraulic motor, for example, the pressurized fluid flows into a chamber containing intermeshing gears. The force of the hydraulic fluid causes the gears to rotate, generating mechanical motion. The fluid continues to flow through the motor, maintaining the rotational motion.

In a piston-type hydraulic motor, the pressurized fluid acts on pistons within a cylinder block. As the fluid pushes against the pistons, it creates a force that causes the pistons to move, resulting in rotational motion of the output shaft.

In a vane-type hydraulic motor, a set of vanes is pushed outward by the hydraulic fluid, creating contact and friction with the housing. This interaction generates the rotational motion of the output shaft.

Regardless of the specific design, the key principle behind the conversion of hydraulic energy into mechanical energy is the utilization of the force exerted by the pressurized hydraulic fluid. The fluid’s pressure acts on the internal components of the hydraulic motor, causing them to move and generate rotational motion.

It’s important to note that hydraulic motors operate based on the incompressibility of hydraulic fluids. Unlike gases, hydraulic fluids are nearly incompressible, allowing them to transmit force effectively. The continuous flow of pressurized fluid through the motor ensures that the mechanical motion is sustained.

The conversion of hydraulic energy into mechanical energy in a hydraulic motor offers several advantages, such as high torque output, precise control, and the ability to operate in harsh environments. These characteristics make hydraulic motors suitable for a wide range of applications in various industries.

hydraulic motor

What safety precautions should be taken when working with hydraulic motors?

Working with hydraulic motors involves potential hazards, and it’s important to follow safety precautions to ensure the well-being of personnel and prevent accidents. Here are some essential safety precautions to consider:

  • Training: Ensure that individuals working with hydraulic motors have received proper training on their operation, maintenance, and safety protocols. Familiarize yourself with the specific hydraulic motor model and any associated safety guidelines provided by the manufacturer.
  • Protective Equipment: Wear appropriate personal protective equipment (PPE) when working with hydraulic motors. This may include safety glasses, gloves, steel-toed boots, and protective clothing. PPE helps protect against potential hazards such as fluid leaks, flying debris, or accidental contact with moving parts.
  • Hydraulic Fluid Handling: Handle hydraulic fluid with care. Avoid direct contact with the skin or eyes, as hydraulic fluids can be harmful. In case of contact, promptly wash the affected area with soap and water. Follow proper procedures for storing, handling, and disposing of hydraulic fluids as per local regulations.
  • Pressure Release: Before performing any maintenance or repair tasks on the hydraulic motor or associated components, release the pressure in the system. Follow proper lockout/tagout procedures to isolate the hydraulic system from its power source and relieve any residual pressure. This helps prevent sudden movements or unexpected releases of stored energy.
  • Leak Inspection: Regularly inspect the hydraulic motor and associated connections for any signs of fluid leaks. If a leak is detected, address it promptly by shutting down the system and repairing or replacing the affected components. Leaking hydraulic fluid can create slippery surfaces, leading to slip and fall hazards.
  • Mechanical Hazards: Be cautious of moving parts and rotating components when the hydraulic motor is in operation. Keep hands, clothing, and tools clear of the motor’s moving parts to avoid entanglement or injury. Do not reach into or bypass safety guards or protective covers.
  • Proper Tools: Use the appropriate tools and equipment when working with hydraulic motors. Ensure that tools are in good condition and suitable for the task at hand. Improper tools or using excessive force can lead to accidents or damage to the motor.
  • System Integrity: Maintain the integrity of the hydraulic system by regularly inspecting hoses, fittings, and seals for any signs of wear, damage, or deterioration. Ensure that all components are properly tightened and secure. Address any issues promptly to prevent potential failures or leaks.
  • Emergency Preparedness: Be prepared for potential emergencies. Know the location of emergency shutdown switches, fire extinguishers, and first aid kits in the vicinity of the hydraulic motor. Establish emergency response protocols and ensure that personnel are trained in first aid and emergency procedures.

By adhering to these safety precautions, individuals can minimize the risks associated with working with hydraulic motors and maintain a safe working environment.

hydraulic motor

Can hydraulic motors be used in mobile applications, such as construction equipment and vehicles?

Yes, hydraulic motors are commonly used in mobile applications, including construction equipment and vehicles. The unique characteristics of hydraulic systems make them well-suited for these demanding environments. Here’s a detailed explanation:

Mobile applications such as construction equipment, agricultural machinery, mining vehicles, and material handling equipment often require high power density, precise control, and the ability to handle heavy loads. Hydraulic motors offer several advantages that make them an excellent choice for these applications:

  • High Power Density: Hydraulic motors provide high power density, allowing for compact designs without compromising on power output. This is particularly beneficial in mobile applications where space is limited, and weight restrictions apply.
  • High Torque Output: Hydraulic motors can deliver high torque even at low speeds, making them well-suited for applications that require substantial pulling or lifting force. Construction equipment, such as excavators and bulldozers, often rely on hydraulic motors to provide the necessary torque for digging, pushing, and other heavy-duty tasks.
  • Precise Control: Hydraulic systems offer precise control over speed, direction, and torque. This level of control is crucial in mobile applications that require maneuverability, such as steering systems in construction equipment and vehicles. Hydraulic motors enable operators to have fine control over the equipment’s movement and perform tasks with accuracy.
  • Flexibility: Hydraulic systems can be easily integrated into various mobile applications due to their flexible design and compatibility with different types of machinery. Hydraulic motors can be tailored to specific requirements and easily adapted to different operating conditions.
  • Durability and Robustness: Mobile applications, such as construction and mining, often involve harsh environments with high loads, vibrations, and impacts. Hydraulic motors are known for their durability and ability to withstand such rugged conditions. They are designed to operate reliably in challenging environments and can withstand heavy usage over an extended period.
  • Overload Protection: Hydraulic systems provide inherent overload protection. In mobile applications, sudden changes in load or unexpected events can occur. Hydraulic motors can handle these variations and provide overload protection by absorbing and dissipating excess energy, preventing damage to the motor and other components.

Due to these advantages, hydraulic motors are extensively used in various mobile applications, including construction equipment, agricultural machinery, mining vehicles, and material handling equipment. They provide the necessary power, control, and durability to perform demanding tasks in these environments.

China best Original Ca Ca50 Ca70 Ca100 Ca140 Ca210 CB280 CB400 CB560 Hydraulic Hagglunds Motor   vacuum pump adapter	China best Original Ca Ca50 Ca70 Ca100 Ca140 Ca210 CB280 CB400 CB560 Hydraulic Hagglunds Motor   vacuum pump adapter
editor by CX 2024-04-09