Customization: | Available |
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Type: | Plunger Pump |
Model: | MPV Hydraulic Pump |
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MPV series hydraulic pump is an efficient and reliable hydraulic transmission device, commonly used in industrial, construction and agricultural machinery and other fields. It belongs to the plunger hydraulic pump type, usually with high working pressure and good durability, suitable for occasions requiring high performance and long-term stable operation.
Sauer MPV046 Series Hydraulic Piston Pump Feature
1.High efficiency: Due to the axial piston design, the MPV046 hydraulic pump has high mechanical and volumetric efficiency, and can provide stable flow and pressure output.
2. Working pressure: It usually supports working pressures up to 250~350 bar (or higher), and can adapt to high-pressure working environments.
3. Flow control: This model of hydraulic pump supports two working modes: variable displacement and constant displacement. The flow can be adjusted according to system requirements to improve the working efficiency of the equipment.
4. Compact structure: The MPV046 hydraulic pump has a compact design, which can save installation space and is suitable for installation in equipment with limited space.
5. Strong durability: It adopts high-strength materials and precision manufacturing processes, has a long service life, and can maintain good performance in harsh working environments.
6. Wide application: It is commonly used in systems that require hydraulic transmission, such as lifting equipment, construction machinery (such as excavators, bulldozers), agricultural machinery, injection molding machines, etc.
7. Optional accessories and accessories: It can be equipped with different control valves, sensors and cooling devices according to different application requirements to further enhance the performance and adaptability of the pump.
Technical Data
Table of values (theoretical values, without efficiency and tolerances; values rounded)
Model | MPV25 | MPV35 | MPV44 | MPV46 | MPT25 | MPT35 | MPT44 | MPT46 | |
Pump Configuration | Single Variable Pump | Tandem Variable Pump | |||||||
Displacement cm3/rev (in3/rev) | 24.6 (1.50) |
35.0 (2.14) |
43.5 (2.65) |
46.0 (2.81) |
24.6 x 2 (1.50 x 2) |
35.0 x 2 (2.14 x 2) |
43.5 x 2 (2.65 x 2) |
46.0 x 2 (2.81 x 2) |
|
Moment of Inertia kgm2 (lbft2) |
0.0018 (0.043) |
0.0031 (0.072) |
0.0030 (0.071) |
0.0050 (0.120) |
0.0037 (0.088) |
0.0061 (0.145) |
0.0060 (0.140) |
0.0100 (0.240) |
|
Mounting (SAE flange) | SAE "B" | SAE "B" | SAE "B" | SAE "B" | SAE "B" | SAE "B" | SAE "B" | SAE "B" | |
Port Connections | Twin | Twin | Twin | Twin | Twin | Twin | Twin | Twin | |
Integral Charge Pump (std) cm3/rev (in3/rev) |
/ | 11.8 (0.72) |
11.8 (0.72) |
13.9 (0.85) |
/ | 16.4 (1.00) |
16.4 (1.00) |
22.9 (1.40) |
|
Charge Relief Valve bar (psi) |
14.0 (200) |
14.0 (200) |
14.0 (200) |
19.5 (285) |
14.0 (200) |
14.0 (200) |
14.0 (200) |
19.5 (285) |
|
System Pressure Regulation Settings: bar (psi) |
140-345 (2030-5000) | ||||||||
Displacement Limiters | - | - | - | Option | - | - | - | Option | |
Input Shaft Options | Splined, Tapered, or Straight Key | ||||||||
Auxiliary Mounting Pad | SAE "A" | SAE "A" SAE "B" | SAE "A" SAE "B" | SAE "A" SAE "B" | SAE "A" | SAE "A" SAE "B" | SAE "A" SAE "B" | SAE "A" SAE "B" | |
(SAE Pad per SAE J744) | |||||||||
Control Options | DDC | DDC | DDC | MDC, HDC, EDC, FNR | DDC | DDC | DDC | MDC, HDC, EDC, FNR | |
Weight kg (lb) | 19 (41.5) | 25 (55) | 25 (55) | 33 (73) | 25 (56) | 45 (99) | 45 (99) | 59 (131) |
Direct Displacement Control (DDC)
The Direct Displacement Control can be located on either side of a Series 40 - M25, M35, or M44 pump. It provides a simple, positive method of control. Movement of the control shaft causes a proportional swash plate movement, thus varying the pump's displacement from full displacement in one direction to full displacement in the opposite direction. Some applications (generally vehicle propel) will require a provision for non-linear control input to reduce control sensitivity near neutral. Damping or frictional forces may be necessary to produce desirable control feel. Neutral position is not factory set, nor is there any internal neutral return mechanism. The application must include provisions for all control linkage and neutral return functionality.
Manual Displacement Control (MDC)
The Manual Displacement Control converts a mechanical input signal to a hydraulic signal with a spring centered 4- way servo valve, and ports hydraulic pressure to either side of a double acting servo piston. The MDC provides output flow to the servo piston in proportion to the angular position of the control handle. The servo piston tilts the cradle swash plate, thus varying the pump's displacement from full displacement in one direction to full displacement in the opposite direction. Due to normal operating force changes, the swash plate tends to drift from the position preset by the machine operator. Drift, sensed by the feedback linkage system connecting the swash plate to the control valve, will activate the valve and supply pressure to the servo piston, maintaining the swash plate in its preset position.
Hydraulic Displacement Control (HDC)
The Hydraulic Displacement Control uses a hydraulic input signal to operate a spring centered 4-way servo valve, which ports hydraulic pressure to either side of a double acting servo piston. The servo piston tilts the cradle swash plate, thus varying the pump's displacement from full displacement in one direction to full displacement in the opposite direction. The HDC provides output flow in proportion to a hydraulic command signal. This allows for remote control of the machine with a hydraulic pressure source rather than with mechanical linkage. With no command signal, the control is in or will return to neutral position.
Electrical Displacement Control (EDC)
The Electrical Displacement Control is similar to the Hydraulic Displacement Control, but uses an electro-hydraulic Pressure Control Pilot (PCP) valve to control the pilot pressure. The PCP valve converts an electrical input signal to a hydraulic signal to operate a spring centered 4- way servo valve, which ports hydraulic pressure to either side of a double acting servo piston. The servo piston tilts the cradle swash plate, thus varying the pump's displacement from full displacement in one direction to full displacement
in the opposite direction. The EDC provides output flow in proportion to a DC electrical command signal (current). These controls are suited for applications where remote or automatic control of system function is required, or where closed loop feedback is needed. With no electrical command signal, the control is in or will return to the neutral position.
Other Product Recommend
Mpv series hydraulic pump are widely used in hydraulic systems of various industries such as lifting machinery, engineering machinery, metallurgy, mining, shipbuilding, forging press, etc.
Jinan Focor Machinery Co., Ltd (Hydraulic Department) established strategic cooperation with other China manufacturers, covering mining, mineral transaction, construction and agriculture machinery, spare parts and service. Not only can we export the above products, but we can also customize OEM brand products for our customers.