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Series 90 axial piston variable displacement pumps are of cradle swash plate design with variable displacement, and are intended for closed circuit applications. The flow rate is proportional to the pump input speed and displacement. The latter is infinitely adjustable between zero and maximum displacement. Flow direction is reversed by tilting the swash plate to the opposite side of the neutral (zero displacement) position.
Sauer 90 Series Hydraulic Piston Pump Feature
1.The Series 90 - Advanced Technology Today ;
2. 8 Sizes of Variable Displacement Pumps ;
3. Complete Family of Control SystemsProven Reliability and Performance ;
4. Product Configurations ;
5. Compact and Lightweight.
Table of values (theoretical values, without efficiency and tolerances; values rounded)
Sauer 90 |
Dimension | 90R030 90L030 |
90R042 90L042 |
90R055 90L055 |
90R075 90L075 |
90R100 90L100 |
90R130 90L130 |
90R180 90L180 |
90R250 90L250 |
|
Displacement | cm3 | 30 | 42 | 55 | 75 | 100 | 130 | 180 | 250 | |
in3 | 1.83 | 2.56 | 3.35 | 4.57 | 6.1 | 7.93 | 10.98 | 15.25 | ||
Input speed | Minimum | min-1 (rpm) | 500 | 500 | 500 | 500 | 500 | 500 | 500 | 500 |
Rated | min-1 (rpm) | 4 200 | 4 200 | 3 900 | 3 600 | 3 300 | 3 100 | 2 600 | 2 300 | |
Maximum | min-1 (rpm) | 4 600 | 4 600 | 4 250 | 3 950 | 3 650 | 3 400 | 2 850 | 2 500 | |
Max. Attainable | min-1 (rpm) | 5 000 | 5 000 | 4 700 | 4 300 | 4 000 | 3 700 | 3 150 | 2 750 | |
Theoretical | Nm/bar | 0.48 | 0.67 | 0.88 | 1.19 | 1.59 | 2.07 | 2.87 | 3.97 | |
Torque | in lb/1000 psi | 290 | 410 | 530 | 730 | 970 | 1 260 | 1 750 | 2 433 | |
Mass moment of inertia of the int. rotating parts | kg m2 | 0.0023 | 0.0039 | 0.006 | 0.0096 | 0.015 | 0.023 | 0.038 | 0.065 | |
lb • ft2 | 0.0546 | 0.0926 | 0.1424 | 0.228 | 0.356 | 0.546 | 0.902 | 1.543 | ||
Weight (with MA Control) | kg | 28 | 34 | 40 | 49 | 68 | 88 | 136 | 154 | |
lb | 62 | 75 | 88 | 108 | 150 | 195 | 300 | 340 |
Controls - Circuit Diagram, Nomenclature and Description, 3-Position (FNR) Electric Control, Options DC, DD
The 3-Position (FNR) control uses an electric input signal to switch the pump to a full stroke position.A range of orifice sizes is available for the Series 90 Electric Displacement Control to assist in matching the rate of swash plate response to the acceleration and deceleration requirements of the application. Testing should be carried out to determine the proper orifice selection for the desired response.
Electric Displacement Control (EDC), Options KA, KP
The electric displacement control uses an electro-hydraulic Pressure Control Pilot valve to control the pilot pressure. The Pressure Control Pilot valve converts an electrical input signal to a hydraulic input signal to operate a 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 control has a mechanical feedback mechanism which moves the servo valve in relation to the input signal and the angular position of the swash plate. The electrical displacement control is designed so the angular rotation of the swash plate (pump displacement) is proportional to the electrical input signal. Due to normal operating force changes, the swash plate tends to drift from the position preset by the machine operator. Drift, sensed by 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), Option HF
The hydraulic displacement control uses a hydraulic input signal to operate a 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 control has a mechanical feedback mechanism which moves the servo valve in relation to the input signal and the angular rotation of the swash plate. The hydraulic displacement control is designed so the angular position of the swash plate (pump displacement) is proportional to the hydraulic input signal pressure. Due to normal operating force changes, the swash plate tends to drift from the position preset by the machine operator. Drift, sensed by 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.
Manual Displacement Control (MDC), Options MA, MB
The manual displacement control device converts a mechanical input signal to a hydraulic signal that tilts the cradle swash plate through an angular rotation varying the pump's displacement from full displacement in one direction to full displacement in the opposite direction. The manual displacement control has a mechanical feedback mechanism which moves a servo valve in the proper relationship to the input signal and the angular position of the swash plate. The manual displacement control is designed so that the angular rotation of the swash plate is proportional to the mechanical input signal. The control is designed with an internal override mechanism which allows the mechanical input to be moved at a faster rate than the movement of the swash plate without damage to the control.
Non-linear Manual Displacement Control (MDC), Option NA
The manual displacement control device converts a mechanical input signal to a hydraulic signal that tilts the cradle swash plate through an angular rotation varying the pump's displacement from full displacement in one direction to full displacement in the opposite direction. The manual displacement control has a mechanical feedback mechanism which moves a servo valve in the proper relationship to the input signal and the angular position of the swash plate. The manual displacement control is designed so that the angular rotation of the swash plate is progressive to the mechanical input signal. The control is designed with an internal override mechanism which allows the mechanical input to be moved at a faster rate than the movement of the swash plate without damage to the control.
Sauer 90 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.