About Hydraulic Vane Pumps
Basic Information
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Posted By:
Cassidy vanepump
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Posted:
Jun 22, 2020
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Last Updated:
Jun 22, 2020
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Description:
In a vane pump, a slotted rotor splined to the drive shaft rotates between tightly fitting side plates inside an oval or circular ring. The polished, hardened blades slide in and out of the rotor slots and follow the circular contour under the action of centrifugal force. A pump chamber is formed... moreIn a vane pump, a slotted rotor splined to the drive shaft rotates between tightly fitting side plates inside an oval or circular ring. The polished, hardened blades slide in and out of the rotor slots and follow the circular contour under the action of centrifugal force. A pump chamber is formed between the subsequent blades to transfer oil from the inlet to the outlet. As the spacing between the blades increases, a partial vacuum will be created at the entrance. As the size of the pump chamber decreases, the oil is squeezed out at the outlet.
Since the normal wear point of the hydraulic vane pump is the surface of the blade tip and ring, the blade and ring undergo special hardening and grinding. The vane pump is the only design with automatic wear compensation. As wear occurs, the blades only slip farther out of the rotor slot and continue to follow the contour of the ring. Therefore, the efficiency is always high throughout the life of the pump.
The displacement of the hydraulic vane pump depends on the width of the ring and rotor and the stroke of the cam ring. The interchangeable ring design allows the basic pump to be converted into multiple displacements. The vane pumps of balanced design are of fixed displacement. Unbalanced designs can be built in fixed displacement pumps or variable displacement pumps. If the correct oil is used to run in a clean system, the vane pump has good efficiency and durability. They cover low and medium pressure, capacity and speed ranges. The package size is small relative to the output. The vane pump is usually quiet, but it will run at high speed.
b. Unbalanced vane pump. In an unbalanced design, the shape of the cam ring is a true circle, and its center line is different from the center line of the rotor. The pump displacement depends on the eccentric distance between the rotor and the ring. The advantage of a true ring is that it can be applied to change the eccentricity and thus the displacement. The disadvantage is that the pressure imbalance at the outlet will effectively resist a small area of ​​the rotor edge, thus exerting a lateral load on the shaft. Therefore, unless very large hearing and heavy supports are used, there will be restrictions on the size of the pump.
C. Balance vane pump. In a balanced design, the pump has a fixed oval cam ring and two sets of internal ports. An evacuation chamber is formed between any two blades twice per revolution. The two inlets and outlets are 180 degrees apart. The back pressure on the rotor edge cancels each other out. Recent design improvements allow higher operating speeds and pressures, making this pump the most versatile pump in the mobile equipment field.
d. Double pump. The vane double pump is composed of two independent pump devices. Each component is contained in its own housing, which is installed in series and driven by a common shaft. Each pump also has its own inlet and outlet, which can be combined using manifolds or pipes. Two designs are provided, where two ink cartridges are housed in one main body. Sometimes an additional pump is installed at the head end to provide auxiliary flow requirements.
Dual pumps can be used to provide fluid flow for two separate circuits, or combined to meet the flow requirements of a single circuit. The delivery capacity of the combined pump will not change the maximum pressure rating of any filter element. Separate circuits require separate pressure control to limit the maximum pressure in each circuit.
A device is shown in which dual pumps are used to provide fluid flow for rapid advancement and feed of cylinders. In circuit B, two safety valves are used to control the operation of the pump. In circuit A, a safety valve and an unloading valve are used to control the pumping operation. In these two circuits, the delivery of the pump core is combined after passing through the valve. This combined flow is directed to the four-way valve and the rest of the circuit.
In circuit B, when the cylinder rod reaches and trips the pilot valve, the upper safety valve is vented. The exhaust safety valve can freely send the shaft end pump filter cartridge back to the oil tank. The maximum pressure of the control circuit of the other safety valve. The unloading valve and safety valve in circuit A perform the same operation. The outputs of the two pump boxes are combined to supply fluid for the fast-forward part of the cycle. When the output of one circuit returns to the tank, after reaching a certain point in the cycle, the other circuit completes the advance portion of the cycle. Then combine the output of the two pumps to return quickly.
e. Two-stage pump. The two-stage pump consists of two independent pump assemblies housed in a housing. The pump assembly is connected so that the flow from the outlet of one pump is internally directed to the inlet of the other pump. A single inlet and outlet are used for system connection. Structurally, the pump consists of... less
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