KR0168332B1 - Vane pump - Google Patents

Abstract

The present invention relates to a rotary vane pump, and a circuit for compensating when the vane is worn is newly constructed, and improved in volumetric efficiency and high pressure of the pump by eliminating leakage into the gap.

In the non-equilibrium vane pump, it is designed to cope with the pressure of the vane by introducing the pressure of the outlet to smooth the rotation of the rotor shaft and to form the high pressure of the vane acting at the fixed position. By forming a flow path through which the discharge port can be introduced into the housing and inserting a check valve in the flow path, high pressure is always generated and compensation for wear is achieved to improve durability of the pump and increase the pressure.

Description

Vane Pump

1 is a cross-sectional view of the vane pump according to the present invention.

2 is a longitudinal sectional view of the vane pump according to the present invention.

3 is an exemplary view showing a structure of a flow path formed in a cover according to the present invention.

4 and 5 are cross-sectional views showing the durable structure of a conventional vane pump.

* Explanation of symbols for main parts of the drawings

1 pump housing 2 rotatable shaft

3: vane 4: fixed shaft

5: ring 6: pump cover

The present invention relates to a rotary vane pump, and constitutes a hydraulic circuit for compensating for this vane when worn, and improves the high pressure while improving the volumetric efficiency of the pump by eliminating leakage into the gap caused by the vane. It is.

More specifically, in an unbalanced vane pump in which the driving shaft and the shaft of the pump are not parallel and offset, the pressure of the outlet is introduced to smooth the rotation of the rotor shaft and to form the high pressure and the wear of the vane that operates at a fixed position. It is to create a high pressure in response to the pressure of the vane, to form a flow path for introducing the discharge port in the cover or housing of the pump and to insert a check valve into the flow path to always generate a high pressure and to compensate for wear. The purpose of the present invention is to improve the durability of the pump and to increase the pressure.

Conventional rotary vane pump is composed of a housing 100, a pump cover 101, a rotatable shaft 102, a vane 103, a ring 104, as shown in Figures 4 and 5, The vane 103 reciprocates in the rotatable shaft 102 between the bush bearing 106 coupled to the shaft 105 integral with the pump cover 101 and the ring 104 coupled to the pump housing 100. And pump by rotating motion.

In the conventional rotary vane pump, two shafts having different center points are eccentrically installed to perform a constant circular motion, and a load acts on the rota shaft shaft by a pressure difference acting on the discharge port and the suction port during pump operation. It was configured to

However, the related art has a problem in that it takes up a lot of mounting space because the processing is complicated and the size is large because the hydraulic oil is sucked / discharged from the side of the housing, it is installed on the shaft and the housing fixed to the cover of the pump When one pumping action is caused by the rotational movement of the rota shaft, another contact part is formed to increase contact with the cam surface of the housing to prevent leakage of pressure. However, such a conventional pump has a discharge port during operation. The unbalanced load acts on the rota shaft by the pressure difference between the suction port and the intake port, which causes the unbalanced load on the shaft itself due to the bias of the rota shaft to one side, resulting in severe wear of the vane. As a result, it was not possible to obtain a high pressure and to end the life with the wear of the vanes in durability. It is difficult to use for a long time because of the short life.

Therefore, due to the pressure difference between the discharge port and the suction port, it has a structure in which the eccentric load acts on the rota shaft, there is no durability against vane wear, it is impossible to increase the pressure due to the vane wear, and the central axes of the vane and the rota are completely mechanical Since it is operated by the external action, the countermeasure by frictional heat should be taken. The back part of the vane is worn out by the frictional heat as above, and the gap caused by such abrasion increases, so that the hydraulic leakage occurs. As a result of the loss of the function, there is a problem such that long-term use can not be used if durability is not established.

The present invention has been devised to solve the conventional problems as described above, and constitutes a circuit for compensating for the wear of the vanes, and greatly reduces the wear rate, thereby reducing the leakage of hydraulic pressure. To improve the volumetric efficiency of the pump and to provide a rotary vane pump capable of high pressure bar, which will be described in more detail with reference to the accompanying drawings as follows.

As shown in FIG. 1 and FIG. 2, this invention is comprised from the pump housing 1, the rotatable shaft 2, the vane 3, and the fixed shaft 4, and has the structure which introduces the hydraulic pressure of an outlet.

By introducing the hydraulic pressure of the outlet to the back of the vane (3) to compensate the amount of friction due to the hydraulic pressure.

In the pump operation, the pumping action is caused by the relative movement of the rota shaft 2 and the ring 5 fixed to the housing 1 with a certain amount of eccentric rotation. At this time, a part of the hydraulic pressure discharged from the discharge port is configured to supply the hydraulic pressure to the rear part of the vane through the flow path 60 of the pump cover 6.

The check valve 61 is inserted into a part of the oil passage 60 so that the hydraulic pressure does not flow out at the time of stopping, and the hydraulic pressure is supplied to the outlet vanes 3 so that the vanes 3 are cam ring 5. The oil is supplied to the back of the vane so that it does not leak in close contact with

In addition, the hydraulic pressure supplied to the back of the vane 3 by introducing the check valve 61 always acts to prevent leakage and ensure the cooling effect.

As described above, when the discharge hydraulic pressure installed in the pump cover 6 or the housing 1 is supplied to the back of the vane 3, the amount of leakage due to the wear of the vane 3 can be minimized, so that the pressure can be increased. .

And because it provides a cooling effect by continuously supplying the hydraulic pressure has the advantage of improving the durability.

In addition, since the check valve 61 is installed in the flow path 60 to continuously increase the pressure behind the vane 3, it is possible to instantly increase the pressure and to miniaturize by changing the flow path.

As described above, the present invention has a feature of newly constructing a circuit that compensates when the vane is worn, and enables high pressure while improving the volumetric efficiency of the pump by eliminating leakage into the gap due to wear. .

Claims (2)

Comprising the pump housing (1), the rotatable shaft (2), the vanes (3) and the fixed shaft (4), the flow path (60) for supplying the hydraulic pressure at the outlet of the pump housing (1) to the back of the vanes, The check valve 61 is installed in the middle of the flow path 60, and a part of the hydraulic pressure discharged from the discharge port is supplied to the rear part of the vane through the flow path 60 to minimize leakage due to wear of the vane. A vane pump, characterized in that. The vane pump according to claim 1, wherein the discharge pressure is supplied to the back of the vane, and the vane pump is configured to increase the contact area by using two vanes and to smoothly contact the vane end.