KR200264481Y1 - dump system of hydrauric pump - Google Patents

Abstract

The present invention relates to a hydraulic pump, and more specifically, it is characterized in that it is possible to control the flow rate of the main discharge path in which high pressure is formed as low pressure oil in a hydraulic pump in which low pressure and high pressure are simultaneously generated. The present invention, and the auxiliary piston 200 is formed on one side of the low pressure side flow path; One end is formed in contact with the end of the auxiliary piston and is rotatably supported near the other end to control the check valve which is rotated in accordance with the rising and falling of the low pressure piston to be formed in the flow passage from the main discharge path to the oil tank. A pressing member 300; The relief valve 400 is in communication with the low pressure side flow path in which the auxiliary piston is formed and the coupling is released and the oil in the low pressure side flow path is introduced into the oil tank when a predetermined pressure or more occurs. It is configured to operate the pressurizing member with a small force of the low pressure side flow passage to return a part of the oil supplied to the main discharge passage to the oil tank, which has the advantage of miniaturizing the size of the hydraulic pump. It relates to a dump system of a hydraulic pump.

Description

Dump system of hydrauric pump

The present invention relates to a hydraulic pump and configured to control high pressure oil with a small force, and in particular, when a certain load abnormality occurs, a pressurizing member formed from the low pressure side flow path opens the main discharge path of the working oil to supply the working oil to the oil tank. To be discharged directly.

The pressing member is applied to the principle of the lever to achieve a structure that can be operated by a very small pressure compared to the high pressure generated in the main discharge path.

Hydraulic pumps are divided into low pressure pumps and high pressure pumps. Low pressure pumps are configured to allow high speed operation by increasing the discharge amount of oil, and high pressure pumps are configured to exert great force by reducing the discharge amount of oil. Recently, a low pressure pump and a high pressure pump are integrally formed, and a hydraulic pump has been developed so that the function of the low pressure pump is automatically cut off at a certain load or more and function as a high pressure pump.

The present invention provides a hydraulic pump for controlling the flow rate in the main discharge passage where high pressure is easily formed with a small force in controlling the flow rate of the main discharge passage using low pressure side oil to function as a high pressure pump. For the purpose.

1-an exemplary view showing a schematic form of a hydraulic pump employing a dump system of the hydraulic pump according to an embodiment of the present invention.

2-an exemplary view showing a schematic operation principle in a dump system of a hydraulic pump according to an embodiment of the present invention.

3-schematic sectional drawing of the hydraulic pump in FIG.

4-A diagram showing the configuration of a pivoting bar.

<Description of Major Symbols Used in Drawings>

100: drive unit 110: oil tank

120: pipe 150: hydraulic equipment

200: auxiliary piston 300: pressing member

310: rotation bar 311: rotation pin

312: spring 313: pressure pin

400: relief valve 500: adapter

510: high pressure side flow path 520: low pressure side flow path

600: eccentric cam 610: high pressure piston

620: low pressure piston 700: check valve

800: release valve

The present invention for achieving the above object, in the hydraulic pump is generated at the same time high pressure and low pressure, the auxiliary piston formed on one side of the low pressure side flow path; One end is formed in contact with the end of the auxiliary piston and is rotatably supported near the other end to control the check valve which is rotated in accordance with the rising and falling of the low pressure piston to be formed in the flow passage from the main discharge path to the oil tank. A pressing member; And a relief valve which communicates with the low pressure side flow path where the auxiliary piston is formed and releases the auxiliary piston by lowering the coupling when a predetermined pressure or more occurs, so that oil in the low pressure side flow path flows into the oil tank. It relates to a dump system of a hydraulic pump, the technical subject of operating the pressure member with a small force of the low pressure side flow passage to return a part of the oil supplied to the main discharge passage to the oil tank.

The dump system of the hydraulic pump according to the present invention has the advantage of reducing the overall size of the hydraulic pump by controlling the flow rate of the relatively large main discharge passage with a small force generated in the low pressure side flow path.

And, it is possible to use simultaneously as a low pressure pump and a high pressure pump and when it reaches a set pressure is automatically set as a high pressure pump, it is possible to improve the convenience and stability in use.

Hereinafter will be described with reference to the drawings in more detail with respect to the dump system of the hydraulic pump according to an embodiment of the present invention.

First, Figure 1 attached is an exemplary view showing a schematic form of a hydraulic pump employing a dump system of the hydraulic pump according to an embodiment of the present invention. As shown, the hydraulic pump is largely formed integrally with the driving unit 100 and the oil tank 110, the pipe 120 of the discharged oil is formed. The pipe 120 is connected to other hydraulic equipment 150 and serves to lift heavy objects by supplying oil.

In the hydraulic pump of the above structure, the dump system of the hydraulic pump according to the present invention is composed of an auxiliary piston 200, the pressure member 300 and the relief valve 400. On the other hand, Figure 2 attached is an exemplary view showing a schematic operation principle in the dump system of the hydraulic pump according to an embodiment of the present invention. An adapter 500 is formed between the driving unit 100 and the oil tank 110, and a flow path is formed in the adapter, and the auxiliary piston 200, the pressing member 300, and the relief valve 400 are provided.

3 shows a schematic sectional view of the hydraulic pump in FIG. 1. As shown in FIGS. 1 to 3, when the motor of the driving unit is operated, the eccentric cam 600 interlocked with the driving unit is operated, and the eccentric cam presses the high pressure piston 610 which is in contact with this. The high pressure piston 610 is a low pressure piston 620 is formed and combined at the same time to be repeated up and down movement. As shown in FIG. 2, the cylinders on which the high pressure piston 610 and the low pressure piston 620 are formed have different diameters, and the flow paths through which oil is discharged from the respective cylinders also have different diameters. That is, the low pressure side flow path 520 is configured so that its diameter is wider than the high pressure side flow path 510, so that a large amount of oil can be discharged through the low pressure side flow path during operation under a low load. Allow other hydraulic equipment to be operated at high speed.

The high pressure side flow path and the low pressure side flow path are formed from each cylinder in which the high pressure piston and the low pressure piston are formed. In particular, the low pressure side flow path 520 is formed in two directions, and one side is connected to the high pressure side flow path 510. The other side will perform a separate function. For convenience of description, the side connected to the high pressure side flow passage 510 will be referred to as a first low pressure side flow passage 521, and the other side will be referred to as a second low pressure side flow passage 522. Each of the first and second low pressure side flow paths 521 and 522 has a check valve 700 formed between the cylinder and the check valve functions to supply oil only in one direction. .

An auxiliary piston 200 is formed in the second low pressure side flow path 522, and the auxiliary piston is formed in contact with the pressing member 300 to operate the pressing member. A relief valve 400 is also formed in the low pressure side flow path.

The relief valve 400 opens the flow path when a predetermined pressure or more is applied to the second low pressure side flow path 522 so that the relief valve 400 does not rise above the set pressure. In the state where the load is less, the relief valve 400 is maintained in a closed state, the auxiliary piston 200 is raised to press the pressing member 300, the pressing member is formed in the main discharge path (530) The release valve 800 is maintained in a pressurized state.

In an embodiment of the present invention, the relief valve 400 is operated by a solenoid, that is, when the solenoid is not operated, the flow path is kept closed by spring force. On the other hand, above a certain pressure, the solenoid is operated to pull the spring, so that the low pressure oil pushes up the check part of the relief valve blocking the flow path and exits the oil tank. The main discharge path 530 is formed by combining the first low pressure side flow path 521 and the high pressure side flow path 510 to be a flow path for supplying oil to the other hydraulic device 150 connected to the hydraulic pump.

Hereinafter will be described in more detail with respect to the pressing member. 2 and 4, FIG. 4 shows a schematic configuration of the pressing member. As shown, the pressing member 300 is composed of a rotating bar 310, the rotating pin 311, the spring 312 and the pressing pin 313. One end of the pivot bar 310 is formed in contact with the auxiliary piston 200 and the other end is positioned above the release valve 800. In addition, the rotation pin 311 is coupled to the rotation bar 310 to maintain the restraint state in the vicinity of the release valve 800, and the vertical movement of the auxiliary piston 200 centers around the rotation pin 311. In conjunction with the rotation bar 310 is rotated. At the end of the rotation bar 310, that is, the upper end of the release valve 800, a pressure pin 313 is formed, and the pressure pin 313 maintains a state in which the pressure release valve 800 is pressurized and becomes a predetermined pressure or more. By opening the release valve by the pivoting bar 310 is rotated to the upper center around the pivoting pin 311 so that a part of the oil supplied to the main discharge passage 530 is discharged directly to the oil tank 110. To act as a high pressure pump.

A spring 312 is formed at one side end of the pivot bar 310, that is, the end adjacent to the auxiliary piston 200, so that the pivot bar 310 smoothly moves upward when the auxiliary piston 200 descends. Allow it to be rotated. That is, the pivoting bar 310 uses the principle of the lever and the position of the pivoting pin 311 can be operated with a small force by forming a (a) in the drawing relatively longer than the length of the b (b). Do it.

By using the principle of the lever as described above, it is possible to easily control the discharge of the relatively high pressure oil formed in the main discharge path 530 with a small force on the low pressure side, thereby miniaturizing the hydraulic pump. .

Next, the operation principle for the dump system of the hydraulic pump according to the present invention will be described in more detail.

When the hydraulic pump is operated for the first time, the eccentric cam 600 interlocked with the motor rotates, and thus the high pressure piston 610 and the low pressure piston 620 perform repetitive movement to suck oil from the oil tank 110. The oil is discharged into the low pressure side flow path 520 and the high pressure side flow path 510. When a certain amount of pressure is formed in the second low pressure side flow passage 522, the auxiliary piston 200 rises, thereby rotating the rotation bar 310 to pressurize the release valve 800 formed in the main discharge passage 530. Will remain in one state. When the low pressure piston 620 and the high pressure piston 610 are operated, the oil is discharged through the first hydraulic side flow path 521 and the high pressure side flow path 510, and is integrated into the main discharge path 530 and supplied. In a state where the load is small on the hydraulic device connected to the main discharge path 530, a large amount of oil is supplied through the low pressure side flow path 520 and the high pressure side flow path 510 to supply the hydraulic device 150 at a relatively high speed. The piston formed in the ascending and gradually increasing the load on the hydraulic equipment should reduce the flow rate of the oil discharged to the main discharge path to be operated by a high pressure pump. Therefore, when the pressure reaches a predetermined pressure or more, the relief valve 400 formed in the second low pressure side flow path 522 is opened, and the oil supplied to the second low pressure side flow path 522 is immediately discharged to the oil tank 110. In addition, the auxiliary piston 200 is lowered, whereby the rotation bar 310 pressurizing the release valve 800 of the main discharge passage 530 is raised to open the release valve.

As the release valve 800 is opened, some of the oil supplied to the main discharge path 530 is also immediately discharged to the oil tank, thereby reducing the amount of oil supplied to the hydraulic device through the main discharge path. Can be operated to form a high pressure.

The present invention by the configuration as described above, by using the principle of the small force and the lever of the low pressure side flow path can easily control the amount of oil supplied to the main discharge path in which the high pressure is formed, the size of the hydraulic pump The effect can be miniaturized.

Claims (2)

In the hydraulic pump in which high pressure and low pressure are generated at the same time, An auxiliary piston (200) formed at one side of the low pressure side flow passage (520); One end of the auxiliary piston 200 is formed in contact with the end and is rotatably supported near the other end, and is rotated according to the lifting and lowering of the auxiliary piston 200 so that the oil tank 110 from the main discharge path 530. A pressurizing member 300 to control the release valve 800 formed in a flow passage through the air; The auxiliary piston 200 is in communication with the low pressure side flow path 520 is formed, if a certain pressure or more occurs when the coupling is released so that the oil in the low pressure side flow path into the oil tank to lower the auxiliary piston (200). Relief valve 400 is configured to include a hydraulic pump, characterized in that for operating the pressure member 300 with a small force of the low pressure side flow path to return a portion of the oil supplied to the main discharge path to the oil tank Dump system. The method of claim 1, wherein the pressing member 300, The auxiliary piston (200) side end is restrained by a spring (312), the dumping system of the hydraulic pump, characterized in that automatically returned.