KR101196946B1 - flatness gauge for steel plate - Google Patents

Abstract

PURPOSE: A high pressure hydraulic pump is provided to reduce the whole size by securing massive flow volume by arranging high pressure pump in a row without the increase of the diameter of flow passages. CONSTITUTION: A high pressure hydraulic pump(1) comprises a motor(2), a housing(300), a cam member, a low pressure pump(100), a high pressure pump(200), and a discharge block(400). The motor is installed in the exterior of an oil tank(3). The housing is installed in the oil tank. The cam member is formed in the housing eccentrically. The low pressure pump compresses oil firstly. The high pressure pump presses the firstly pressed oil. The discharge block is mounted on the inner upper surface of the oil tank.

Description

High Pressure Hydraulic Pump {flatness gauge for steel plate}

The present invention relates to a high pressure hydraulic pump.

In general, the hydraulic pump is a device for converting the mechanical energy supplied from the outside into the pressure energy of the hydraulic system hydraulic fluid, it is divided into various types such as gear type, vane type, rotary piston type, reciprocating piston type. In addition, pumps of various structures have been developed to obtain high pressure hydraulic fluid.

Korean Utility Model Registration No. 20-0248252 discloses a high pressure hydraulic pump in which a low pressure gear pump and a high pressure piston pump are combined to obtain a high pressure. Looking at this in detail, the motor is provided on the outside of the housing, the gear pump and the piston pump rotated by the motor inside the housing is configured to be coupled. The oil inside the housing is first compressed by the gear pump and then secondly compressed by the piston pump through the internal flow path so that the high pressure hydraulic oil is discharged.

However, in the high pressure hydraulic pump having such a structure, when one piston pump is mounted on one gear pump, there is a problem in that it is difficult to implement this.

That is, when the flow path becomes large for the high flow rate, and the flow path becomes large, there is a problem in that noise and vibration are generated due to lack of compression force or excessive force occurs in the motor. In order to solve this problem, since a high-performance motor must be used, problems such as an increase in the size of the entire pump and an increase in manufacturing cost may occur.

Embodiment of the present invention, the secondary compression is possible by a plurality of high pressure pump including a low pressure pump driven by the rotation of the motor, and a piston reciprocating by the eccentric rotation axis of the motor, It is an object of the present invention to provide a high pressure hydraulic pump in which compressed oil is connected to one discharge passage and discharges high pressure hydraulic fluid to one outlet.

The high pressure hydraulic pump according to the present embodiment includes a motor that provides rotational power and is mounted outside the oil tank in which oil is stored; A housing provided inside the oil tank and accommodating a drive shaft of the motor; A cam member provided inside the housing and formed to be eccentric on the drive shaft; A low pressure pump mounted to the housing and suctioning oil inside the oil tank by primary rotation by rotating the drive shaft; A plurality of high pressure pumps mounted on the housing and configured to second compress the first compressed oil supplied from the low pressure pump by a piston reciprocating with the cam member; And an oil introduced from the plurality of high pressure pumps connected to the inner upper surface of the oil tank and coupled to the housing at an upper side of the housing and connected to the outlets of the plurality of oils respectively formed on the plurality of high pressure pumps. And a discharge block having a discharge flow path for guiding discharge to the one outlet, wherein the high pressure pump includes: a high pressure pump block detachably coupled to a circumferential surface of the housing and accommodating the piston; A compression flow path formed inside the high pressure pump block and forming a space in which oil is secondary compressed by reciprocation of the piston; A low pressure side flow path having a first check valve configured to form a passage through which the oil discharged from the low pressure pump flows into the compression flow path from below the compression flow path, and to prevent backflow of oil inside the compression flow path; And a passage for guiding the secondary compressed oil from the upper side of the compression passage to the discharge block side, and further comprising a high pressure side passage further comprising a second check valve opened when the oil inside the compression passage is compressed.

A compression flow path inside the high pressure pump, the piston reciprocating to form a space in which oil is secondary compressed; A low pressure side flow path forming a passage through which the oil discharged from the low pressure pump flows into the compression flow path from below the compression flow path; And a high pressure side flow path forming a passage for guiding the secondary compressed oil to the discharge block side from above the compression flow path.

The low pressure side flow path is provided with a first check valve for preventing backflow of oil in the compression flow path, and the high pressure side flow path is further provided with a second check valve which is opened when the oil in the compression flow path is compressed. It is done.

The inner side of the housing is characterized in that the connection passage for guiding the movement of the second compressed oil by connecting the high-pressure side flow path and the discharge flow path is further formed.

The piston includes a head supported by the elastic member to maintain a contact state with the cam member; And a rod extending from the head to the inside of the compression passage to compress oil in the compression passage.

The plurality of high pressure pump is characterized in that arranged on the outer surface of the housing corresponding to the circumference of the cam member at regular intervals.

Inside the low pressure pump, a low pressure discharge flow path for discharging the oil primarily compressed in the low pressure pump to the outside of the oil tank; It characterized in that the low pressure conveying flow path for guiding the primary compressed oil in the low pressure pump to the high pressure pump, respectively.

The discharge block is penetrated by the drive shaft, characterized in that disposed between the upper surface of the housing and the oil tank.

The discharge passage is formed in a circular shape formed along the discharge block.

High pressure hydraulic pump according to an embodiment of the present invention can be expected the following effects.

In the high pressure hydraulic pump according to the embodiment of the present invention, the oil compressed in the low pressure pump may be compressed again by the high pressure pump to discharge the high pressure hydraulic fluid. At this time, the pump assembly is provided with a plurality of high-pressure pump, the high-pressure hydraulic fluid discharged from the plurality of high-pressure pump can be discharged combined into one through the discharge flow path inside the discharge block. Thus, the user can obtain a high flow of high pressure hydraulic fluid.

In this case, since a plurality of high pressure pumps are arranged in parallel without expansion of the flow path, a high flow rate can be secured, thereby reducing the size of the overall system compared to the flow rate. In addition, the effect that can significantly reduce the noise and vibration at high flow rate can be expected.

In addition, the internal flow path structure of the high pressure pump is arranged in the vertical direction, so that the size of the high pressure pump block can be configured relatively compact. In particular, the high-pressure pump having a narrow structure in the horizontal direction due to the characteristics of the high-pressure pump disposed along the circumference of the housing has a structure that is useful to be arranged in a large number to compact the overall system as well as mounting a plurality of high-pressure pump As a result, it is possible to secure a sufficient high-pressure hydraulic oil flow rate.

1 is a view showing the overall structure of a high pressure hydraulic pump according to an embodiment of the present invention.
2 is a view showing a configuration of a pump assembly of the high pressure hydraulic pump.
3 is a view showing a high pressure pump according to an embodiment of the present invention.
4 is a perspective view showing the state in which the high pressure pump is mounted from above.
5 is a view showing a flow state of the oil of the high-pressure hydraulic pump.
Figure 6 is a perspective view from above of a state in which the high pressure pump is mounted according to another embodiment of the present invention.

Hereinafter, a high pressure hydraulic pump according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the overall structure of a high pressure hydraulic pump according to an embodiment of the present invention. 1 shows the configuration of a pump assembly provided inside the oil tank by cutting the oil tank constituting the hydraulic pump for high pressure according to an embodiment of the present invention.

Referring to Figure 1, the high pressure hydraulic pump 1 according to an embodiment of the present invention may be composed of a motor 2, an oil tank 3 and the pump assembly 10.

The motor 2 may be a DC motor for a hydraulic pump which is generally used to provide power for driving the pump assembly 10. The motor 2 is mounted on the upper surface of the oil tank 3 so that the motor 2 can be exposed to the outside of the oil tank 3, the drive shaft 20 of the motor 2 is the inside of the pump assembly 10 It can be configured to extend to.

In addition, the oil tank 3 may be configured to form a predetermined space therein as the storage of the oil used as the working oil and the pump assembly 10 are accommodated therein. Although not shown, a separate valve or connector may be further provided on the outside of the oil tank 3 to externally supply the high pressure hydraulic oil discharged from the pump assembly 10.

The pump assembly 10 is a low pressure pump 100 for first compressing the oil sucked to low pressure, and a high pressure pump 200 for compressing the oil supplied from the low pressure pump 100 to a high pressure and the pump It may be configured to include a housing 300 and the discharge block 400 to be mounted.

Hereinafter, the pump assembly will be described in more detail with reference to the accompanying drawings.

2 is a view showing the configuration inside the pump assembly of the high-pressure hydraulic pump. 2 is a longitudinal cross-sectional view of the pump assembly so that both the mounted portion and the unmounted portion of the high pressure pump can be seen.

Referring to FIG. 2, the drive shaft 20 extends downward in the pump assembly 10. At this time, the drive shaft 20 is provided on the low shaft 21 and the low shaft 21, which is a rotation shaft of the low pressure pump 100, the cam eccentric for driving the high pressure pump 200 It may be configured to include a shaft (22).

On the other hand, the low pressure pump 100 is provided at the lower end of the pump assembly 10, is formed to have a structure such as a general vane pump. The low pressure pump 100 may be configured to compress oil sucked by the low shaft 21. Therefore, the low pressure pump 100 may be configured as a gear pump rather than a vane pump.

The low pressure pump 100 may include a low pressure pump block 110 forming a lower shape of the pump assembly 10 and a vane assembly 120 provided inside the low pressure pump block 110. The low pressure pump block 110 may be formed by assembling a plurality of blocks, and may be configured to form a space in which the plurality of flow paths 111, 112, and 113 and the vane assembly 120 may be accommodated for the flow of oil. .

A suction passage 111 is formed below the low pressure pump block 110 to guide the oil of the oil tank 3 to a space in which the vane assembly 120 is accommodated. The inlet of the suction passage 111 is formed to open to the side of the low pressure pump block 110, accessories, such as a separate filter may be attached as necessary.

A low pressure discharge passage 112 is formed on the low pressure pump block 110. The low pressure discharge passage 112 is connected to a space in which the vane assembly 120 is accommodated so that the low pressure hydraulic oil compressed by the low pressure pump 100 can be discharged to the outside. To this end, the low pressure discharge passage 112 may be connected to a separate pipe and guides the low pressure oil to be discharged to the outside of the oil tank 3.

On the other hand, the other side of the low pressure pump block 110 may be further formed a low pressure transfer flow path 113 for guiding the oil compressed in the vane assembly 120 to the high pressure pump 200. The low pressure transfer flow passage 113 may be formed as many as the number corresponding to the number of the high pressure pump 200, may be configured to be supplied to each of a plurality of high pressure pump 200 is branched as necessary. .

The housing 300 is provided above the low pressure pump 100. The housing 300 is formed to penetrate the drive shaft 20, and is formed to accommodate a cam member 310 for driving the cam shaft 22 and the high pressure pump 200. In addition, the high pressure pump 200 is provided on the side of the housing 300. A plurality of the high pressure pump 200 is arranged radially continuous to the side of the housing 300, it may be disposed on the same extension line as the cam member (310).

The cam member 310 is penetrated by the cam shaft 22 and is configured to rotate together with the cam shaft 22. In addition, the cam member 310 is configured so that the outer circumferential surface is formed in a concentric shape to reciprocate the piston 220 to be described below when the cam shaft 22 rotates.

To this end, a plurality of high-pressure pumps 200 are provided along the circumference of the housing 300 corresponding to the side of the cam member 310. The high pressure pump 200 is connected to the low pressure transfer flow path 113 of the low pressure pump 100 is configured to secondary compress the oil first compressed in the low pressure pump 100 to a high pressure. Detailed configuration of the high pressure pump 200 will be described again below.

 On the other hand, the discharge block 400 is provided above the housing 300. The discharge block 400 is connected to the plurality of high pressure pumps 200 so that the oil of the high pressure, which is secondarily compressed from the high pressure pump 200, may be introduced. That is, the discharge flow path 410 is formed inside the discharge block 400 to be connected to the high pressure side flow path 250 to be described below.

The discharge passage 410 may be formed along the inside of the discharge block 400 and may have a circular shape. The discharge flow path 410 is formed to be connected to all of the discharge flow paths 410 respectively formed in the plurality of high pressure pumps 200. Therefore, the high pressure oil compressed by the plurality of high pressure pumps 200 is summed up in the discharge passage 410, and may be discharged to the outside of the pump assembly 10 through the outlet of the discharge block 400. Will be.

In this case, a separate pipe or block may be connected to the outlet of the discharge passage 410, and the high pressure working oil may be discharged to the outside of the oil tank 3 through a separate pipe or block. In addition, when a separate distributor is installed in the oil tank 3, the high-pressure hydraulic oil discharged from the discharge passage 410 may be branched into a plurality of passages and used for a necessary purpose. In addition, the discharge block 400 is provided to be exposed to the outside of the oil tank 3 as necessary, so that the high pressure hydraulic fluid discharged from the high pressure pump 200 is discharged through the discharge block 400. It may be discharged to the outside of the tank 400.

Hereinafter, the high pressure pump will be described in more detail with reference to the accompanying drawings.

3 is a view showing a high pressure pump according to an embodiment of the present invention. 4 is a perspective view showing the state in which the high pressure pump is mounted from above.

3 and 4, the high pressure pump 200 is mounted on the circumferential surface of the housing 300, and a plurality of the high pressure pumps 200 may be mounted apart by a predetermined interval. Four high-pressure pumps 200 may be mounted in all, and a mounting surface formed in a plane for mounting of the high-pressure pump 200 is formed around the housing 300.

On the other hand, the high pressure pump 200 has the same configuration as the piston pump, the high-pressure pump block 210 to form an appearance, the piston 220 mounted on the high-pressure pump block 210, and the movement path of the oil It may be configured to include a flow path (230, 240, 250) forming a.

Looking at this in more detail, the high-pressure pump block 210 forms the outer shape of the high-pressure pump 200, it is to form a piston 220 and the flow path (230, 240, 250) therein. The flow paths 230, 240, and 250 may include a compression flow path 230, a low pressure side flow path 240, and a high pressure side flow path 250. The compression flow path 230, the low pressure side flow path 240 and the high pressure side flow path 250 may be arranged in the vertical direction in the high pressure pump block 210, it is configured to be connected to each other. Therefore, the high pressure pump block 210 is formed to be longer in the longitudinal direction than the horizontal direction, the plurality of high pressure pump block 210 is configured to be disposed along the circumference of the housing 300.

The compression flow path 230 extends in the longitudinal direction of the piston 220 and is formed to accommodate the rod 221 of the piston 220 therein. In addition, the compression passage 230 forms a space in which the oil of low pressure introduced from the low pressure pump 100 can be compressed by the reciprocating motion of the piston 220.

The low pressure side passage 240 connects the low pressure transfer passage 113 and the compression passage 230 so that a passage through which the oil compressed by the low pressure pump 100 flows into the compression passage 230 may be provided. do. The low pressure side flow path 240 is provided with a first check valve 241. The first check valve 241 is supported by the elastic member 242 so that the oil discharged from the low pressure pump 100 can be introduced, and closes when the pressure of the compression flow path 230 is increased, the high pressure oil This prevents the backflow to the low pressure pump 100 side.

The high pressure side flow path 250 is configured to connect the compression flow path 230 and the discharge flow path 410 to guide the high pressure oil compressed in the compression flow path 230 to the discharge flow path 410. do. A second check valve 251 is provided inside the high pressure side flow path 250. The second check valve 251 is opened and closed so that the high pressure oil compressed in the high pressure side flow path 250 may be discharged, and a low pressure oil flows into the high pressure side flow path 250 so as to discharge the oil. In the case of maintaining the closed state by the elastic member 252, it is configured to be opened when the internal pressure of the compression passage 230 is increased by the movement of the piston 220.

At this time, the outlet of the high pressure side flow path 250 is connected to the discharge flow path 410 through a connection flow path 320 formed in the housing. Of course, when the high pressure pump block 210 is configured to be connected to the discharge block 400, the high pressure side flow path 250 may be directly connected to the discharge flow path 410.

The rod 221 of the piston 220 is positioned inside the compression passage 230, and the head 222 of the piston 220 is connected to the outer surface of the cam member 310 inside the housing 300. It is formed to be in contact. In this case, the head 222 is supported by the elastic member 223 to maintain the state in which the head 222 is in contact with the elastic member 223.

Hereinafter will be described with respect to the operation of the high pressure hydraulic pump according to an embodiment of the present invention having the configuration as described above.

5 is a view showing a flow state of the oil of the high-pressure hydraulic pump.

Referring to FIG. 5, the cam shaft 22 and the low shaft 21 rotate as the motor 2 is driven, and the low pressure pump 100 and the high pressure pump 200 are driven.

The oil stored in the oil tank 3 is introduced into the low pressure pump 100 through the suction flow path 111. Oil primarily compressed by the low pressure pump 100 flows into the low pressure side flow path 240 of the high pressure pump 200 through the low pressure transfer flow passage 113. At this time, the high pressure pump 200 is provided with a plurality, the low pressure transfer flow passage 113 is branched to supply the primary compressed oil to each of the plurality of low pressure side flow path (240).

The first check valve 241 is opened by the pressure of the oil supplied to the low pressure side flow path 240, and oil can be supplied into the compression flow path 230. At this time, the rod 221 of the piston 220 is moved to the inner side (left side in Figure 5) in the interior of the compression passage 230 is a low pressure. Accordingly, the first check valve 241 may be opened by the pressure difference, and the second check valve 251 is closed.

In this state, the rod 221 of the piston 220 may move to the outside (outside in FIG. 5) by the rotation of the cam member 310. As the rod 221 moves, the oil inside the compression passage 230 may be secondarily compressed to be high pressure. When the compression passage 230 is in a high pressure state, the first check valve 241 may be It is closed and the second check valve 251 is opened to discharge the oil of the second high pressure through the high compression passage 230.

The oil passing through the high pressure side flow path 250 is supplied to the discharge flow path 410 inside the discharge block 400 through the connection flow path 320. In this case, the discharge flow path 410 is in communication with the plurality of high-pressure side flow paths 250 and the connection flow path 320 so that all of the high pressure oil discharged from the plurality of high pressure pump 200 can be introduced. do.

In addition, the high pressure oil inside the discharge passage 410 is discharged to the pump assembly 10 through an outlet. At this time, the outlet of the discharge passage 410 may be further provided with a pipe or block for the transfer of oil, it is discharged to the outside of the oil tank (3) is used as the operating oil for the operation of the hydraulic equipment.

On the other hand, the embodiment of the present invention will be possible other embodiments in addition to the above-described embodiment.

High pressure hydraulic pump according to another embodiment of the present invention is characterized in that the five high-pressure pump is provided, except for the high pressure pump is the same as the above-described embodiment use the same reference numerals and omit the detailed description Let's do it.

Figure 6 is a perspective view from above of a state in which the high pressure pump is mounted according to another embodiment of the present invention.

Referring to Figure 6, the high pressure hydraulic pump 200 according to another embodiment of the present invention is provided with six high pressure pump 200 on the outside of the housing 310. The six high pressure pumps 200 are arranged at equal intervals, each of the high pressure pump 200 is the same as the configuration of the above-described embodiment.

However, there is a difference in the interval between the high pressure pump 200, therefore, the outer surface shape of the housing 310 may also be formed into a regular hexagonal shape of the cross section so that the high pressure pump 200 can be mounted. have.

1. High pressure pump 2. Motor
3. Oil tank 10. Motor assembly
20. Drive shaft 100. Low pressure pump
200. High pressure pump 300. Housing
400. Discharge Block

Claims (9)

A motor providing rotational power and mounted outside the oil tank in which oil is stored;
A housing provided inside the oil tank and accommodating a drive shaft of the motor;
A cam member provided inside the housing and formed to be eccentric on the drive shaft;
A low pressure pump mounted to the housing and suctioning oil inside the oil tank by primary rotation by rotating the drive shaft;
A plurality of high-pressure pumps mounted on the housing and configured to second-compress the first compressed oil supplied from the low pressure pump by a piston reciprocating with the cam member; And
Mounted in contact with the inner upper surface of the oil tank and coupled to the housing on the upper side of the housing, connected to the outlet of the plurality of oil formed in each of the plurality of high-pressure pump, the oil introduced from the plurality of high-pressure pump It includes a discharge block is formed a discharge flow path for guiding discharge to one outlet,
The high pressure pump,
A high pressure pump block detachably coupled to a circumferential surface of the housing and accommodating the piston;
A compression flow path formed inside the high pressure pump block and forming a space in which oil is secondary compressed by reciprocation of the piston;
A low pressure side flow path having a first check valve configured to form a passage through which the oil discharged from the low pressure pump flows into the compression flow path from below the compression flow path, and to prevent backflow of oil inside the compression flow path;
And a passage for guiding the secondary compressed oil from the upper side of the compression passage to the discharge block side, and further comprising a high pressure side passage further comprising a second check valve opened when the oil inside the compression passage is compressed. High pressure hydraulic pump. delete delete The method of claim 1,
A high pressure hydraulic pump, characterized in that the connection passage for guiding the movement of the secondary compressed oil by connecting the high pressure side flow path and the discharge flow path further inside. The method of claim 1,
The piston,
A head supported by the elastic member to maintain contact with the cam member;
A high pressure hydraulic pump comprising a rod extending from the head to the inside of the compression passage to compress the oil inside the compression passage. The method of claim 1,
The plurality of high pressure pump is a high pressure hydraulic pump, characterized in that arranged at a predetermined interval on the outer surface of the housing corresponding to the circumference of the cam member. The method of claim 1,
Inside the low pressure pump,
A low pressure discharge flow path for discharging oil primarily compressed by the low pressure pump to the outside of the oil tank;
High pressure hydraulic pump, characterized in that each of the low pressure conveying passage for guiding the first compressed oil in the low pressure pump to the high pressure pump is formed. The method of claim 1,
The discharge block is penetrated by the drive shaft, the high pressure hydraulic pump, characterized in that disposed between the upper surface of the housing and the oil tank. The method of claim 1,
The discharge passage is a high pressure hydraulic pump, characterized in that formed in a circular shape formed along the discharge block.

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