KR940001313Y1 - Hydraulic pump - Google Patents

Abstract

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Description

Hydraulic pump

1 is a schematic system diagram of a conventional hydraulic pump.

2 is a hydraulic pump system of the present invention.

3 is a cross-sectional view showing a hydraulic pump structure of the present invention.

4 is a cross-sectional view of the low pressure pump unit in the hydraulic pump of the present invention.

Figure 5 is an example of an installation state showing a state of using the hydraulic pump of the present invention.

* Explanation of symbols for main parts of the drawings

10: high pressure pump unit 20: low pressure pump unit

30: low pressure check valve device 40: high pressure check valve device

50: hydraulic cylinder 60: solenoid device

61: on-off valve device 70: recovery check valve device

The present invention relates to a hydraulic pump in which a single-acting hydraulic pump is improved to a double-acting hydraulic pump.

In general, a hydraulic pump having a hydraulic output of about one cylinder is constructed by directly connecting a high pressure pump unit and a low pressure pump unit to an output shaft of one motor, and then sucking oil from the oil tank from the low pressure pump unit and sucking the oil. When a hydraulic pressure is discharged to the high-pressure pump unit, the high-pressure pump unit sends the hydraulic pressure to the upper side of the hydraulic cylinder by the pumping operation of the high-pressure pump unit, and the piston rod of the hydraulic cylinder is given to work at a predetermined pressure.

Most hydraulic pumps of this kind are configured to act on the hydraulic pressure only on one side. The conventional hydraulic pump will be described as an example of FIG.

1 is a schematic system diagram of a conventional hydraulic pump, in which an upper high pressure pump unit 100 operated by a single motor and a low pressure pump unit 101 on a lower side are serially connected to a motor output shaft which is a power source. It is configured to operate at the same rotation ratio, the suction port 101a of the low pressure pump unit 101 is connected to the hydraulic suction line 102, such as a hydraulic hose to suck the oil stored in the oil tank 103 Hydraulic pressure is discharged to the hydraulic pumping path 105 of the high pressure pump unit 100 through the hydraulic discharge line 104 connected to the discharge port 101 구, the check valve device 106 is installed in the hydraulic discharge line 104. The hydraulic pressure discharged to the discharge port 101 kPa is usually 50-70 kg / cm 2, and is low pressure in the hydraulic pump device.

As described above, the oil introduced into the hydraulic pumping furnace 105 is amplified to a high pressure state (about 1,000 kg / cm 2) by the operation of the high pressure pump device unit 100, and the hydraulic cylinder through the check valve device 107 ( 108) The piston rod 110 'is supplied with hydraulic pressure to the hydraulic supply line 109 connected to the upper portion so that the piston head 110 can be lowered (or raised or advanced) so that the piston rod 110' can perform a given work (operation) at a high pressure. On the hydraulic supply line 109, a manual switching valve device 111 is installed on the hydraulic supply line 109 to supply the hydraulic pressure pumped from the high pressure pump device 100 to the hydraulic cylinder 108 or the hydraulic recovery line 112. It is configured to return to the oil tank 103 through the), and also the original spring return operation of the piston head 11 and the piston rod (110 ') that was lowered by the supply of hydraulic pressure in the hydraulic cylinder (108) compression spring (113) elastic resilience And a hydraulic recovery auxiliary line 114 is connected to the auxiliary passage 101a 'which is in communication with the low pressure pump apparatus 101 of the conventional hydraulic pump 101 and the side inlet side thereof. 103), and the auxiliary passage 101 '' at the discharge port 101 'was sealed with a cover bolt 115. As shown in FIG.

The conventional hydraulic pump as described above is to the hydraulic cylinder 108, while amplifying the oil stored in the oil tank 103 to a high pressure state by the manual operation of the manual switching valve device 111 under the condition that the operator operates the motor. The hydraulic pressure discharged from the check valve device 107 by operating the manual switching valve device 111 when the hydraulic cylinder 108 is to be operated and the hydraulic cylinder 108 can be supplied back to the oil tank 103 can be supplied. If the piston head 110 is supplied only to the supply line 109, the piston head 110 is compressed by the hydraulic pressure flowing into the upper portion of the hydraulic cylinder 108, and thus the piston head 110 compresses the compression spring 113. While lowering the piston rod 110 '(expression operation) while the load is not applied to the piston rod (110'), the hydraulic pressure pumped out from the high pressure pump unit 100 is a low pressure pump As the pressure discharged from the tooth 101 is almost the same pressure as the hydraulic cylinder 18, the hydraulic flow inflow amount is a considerable amount, the piston rod (110 ') is a high speed descending operation, the piston When the load 110 'starts to be loaded, the hydraulic pressure pumped out of the high pressure pump device 100 is discharged in a further amplified high pressure state, so that the work can be performed as desired. When the manual switching valve device 111 is operated in reverse, the hydraulic pressure discharged from the high pressure pump device 100 flows toward the hydraulic recovery line 112 by the hydraulic switching action of the manual switching valve device 111. The hydraulic pressure discharged from the pump device 100 is in a no-load state and at the same time the upper portion of the hydraulic cylinder 108 communicates with the hydraulic recovery line 112 by the hydraulic supply line 109. When the hydraulic pressure that was present in the upper portion of the hydraulic cylinder 108, the pressure is extinguished, and the pressure applied to the piston head 110 itself to the in-situ elastic return force of the compression spring 113 that was elastically compressed Only the elastic pressure acts. However, since the inner diameter of the hydraulic supply line 109 itself is a relative condition for enabling a high pressure hydraulic pressure to be applied to a small amount of breasts, the inner diameter of the hydraulic supply line 109 is very small, and only the elastic force acting force of the compression spring 113 is on the upper portion of the hydraulic cylinder 108. It is difficult to expect a rapid ascending operation (immersion operation) of the piston head 110 because it is not able to quickly discharge a large amount of oil that has been introduced into the piston, and accordingly the piston head (110 ') also rises slowly, the progress of the next operation Due to this delayed closing end, there is a drawback of lowering the work efficiency, and also the piston head 110 and the piston rod 110 'rise more slowly due to the decrease in elastic force due to mechanical fatigue of the compression spring 113 itself. There was a drawback that the working efficiency of the hydraulic cylinder 108 is greatly reduced by the Pedan.

Therefore, the present invention, in the conventional hydraulic pump, the hydraulic pressure is supplied only to the upper portion in the hydraulic cylinder to lower the piston rod of the hydraulic cylinder, and then the upward movement of the piston rod is caused by relying on the elastic force of the compression spring. In order to solve the problem to be described, it will be described in detail according to the accompanying drawings of the present invention as follows.

First, Figure 1 shows the hydraulic system according to the hydraulic pump configuration of the present invention, the high pressure pump unit 10 and the low pressure pump unit 20 is a configuration directly connected to one motor (M), and also the low pressure pump unit The suction port 20a of the 20 is connected to the oil tank 2 as the hydraulic suction line 1, and the hydraulic discharge line 3 which connects the discharge port 20k and the hydraulic pumping path 4 of the high-pressure pump unit 10 is connected. The low pressure check valve device 30 is installed on the upper side, and the high pressure check valve device 40 installed in the hydraulic popping path 4 receives the hydraulic pressure through the hydraulic supply line 5 and the upper portion of the hydraulic cylinder 50. Connected to supply the hydraulic pressure to the upper side of the piston head 51 is the same as the conventional hydraulic pump configuration, in the present design, the hydraulic supply line connecting the high pressure check valve device 40 and the hydraulic cylinder 50 ( 5) connect as a "TP" shaped biped end 6, and then the auxiliary hydraulic line 7 The hydraulic pressure discharged from the high pressure check valve device 40 by the solenoid device 60 is supplied only to the upper portion of the hydraulic cylinder 50 or the hydraulic cylinder 50 on the auxiliary hydraulic line 7. The opening and closing valve device 61 is installed to return the hydraulic oil supplied to the upper part to the oil tank 2 through the hydraulic recovery line 7 'through the auxiliary hydraulic line 7.

In addition, a recovery check valve device 70 was installed in the auxiliary passage 20 a ′ communicating with the suction port 20 a of the low pressure pump unit 20, and then connected to the hydraulic reconditioning line 8. The secondary passage (20 ') of the hydraulic cylinder 50 is connected to the hydraulic outflow line (9) to be introduced into or out of the lower side of the hydraulic cylinder 50, by supplying a high pressure hydraulic pressure in the upper portion of the hydraulic cylinder (50) When the piston rod 52 is to be raised after the predetermined work is completed, the hydraulic pressure in the low pressure state (50-70 kg / cm 2) pumped out by the low pressure pump unit 20 is increased in the hydraulic cylinder 50. By being supplied to the lower portion so that the piston rod (52) can be quickly raised to be able to perform the next press work more quickly.

In the present invention configured as described above, a specific configuration embodiment of each component will be described in detail as the embodiment of FIGS. 2 and 3 to 5.

First, the configuration in which the high pressure pump device unit 10 and the low pressure pump device unit 20 are directly connected to the motor M has a high pressure pump device unit 10 at the output shaft M 'of the motor M as shown in FIG. ) Is also directly connected, and the low pressure pump device 20 is also directly connected by an extension shaft M ".

The high pressure pump unit 10 is composed of a cam device 11 having a pumping stand 12 for pumping operation in the hydraulic pumping passage 4, and a hydraulic pumping furnace for supplying hydraulic pressure from the low pressure pump unit 20 ( 4) The low pressure check valve 30 having the low pressure check valve 32 held by the spring 31 and the inlet valve 33 for introducing the hydraulic pressure to the suction port 13 is mounted on the suction passage 12 side of the 4). The high pressure check valve device 40 and the discharge valve 43, which are elastically supported by the spring 41, are built in the high pressure check valve device 40 mounted at the discharge end of the hydraulic pumping furnace 4. In addition, the low pressure and high pressure check valves 32 and 42 perform the opening and closing operations opposite to each other according to the suction and discharge actions of the pumping stand 12.

A recovery check valve device composed of a check valve 73 supported by a spring 72 in which the holding force is adjusted as an adjustment port 71 inside the auxiliary passage 20 a ′ of the low pressure pump device 20 inlet 20 a. (70) is provided, and an outlet groove (23 ') and a hydraulic discharge hole (23 ") for discharging the hydraulic pressure to the suction passage (22) through the communication hole 21 at the inner end of the recovery check valve device (70). And a discharge outlet 23 formed therein, and a guide hole 24 for inducing and supplying hydraulic pressure discharged from the discharge passage 22 'to the discharge hole 20' inside the auxiliary passage 20 '' of the discharge hole 20 '. ') Is provided with a communication tube 25 formed to face each other, the hydraulic passage 24 of the communication tube 25, the guide hole 24' and at the same time the hydraulic outlet line 9 and the communication hole ( 21 and the low pressure state discharged by the gear pump 25 (25 ') of the gear type of the low pressure pump device 20 because it is configured to communicate with each other. The hydraulic pressure acts on the hydraulic discharge line 3 side and the hydraulic discharge line 9 at the same time, but under the condition that the hydraulic pressure is supplied to the upper portion of the hydraulic cylinder 50, the inflow and discharge line 9 side and the lower portion of the hydraulic cylinder 50 are inside. The hydraulic pressure existing in the side is rather in a state of circulation circulating to the oil tank 2 (specific actions will be described later).

In addition, the auxiliary hydraulic line 7 bypassed by the "T" shaped bypass connector 6 installed on the hydraulic supply line 5 can be adjusted to the mover 60 'of the solenoid device 60. And an on-off valve device 61 directly connected to each other, and communicating holes 64 and 64 'on the hydraulic inlet 62 side of the on-off valve device 61 and the hydraulic control valve 63 on the opposite side thereof. ) Is the closing and closing valve device 61 is closed when the operation of the operation valve hole 66, the lower end side contact part 66 'which slid up and down inside the valve pipe 65 immersed into the lower part of the valve pipe 65. In the state, the hydraulic pressure does not flow to the auxiliary hydraulic line 7. On the contrary, the auxiliary hydraulic line 7 is in an open state when the locating operation part 66 'emerges from the lower part in the valve body 65. As a result, the hydraulic pressure supplied from the high pressure check valve device 40 is not supplied to the upper portion of the hydraulic cylinder 50, but directly through the auxiliary hydraulic line 7. It is configured to be returned to the pressure return line (7 ') to the oil tank (2) to hoeryu doemeun course even hydraulic who hydraulic cylinders 50 present in the upper circulation back to the oil tank (2).

On the other hand, the hydraulic control valve 63 of the on-off valve device 61 is supplied with a high pressure hydraulic pressure to the upper portion of the hydraulic cylinder 50 to overload the piston rod 52 when the press work as the piston rod 52 When it is caught, the hydraulic control valve (63) is pressed as an overload oil control device capable of returning the overload hydraulic pressure to the oil tank (2) so as to prevent a closed end from which the hydraulic pressure is no longer supplied to the hydraulic cylinder (50). The spring 68 is elastically installed between the pressing rod 66 and the adjusting hole 67, and the hydraulic return hole for returning the hydraulic pressure flowing into the oil tank 2 while opening the hydraulic control valve 63 when overloaded. (69) is formed.

Referring to the operation and effect of the present invention, when the motor (M) is operated in a state in which the one-touch switch (not shown) of the solenoid device 60 is turned off (not shown), the high pressure pump unit 10 and the low pressure pump unit ( 20) at the same time acts to pump the hydraulic pressure, in which the solenoid device (6) in the "off" operation state because the starter (60 ') is lowered by the spring elastic force operation directly configured to the mover (60') Since the valve rod 66 is also in the lowered operation state, the inlet / outward sliding portion 66 'of the lower side opens the lower part of the lower part, so that the on-off valve device 61 is discharged from the high pressure check valve device 40. As the oil tank 2 is circuitd, the hydraulic pressure is not supplied to the upper portion of the hydraulic cylinder 50, while the hydraulic pressure pumped from the gear pumps 25 and 25 ′ and discharged to the discharge port 20 은 is Of the communication pipe 25 installed in the auxiliary passage 20 ' The hydraulic pressure pumped from the low pressure pump apparatus 20 acts on the hydraulic discharge line 3 and the hydraulic discharge line 9 in the same manner as it acts on the pressure furnace 24 and is discharged through the hydraulic discharge line 3. The hydraulic pressure is returned to the oil tank (2) through the open valve valve 61 as the auxiliary hydraulic line (7) barred from the bypass connector (6). Therefore, the hydraulic pressure pumped out of the low pressure pump unit 20 under the condition that the solenoid device 60 is “off” is flowed into and supplied to the lower portion of the hydraulic cylinder 50 through the hydraulic outlet line 9 so that the piston head The 51 and the rod 52 move to the upper portion of the hydraulic cylinder 50.

In the above state, when the operator “on” the solenoid device 60 to operate the hydraulic cylinder 50, the mover 60 ′ is lifted up and thus the actuation of the operation valve rod 66 is caused. The sliding portion 66 ′ instantly closes the lower end of the valve tube 61, so that the hydraulic pressure discharged from the high-pressure valve valve device 40 does not flow to the auxiliary hydraulic line 7 side and the hydraulic supply line 5 does not flow. The hydraulic cylinder 50 is supplied through the upper portion of the hydraulic cylinder 50, but the load is not applied to the piston rod 52, the hydraulic pressure supplied to the upper portion of the hydraulic cylinder 50, the hydraulic pressure of the same pressure, but the piston head ( 51) Since the cross-sectional area of the upper part is larger than the cross-sectional area of the lower part, since the hydraulic pressure acting on the upper side acts more than the hydraulic pressure on the lower side, the piston head 51 finally pushes down the hydraulic pressure of the lower side,Due to the lowering operation of the piston head 51 as described above, the hydraulic pressure flowing back to the hydraulic outlet line 9 flows to the communication hole 21 through the hydraulic passage 24 of the communication pipe 25. The hydraulic pressure flowing back to the hydraulic oil outlet line 9 while carrying the pressure high enough to open the check valve 73 is operated by the hydraulic recovery auxiliary line through the check valve 73 of the recovery check valve device 70. 8) is discharged to the oil tank (2).

When the load is applied to the piston rod 52, the hydraulic pressure discharged from the low pressure pump unit 20 and introduced into the hydraulic pumping path 4 is driven by the pumping operation of the pumping table 12 of the high pressure pump unit 10. Since the hydraulic pressure of the state (about 1000 kg / cm 2) is supplied to the upper portion of the hydraulic cylinder 50, a predetermined press work is performed. In this case, when the operator wants to stop the press business temporarily, the solenoid device 60 is provided. When the one-touch switch of “off” is operated, the actuating valve rod 66 momentarily descends to open the on / off valve device 61, and the hydraulic pressure flows through the hydraulic inflow and outflow line 9 pumped by the low pressure pump unit 20. It is supplied to the lower part in the cylinder 50 to move the piston head 51 upward and operate the solenoid device 60 again. When the solenoid device 60 is operated, the high pressure hydraulic pressure is immediately supplied to the upper part of the hydraulic cylinder 50. Be press operation When the solenoid device 60 is “off” after the press work is completed, the hydraulic pressure pumped from the low pressure pump unit 20 is rapidly supplied to the lower portion of the hydraulic cylinder 50 so that the piston rod can be operated. Due to the effect that the rising operation of 52 proceeds very quickly, the next press work can be performed quickly.

The present invention is to connect the auxiliary hydraulic line on the hydraulic supply line connecting the high pressure check valve device and the hydraulic cylinder in the conventional hydraulic pump consisting of a high pressure pump unit and a low pressure pump unit, A solenoid device is provided with an on / off valve device for closing or opening the hydraulic pressure, and also a structure for connecting a hydraulic inflow and outflow line for supplying the hydraulic pressure at the discharge port side of the low pressure pump unit to the lower portion of the hydraulic cylinder and the low pressure pump unit. A hydraulic check valve device is installed on the inlet side of the hydraulic inlet and outflow line to the oil tank. Pressing the hydraulic cylinder as a means of turning on and off the solenoid device while the hydraulic pump is in operation. Of course, the piston rod can be pumped from the low pressure pump In addition to the effect of operating to rapidly rush into the hydraulic pressure to the response signal to the piston rod appearance and immersed quickly in practical work designed with the advantage of being able to proceed to the press work more effectively.

Claims (1)

A low pressure check valve device 30 is mounted between the high pressure pump device 10 and the discharge port 20ｂ of the low pressure pump device unit 20, which are directly connected to one motor M output shaft. The hydraulic pressure pumped from the pump is supplied to the upper portion of the hydraulic cylinder 50 through the high pressure check valve unit 40 as the hydraulic supply line 5, and is provided on the hydraulic supply line 5. It is equipped with an on-off valve device 61 which speaks to the hydraulic line 7 and closes or opens the hydraulic pressure by the solenoid device 60, and discharge port 20ｂ side of the low pressure pump device 20 and the hydraulic cylinder 50. After connecting the lower side to the hydraulic outflow line (9), the recovery check valve for the hydraulic pressure of the low pressure state to act on the hydraulic outflow line (9) and the hydraulic pressure flowing back therefrom is recovered to the oil tank (2) The device 70 is installed to hydraulically operate the inlet and out of the piston rod. Hydraulic pump characterized by.