KR101068010B1 - Hydraulic hand pump - Google Patents

Abstract

The present invention relates to a hydraulic hand pump, and more particularly, it is possible to change the strength of the hydraulic pressure as well as to replace the piston of the pump body is configured to easily replace the piston, with the load on the hand pump To provide a hydraulic hand pump that can discharge the hydraulic pressure at high pressure by the high pressure operating means when acting.

Hand pump, piston, cylinder, hydraulic chamber, high pressure check valve.

Description

Hydraulic hand pump

The present invention relates to a hydraulic hand pump, and more particularly, to a hydraulic hand pump that can change the strength of the hydraulic pressure by applying the piston of the pump body in replacement.

In general, the hydraulic hand pump is for manually supplying hydraulic pressure to a hydraulic actuator operated by hydraulic pressure, and generates hydraulic pressure by operating a lever of a pump body provided with an oil tank.

Conventional techniques related to such a hydraulic hand pump include a 'hydraulic double piston for hydraulic pump' of Korean Utility Model No. 20-0411859 or 'hydraulic hand pump' of Korean Patent No. 10-0820340. Detailed description thereof will be omitted, and briefly described with reference to FIG. 1, the piston 2, which is operated by the lever, is installed vertically in the pump body 1.

However, the conventional technique as described above is limited in the strength of the discharge hydraulic pressure in accordance with the specifications of the hand pump. In other words, as the strength of the hydraulic pressure discharged from the pump is limited according to the diameter of the pump body and the piston, a hydraulic hand pump suitable for the hydraulic actuator must be selected and applied. There has been a problem in that the hydraulic hand pump needs to be purchased again. This adds to the economic burden of repurchasing the pump.

An object of the present invention to solve the above problems can be configured to easily replace the piston assembled in the pump body to change the strength of the hydraulic pressure supplied from the hydraulic hand pump, when the load acts on the hand pump The present invention provides a hydraulic hand pump capable of discharging hydraulic pressure at high pressure by a high pressure operating means.

Another object of the present invention is to prevent the internal oil from flowing out while at the same time adjusting the air control means to smoothly enter and exit the air according to the pressure change in the oil tank.

In order to achieve the above object, the present invention, by operating the upper lever of the pump body coupled to the oil tank to supply the hydraulic pressure through one side of the connector, the hydraulic hand pump provided with a hydraulic release valve on one side of the pump body A first piston operating by the lever is inserted into a low pressure cylinder formed at an upper center of the pump body. A high pressure hole and a low pressure hole are formed in an inner bottom of the low pressure cylinder, and an inner bottom of the first piston. Hydraulic generating means for forming a high-pressure cylinder and inserting a hollow second piston vertically assembled into the high-pressure hole into the high-pressure cylinder; The first, second and third hydraulic chambers are formed in the first suction hole connected to the oil tank at the lower portion of the low pressure cylinder, and the first, second and third check balls and the springs are inserted in multiple stages so that the third A hydraulic opening and closing means in close contact with a connector coupled to the hydraulic chamber, the low pressure hole being connected to the first hydraulic chamber, and the high pressure hole being connected to the second hydraulic chamber; A second suction hole having a high pressure check valve is formed next to the first suction hole, and the second suction hole has a high pressure check valve as a pressure acts through a return flow path connected to the third hydraulic chamber. Or it proposes a hydraulic hand pump comprising a high pressure supply means for opening or closing the high pressure supply passage directly connected to the second hydraulic chamber.

In another aspect, the present invention, the air regulator is provided on one side or the other side of the oil tank, the air regulator is connected to the inside of the air tank, the inlet hole having a first check valve and the discharge hole having a second check valve opposite According to the configuration of the direction, it is characterized in that the air adjusting means is provided so that air is introduced or discharged by the internal pressure change of the oil tank.

The present invention can easily replace the piston of the pump body, of course, there is an effect that can easily change the strength of the hydraulic pressure according to the specification of the piston without replacing the hydraulic hand pump as well as the pump body itself. This entails the effect of broadening the scope of application of the hydraulic actuator using the hydraulic hand pump.

In another aspect, the present invention has the advantage of preventing the oil out of the oil tank through the air adjusting means to the outside, and the flow of air in accordance with the change in the internal pressure of the oil tank is automatically adjusted to smooth the operation.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. 2 is a front view of a hydraulic hand pump according to the present invention, Figure 3 is a view showing the configuration of a hydraulic hand pump according to a preferred embodiment of the present invention in cross section.

Hydraulic hand pump of the present invention according to the drawings, by operating the upper lever 12 of the pump body 20 coupled to the oil tank 10 to supply the hydraulic pressure through the connector 52 on one side, the pump In the hydraulic hand pump provided with a hydraulic release valve 70 on one side of the body, the first piston 42 which is operated by the lever 12 to the low pressure cylinder 21 formed in the upper center of the pump body 20. ) And a high pressure hole 22 and a low pressure hole 23 are formed in the inner bottom of the low pressure cylinder 21, and a high pressure cylinder 43 is formed inside the bottom of the first piston 42. A hydraulic generating means (40) into which the hollow second piston (46) assembled vertically in the high pressure hole (22) is inserted into the high pressure cylinder (43); The first, second, and third hydraulic chambers 26a, 26b, and 26c are formed in the first suction hole 25 connected to the oil tank 10 at the lower portion of the low pressure cylinder 21, respectively. The second and third check balls 54, 56 and 58 and the springs 55, 57 and 59 are fitted in multiple stages to be in close contact with the connector 52 coupled to the third hydraulic chamber 26 c. A hydraulic opening and closing means (50) for connecting the low pressure hole (23) to the hydraulic chamber (26a) and the high pressure hole (22) to the second hydraulic chamber (26b); A second suction hole 30 having a high pressure check valve 61 is formed next to the first suction hole 25, and the second suction hole 30 is a return flow path connected to the third hydraulic chamber 26c. High pressure supply such that the high pressure check valve 61 opens or shuts off the high pressure supply passage 34 directly connected to the first hydraulic chamber 26a or the second hydraulic chamber 26b as the pressure acts through the 33. It is characterized in that it consists of a means (60).

The above is described in more detail as follows.

4 is an internal cross-sectional view of the hydraulic hand pump according to the present invention to suck oil, and FIG. 5 is a cross-sectional view taken along the line “A”-“A” of FIG. 4. 6 is an internal sectional view of a state in which the hydraulic hand pump of the present invention discharges hydraulic pressure, and FIG. 7 is an operating state diagram illustrating a state in which high pressure hydraulic pressure is supplied by the high pressure operating means.

In the hydraulic hand pump of the present invention, the oil tank 10 is coupled to one side tank coupling groove 16 of the pump body 20 to be sealed, and the first piston 42 exposed upward to the pump body has a lever 12. Connected with

The pump body 20 is provided with a hydraulic pressure generating means 40 by forming a concave low pressure cylinder 21 in the upper center, the first suction hole 25 is formed in the lower portion of the low pressure cylinder 21 and the hydraulic opening and closing Means 50 are provided, and the low pressure cylinder is connected to the second hydraulic chamber 26b and the first hydraulic chamber 26a through the high pressure hole 22 and the low pressure hole 23 on the bottom, respectively. In addition, the high pressure operating means 60 is provided in the second suction hole 30 formed at one side of the first suction hole 25, and the hydraulic release valve 70 and the relief valve 74 are provided at the front side.

The hydraulic pressure generating means 40 forms a low pressure cylinder 21 at the upper center of the pump body 20 so that the first piston 42 is inserted and the second hydraulic chamber 26b is disposed on the inner bottom surface of the low pressure cylinder 21. The high pressure hole 22 is connected to the () and the low pressure hole 23 is connected to the first hydraulic chamber 26a next to the high pressure hole. The upper pin hole 45 of the first piston 42 is connected to the lever 12 so that the first piston 42 ascends and oil is transferred to the low pressure cylinder 21 through the low pressure hole 23. At the same time as the suction, the oil is sucked into the high pressure cylinder 43 through the second piston 46 vertically coupled to the high pressure hole 22. The O-ring 29 is inserted into the inner upper packing groove 24 of the low pressure cylinder 21, and the O-ring 48 is inserted by forming the packing groove 44 in the inner lower part of the high pressure cylinder 43.

In this case, the hydraulic force can be easily changed according to the specification of the hydraulic pressure generating means 40. That is, according to the size of the diameter of the high-pressure cylinder 43 and the second piston 46 can change the strength and discharge amount of the hydraulic pressure, of course, can be easily replaced.

The hydraulic opening and closing means 50 includes a first hydraulic chamber 26a to a second hydraulic chamber 26b and a third hydraulic chamber 26c having different diameters in the first suction hole 25 connected to the oil tank 10. Is formed in multiple stages, and the first check ball 54 to the second check ball 56 and the third check ball 58 are inserted into the hydraulic chambers 26a, 26b and 26c, respectively, between the check balls. Springs (55, 57, 59) is inserted into the elastic, is in close contact with the connector 52 is coupled to the third hydraulic chamber (26c). The connector 52 connects the hydraulic hose to the hollow tube and sandwiches the oil to prevent leakage.

The high pressure operating means 60 is formed side by side with a second suction hole 30 having a high pressure check valve 61 next to the hydraulic chamber, the second suction hole 30 through one side connection hole 32 It is connected to the first suction hole 25 and the other side is connected to the third passage chamber 26c through the return passage 33, the first hydraulic chamber 26a or the second through the high-pressure supply passage 34 in the middle It is connected to the hydraulic chamber 26b. The high pressure check valve 61 has an intermediate portion is concave and the O-ring 65 is fitted into the packing groove 63 of one end, the spring 66 is fitted to the outside of the other protruding frame 62, the pressure regulator (68) is elastically in close contact. The high pressure check valve 61 opens or closes the second suction hole 30 to connect or block the second suction hole 30 and the high pressure supply passage 34 to supply hydraulic pressure to the high pressure cylinder 43.

The hydraulic release valve 70 releases the hydraulic pressure by opening the hydraulic return passage 36 connecting the third hydraulic chamber 26c and the tank coupling groove 16 so that the discharged hydraulic pressure returns to the oil tank.

The relief valve 74 elastically blocks the connection passage with the second hydraulic chamber 26b by the spring 76 and the pressure regulator 78 so that hydraulic pressure is discharged above a predetermined pressure. It is a safety valve which prevents it from being prevented, and is sealed by the plug 79.

One side of the pump body 20 forms a measuring hole 38 connected to the third hydraulic chamber 26c to couple various measuring instruments such as a pressure gauge.

As described above, in the hydraulic hand pump according to the present invention, the first check ball 54 opens the first intake yoke 25 as shown in FIG. 4 according to the upward movement of the first and second pistons 42 and 46 under no load. At the same time, the second check ball 56 is opened and oil is sucked into the low pressure cylinder 21 and the high pressure cylinder 43 through the first and second hydraulic chambers 26a and 26b. Thereafter, as shown in FIG. 6, as the first piston descends, the second and third check balls 56 and 58 are opened to discharge the hydraulic pressure to the third hydraulic chamber 26c to quickly supply the low pressure hydraulic pressure.

When a load acts as when lifting a heavy object by the hydraulic hand pump, the hydraulic pressure to the load of the heavy object is reversely acting on the third hydraulic chamber 26c. In addition, the second suction hole 30 is opened during the suction operation of the first piston 42 by opening the second suction hole 30 by reversing the high pressure check valve 61 through the return passage 33. The oil is sucked into the high pressure cylinder 43 through the over high pressure supply passage 34 to discharge the high pressure hydraulic pressure through the second and third hydraulic chambers. At this time, in the low pressure cylinder 21, the hydraulic pressure is sucked or discharged at a low pressure as in the no-load state, and has no relation to the opening / closing state of the first hydraulic check 26a.

The hydraulic hand pump of the present invention can easily replace the first and second pistons 42 and 46 as well as change the strength of the hydraulic pressure appropriately according to the specifications of the high pressure cylinder 43 and the second piston 46. It is possible to expand the scope of application of the hydraulic actuator to various.

Figure 8 is an enlarged internal cross-sectional view of the air adjusting means of the hydraulic hand pump according to the present invention.

According to the present invention, an air regulator 81 is installed at one side or the other side of the oil tank 10, and the air regulator 81 is connected to the inside of the air tank and has a first check valve 84a. By configuring the discharge hole 83 having the hole 82 and the second check valve 84b in the opposite direction, the air adjusting means for allowing air to flow in or out by the internal pressure change of the oil tank 10 ( 80) is provided.

That is, the air regulating means 80 forms a coupling groove 18 connected to the inside of the oil tank at one side of the pump body or the other end of the oil tank 10 and installs an air regulator 81 to operate the pump. According to the oil tank 10 to automatically adjust the flow of the inflow or outflow of course to prevent the oil from flowing out. The first and second check valves 84a and 84b of the air inlet 82 and the discharge hole 83 which are formed in the air regulator 81 in the opposite directions are blocked, and the check valves 84a and 84b are provided. The oil 85 is fitted therein and is elastically in close contact with the spring 86, the stop ring 87, and the snap ring 88.

When air flows into the oil tank 10, as the internal pressure of the oil tank is lowered, the first check valve 84a is opened, and external air is introduced therein, and conversely, when the internal pressure of the oil tank is increased, the second pressure is increased. The check valve 84b is opened to release internal air.

1 is a cross-sectional view illustrating a pump body of a hydraulic hand pump according to the prior art.

2 is a front view of a hydraulic hand pump according to the present invention.

3 is a cross-sectional view showing the configuration of a hydraulic hand pump according to a preferred embodiment of the present invention.

Figure 4 is an internal cross-sectional view of the hydraulic hand pump according to the present invention to suck oil.

5 is a cross-sectional view taken along the line “A”-“A” of FIG. 4.

Figure 6 is an internal cross-sectional view of the hydraulic hand pump of the present invention to discharge the hydraulic pressure.

7 is an operating state diagram showing a state in which high pressure hydraulic pressure is supplied by the high pressure operating means.

Figure 8 is an enlarged internal cross-sectional view of the air adjusting means of the hydraulic hand pump according to the present invention.

Claims (2)

As the upper lever 12 of the pump body 20 coupled with the oil tank 10 is operated, hydraulic pressure is supplied through the connector 52 on one side, and a hydraulic release valve 70 is provided at one side of the pump body. In the equipped hydraulic hand pump, The first piston 42 operated by the lever 12 is inserted into the low pressure cylinder 21 formed in the upper center of the pump body 20, and the high pressure hole 22 is formed in the inner bottom of the low pressure cylinder 21. And a low pressure hole 23 are formed, the hollow second piston 46 is formed in the bottom surface of the first piston 42 to form a high-pressure cylinder 43 and vertically assembled in the high-pressure hole 22 Hydraulic pressure generating means (40) inserted into the high pressure cylinder (43); The first, second, and third hydraulic chambers 26a, 26b, and 26c are formed in the first suction hole 25 connected to the oil tank 10 at the lower portion of the low pressure cylinder 21, respectively. The second and third check balls 54, 56, 58 and the springs 55, 57, 59 are fitted in multiple stages and are in close contact with the connector 52 coupled to the third hydraulic chamber 26c. A hydraulic opening and closing means (50) for connecting the low pressure hole (23) to the chamber (26a) and the high pressure hole (22) to the second hydraulic chamber (26b); A second suction hole 30 having a high pressure check valve 61 is formed next to the first suction hole 25, and the second suction hole 30 is a return flow path connected to the third hydraulic chamber 26c. High pressure supply such that the high pressure check valve 61 opens or shuts off the high pressure supply passage 34 directly connected to the first hydraulic chamber 26a or the second hydraulic chamber 26b as the pressure acts through the 33. Hydraulic hand pump, characterized in that consisting of means (60). The method of claim 1, An air regulator 81 is installed at one side or the other side of the oil tank 10, and the air regulator 81 is connected to the inside of the air tank and has an inlet hole 82 having a first check valve 84a; As the discharge hole 83 having the second check valve 84b is configured in the opposite direction, the air adjusting means 80 is provided to allow air to flow in or out by the internal pressure change of the oil tank 10. Hydraulic hand pump characterized by.

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