KR200310233Y1 - A structure oil jack - Google Patents

Abstract

The present invention relates to a hydraulic jack structure. The present invention is a hydraulic jack consisting of a base, a hydraulic tank, a hydraulic cylinder and a piston, the hydraulic tank to form a cutting surface perpendicular to the outer peripheral side, the same between the outer peripheral edge of the hydraulic tank on both ends of the cutting surface The guide piece is installed to protrude forward to a height to form a guide groove, and the cutting groove is formed in the base to communicate with the guide groove, the guide groove, the cutting groove and the piston upper and lower simultaneously with the piston The moving member is provided is configured.

The present invention configured as described above is filled with oil and cuts the hydraulic tank of the hydraulic cylinder outer periphery of the piston into which the piston is inserted, thereby forming a cut surface so that the center of the piston is closer to the piston so as to apply less force to the piston when the piston descends. As a result, the piston is not generated, and the piston is made of a round rod type, so that the deformation of the piston is not caused, such that the operation is facilitated, and the moving member is supported by the elastic member and moved when the piston is lowered and lowered. It is provided with the effect of automatically lowering the restoring force of the elastic member when the piston descends.

Description

Hydraulic Jack Structure {A STRUCTURE OIL JACK}

The present invention relates to a hydraulic jack, and more particularly to a hydraulic jack structure that is less force for the piston to be raised and lowered in the hydraulic cylinder and prevents bending, and automatically lowered when the piston is lowered.

In general, a jack is a device for easily lifting a workpiece or a structure. Screw jacks using screws, drive jacks using racks, and hydraulic jacks using oil are widely used. Let's explain.

This hydraulic jack will be described with reference to the accompanying drawings.

1 is a cross-sectional view showing a conventional hydraulic jack structure.

As shown, the hydraulic jack 100 is provided on the plate-shaped base 200, the hydraulic tank 110 is filled with oil therein, the hydraulic cylinder 120 integrally formed in the central region of the hydraulic tank 110 ) And the piston 130 is inserted into the hydraulic cylinder 120 to be elevated.

One side of the hydraulic tank 110, the bracket 210 protruding from the base 200 and the side is fixed to the hinge 220, the rear side pumping means 300 and the hinge for supplying hydraulic oil to the hydraulic cylinder 120 ( The lever 320 is connected to the 310.

The lever 320 is inserted into the rod-type handle 330 to facilitate pumping.

The hydraulic tank 110, the pumping means 300, and the hydraulic cylinder 120 are provided with flow paths 400 and 410 for supplying hydraulic pressure, and connect the pumping means 300 and the hydraulic cylinder 120. The return passage 420 is returned to the hydraulic tank 110 in the flow passage 410.

In addition, the return flow passage 420 is provided with a check valve 440 is configured to selectively supply or return the hydraulic fluid to the hydraulic cylinder 120 and the hydraulic tank 110.

Referring to the operation state of the conventional hydraulic jack configured as described above, as shown in Figure 1 to match the base 200 of the hydraulic jack 100 directly below the structure or workpiece to be lifted.

In this state, the bracket 210 protruding from one side of the base 200 and the side are fixed to the hinge 220, and connected to the rear side by a pumping means 300 and a hinge 310 for supplying hydraulic oil to the hydraulic cylinder 120. The pumping means 300 is operated by using the handle 330 inserted into the lever 320.

Then, the hydraulic tank 110, the pumping means 300, the pumping means 300 and the hydraulic cylinder 120 is open to the flow path 400, 410 for the supply of the operating hydraulic pressure while the hydraulic pressure in the hydraulic cylinder 120 By increasing, the piston 130 is raised along the hydraulic cylinder 120, and thus the structure or the workpiece is lifted upward.

Next, after lifting up the structure or the workpiece, assembling or disassembling the parts, and then dismantling, the return flow path 420 formed in the flow path 410 connecting the pumping means 300 and the hydraulic cylinder 120. By opening the check valve 440 provided to return the hydraulic oil in the hydraulic cylinder 120 to the hydraulic tank 110, the hydraulic pressure is lowered so that the piston 130 is gradually lowered along the inner diameter of the hydraulic cylinder 120 will be.

In order to use the used hydraulic jack 100 again, the check valve 2 440 is locked, and the pumping means 300 is repeatedly operated up and down as described above to operate the hydraulic pressure in the hydraulic cylinder 120. To raise the piston 130 is to move upward.

However, such a conventional hydraulic jack is filled with oil therein, and the hydraulic tank formed integrally with the outer circumference of the hydraulic cylinder into which the piston is inserted is formed to maintain a circular shape so that the center of the piston is farther away. The force applied to the piston caused a lot of pressure on the piston, and the piston was made as a pipe type, and the deformation occurred such as the piston was bent. When the piston descends, a problem arises in that the piston descends completely depending on the user's power.

In order to solve the conventional problems configured as described above, the present invention is to provide a hydraulic jack structure to lift the weight by preventing the piston bending of the hydraulic jack.

Technical problem of the present invention for achieving the above object is a hydraulic jack consisting of a base, a hydraulic tank, a hydraulic cylinder and a piston, the hydraulic tank forms a cut surface perpendicular to the one outer periphery, the hydraulic pressure at both ends of the cut surface A guide groove is formed to protrude forward at the same height between the outer periphery of the tank and the upper portion of the base to form a guide groove, and the cut groove is formed in the base to communicate with the guide groove, and the guide groove, the cut groove The piston is achieved by having a moving member which is raised and lowered simultaneously with the piston.

1 is a cross-sectional view showing a conventional hydraulic jack structure.

Figure 2 is an exploded perspective view showing a hydraulic jack structure according to the present invention.

Figure 3 is a cross-sectional view showing a hydraulic jack structure according to the present invention.

Figure 4 is a longitudinal sectional view schematically showing a hydraulic jack structure according to the present invention.

5a, 5b is an operation state of the hydraulic jack according to the present invention.

<Description of the symbols for the main parts of the drawings>

20: base 21: incision groove

30: hydraulic tank 32: guide piece

34: guide groove 40: hydraulic cylinder

42: piston 50: moving member

51: seating groove 54,56: upper and lower body

60: hook ring 70: elastic member

Hereinafter, with reference to the accompanying drawings will be described the configuration of the present invention and its operation.

2 is an exploded perspective view showing a hydraulic jack structure according to the present invention, Figure 3 is a cross-sectional view showing a hydraulic jack structure according to the present invention, Figure 4 schematically shows a hydraulic jack structure according to the present invention Figure 5 is a longitudinal cross-sectional view, Figure 5a, 5b is an operation state diagram of the hydraulic jack according to the present invention.

As shown in Figures 2 to 4, the hydraulic jack 10 of the present invention is provided on the plate-shaped base 20, the oil tank 30, oil filling the inside of the center of the hydraulic tank 30 It consists of a hydraulic cylinder 40 integrally formed in the area, and a piston 42 inserted into the hydraulic cylinder 40 to be lifted up and down.

The hydraulic tank 30 forms a cutting surface perpendicular to the outer periphery of one side, and maintains the same height from both sides of the outer periphery of the hydraulic tank 30 to the upper portion of the base 20 to project the guide piece 32 in front of the cutting surface. It is installed so that the guide groove 34 is formed.

At this time, the base 20 is cut by the width corresponding to the guide groove 34 of the hydraulic tank 30 to form the cutting groove 21.

On the other hand, the guide groove 34, the cutting groove 22 and the upper portion of the piston 42 is provided with a moving member 50 which is raised and lowered simultaneously with the piston 42.

The movable member 50 is integrally formed at one end of the upper body 54 and the upper body 54 having a seating groove 51 seated on the upper end of the piston 42 in the inner central region, and a guide groove 34 and The lower body 56 is movably inserted into the incision groove 21.

In addition, between the ends of the upper body 54 and the base 20, the catching ring 60 is provided to correspond to each other, and between the catching ring 60 is provided with an elastic member 70, respectively, of the piston 42 The elastic member 70 is extended at the time of rise, and the elastic member 70 is returned at the time of falling.

In addition, the piston 42 is made of a round bar so that bending does not occur when used repeatedly.

One side of the hydraulic tank 30, the bracket 22 protruding from the base 20 and the side is fixed to the hinge 23, the rear side of the pumping means 25 and the hinge for supplying hydraulic oil to the hydraulic cylinder (40) It is provided with a lever 27 connected to 26.

The lever 27 is inserted into the rod-shaped handle 29 to facilitate the pumping.

The hydraulic tank 30, the pumping means 25 and the hydraulic cylinder 40 is formed with a flow path (70) 71 for supplying the working hydraulic pressure, connecting the pumping means 25 and the hydraulic cylinder (40) In the flow path 71, a return flow path 72 returned to the hydraulic tank 30 is formed.

In addition, the return flow passage 72 is provided with a check valve 74 to be configured to selectively supply or return hydraulic oil to the hydraulic tank 30 and the hydraulic cylinder 40.

Referring to the operating state of the present invention configured as described above, as shown in Figures 5a, 5b to match the base 20 of the hydraulic jack 10 directly below the structure or workpiece to be lifted.

In this state, the bracket 22 protruding from one side of the base 20 and the hinge side 23 are fixed, and the rear side is connected by a pumping means 25 and a hinge 26 for supplying hydraulic oil to the hydraulic cylinder 40. The pumping means 25 is operated by the handle 29 inserted into the lever 27.

Then, in the hydraulic tank 30, the pumping means 25, the pumping means 25 and the hydraulic cylinder 40, the flow paths 70 and 71 for supplying the working hydraulic pressure are opened, and the hydraulic pressure in the hydraulic cylinder 40 is opened. The piston 42 is increased along the inner diameter of the hydraulic cylinder 40 by the increase, and the upper portion 54 of the movable member 50 is raised as the seating groove 51 in which the upper end of the piston 42 is seated is raised. Will rise.

At the same time, the cutting surface is formed perpendicularly to the outer circumference of one side of the hydraulic tank 30, and the guide piece 32 protrudes to both ends of the cutting surface by maintaining the same height from both sides of the outer circumference of the hydraulic tank 30 to the upper portion of the base 20. Lower body 56 movably inserted into the cut groove 21 formed by cutting the base 20 by a width corresponding to the guide groove 34 and the guide groove 34 of the hydraulic tank 30 formed by installing so as to be Is to rise along the guide groove 34 is to be lifted up the structure or workpiece.

At this time, the elastic member 70 provided between the both ends of the upper body 54 and the engaging ring 60 between the base 20 is extended by the raised length of the piston 42.

Then, lifting a structure or a work piece, assembling or disassembling the parts, and then performing a work, and then, returning to the return flow path 74 formed in the flow path 71 connecting the pumping means 25 and the hydraulic cylinder 40. By opening the check valve 74 provided to return the hydraulic oil in the hydraulic cylinder 40 to the hydraulic tank 30, the hydraulic pressure is lowered so that the piston 42 is gradually lowered along the inner diameter of the hydraulic cylinder 40. will be.

At this time, the piston 42 is automatically lowered by automatically returning the elastic member 60 provided between the both ends of the upper body 54 and the engaging ring 62 between the base 20 to the original state.

In order to use the used hydraulic jack 10 again in this manner, the check valve 74 is closed, and the pumping means 25 is repeatedly operated up and down as described above to increase the hydraulic pressure in the hydraulic cylinder 40. The piston 42 is moved upward.

According to the present invention as described above, the oil is filled in the inside, and the hydraulic tank of the outer circumference of the hydraulic cylinder into which the piston is inserted is cut off the outer circumference to form a cut surface so that the center of the piston is approached to raise and lower the piston. The less force applied to the piston prevents the piston from being generated, and the piston is made of a round bar type, so that the deformation is not caused by the bending of the piston. By providing a moving member that is moved during the lifting and lowering is provided with the effect of automatically lowering the restoring force of the elastic member when the piston descends.

Claims (4)

In the hydraulic jack consisting of a base, a hydraulic tank, a hydraulic cylinder and a piston, The hydraulic tank 30 forms a cut surface perpendicular to one outer periphery, and guides 32 forward at the same height between the outer periphery of the hydraulic tank 30 at both ends of the cut surface and the upper portion of the base 20. Installed to protrude to form a guide groove (34), The cutting groove 21 is formed in the base 20 so as to communicate with the guide groove 34. Hydraulic guide structure, characterized in that the guide groove (34), the cutting groove (21) and the upper portion of the piston (42) is provided with a moving member (50) which is raised and lowered simultaneously with the piston (42). The hydraulic jack structure of claim 1, wherein the piston (42) has a center close to an outer circumference of the hydraulic tank (30). The hydraulic jack structure according to claim 1, wherein the piston (42) is of a round bar type. The method of claim 1, wherein the moving member 50 An upper body 54 having a seating groove 51 mounted on an upper end of the piston 42 in an inner central region thereof; A lower body 56 integrally formed at one end of the upper body 54 and inserted to be movable between the guide groove 34 and the cutting groove 22; A catching ring 60 provided correspondingly between both ends of the upper body 54 and the base 20; And An elastic member 70 provided between the locking rings 60; Hydraulic jack structure, characterized in that consisting of.