KR101452901B1 - Apparatus for testing of hydraulic breaker - Google Patents

Abstract

The present invention relates to a device for testing rapping energy, rapping frequency, rapping efficiency, durability life, and the like of a hydraulic breaker. More specifically, the present invention relates to a hydraulic breaker testing device which mounts and tests a hydraulic breaker to be tested while being capable of mounting various types of hydraulic breakers and hydraulic breakers of various sizes, and is configured to control vertical and horizontal angles of a clamp on which a hydraulic breaker is mounted, thereby facilitating mounting and testing a hydraulic breaker.

Description

[0001] Apparatus for testing hydraulic breakers [0002]

The present invention is a device for testing the striking energy, striking frequency, striking efficiency, and durability of a hydraulic breaker, and it is possible to mount a hydraulic breaker, which is a test device, and to mount a hydraulic breaker of various sizes and types , And a hydraulic breaker testing apparatus which is easy to mount and test hydraulic breakers.

The hydraulic breaker is mounted on a construction machine such as an excavator, a loader, etc., and the kinetic energy of the piston reciprocating from the hydraulic power to the power source is transmitted to the chisel as impact energy to crush the rock and concrete.

In general, the performance of a hydraulic breaker can be represented by the striking energy, and the amount of energy transmitted through the chisel by a single stroke of the piston is the striking energy. The performance, durability, and reliability of the hydraulic breaker are evaluated by examining the impact energy, impact frequency, impact efficiency, and durability life of the hydraulic breaker.

Conventionally, in order to test the performance of the hydraulic breaker as described above, a hydraulic breaker is mounted directly on an excavator, and the performance of the hydraulic breaker is tested using the pressure that presses the hydraulic breaker with the boom of the excavator. Or the hydraulic cylinder was installed in the clamp, and the performance of the hydraulic breaker was tested by applying a pressing force to the hydraulic breaker by the hydraulic cylinder.

Therefore, it is difficult to test according to various sizes and types of hydraulic breakers in the related art, and the load applied to the hydraulic breaker by the boom of excavation is not constant and the load applied direction is not constant, have.

Thus, there is a need for a device capable of accurately testing the impact frequency, the impact efficiency, and the durability life of the hydraulic breaker including the impact energy, which is the performance of the hydraulic breaker.

A related art related to this is disclosed in a research paper entitled " Study on Analysis of Strain Deformation of a Hydraulic Rock Drill Chisel ".

A Study on the Analysis of Impact Strain for Hydraulic Breaker Chisel Journal of Hydraulic and Power Systems, Vol. 4, No. 4, pp. 21-27, December 2007 Park Jongwon, Lee Ki Wook, Kim Hyung

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a hydraulic breaker of various sizes and types, And a hydraulic breaker testing device that can be easily mounted and can accurately test the impact energy, the impact frequency, the impact efficiency, and the durability life of the hydraulic breaker.

According to an aspect of the present invention, there is provided an apparatus for testing a hydraulic breaker, comprising: a frame having a plurality of side frames formed on an upper side of a base and an upper frame formed on an upper end of the side frames; A vertical moving part coupled to the frame and movable in a height direction along the side frame; A pressing means capable of adjusting the height of the up and down moving unit and pressing the bottom moving unit in a downward direction, the pressing unit having one side coupled to the frame and the other side connected to the up and down moving unit; A left and right moving unit coupled to the up and down moving unit and configured to be movable in the longitudinal direction along the up and down moving unit; And a clamping unit coupled to the left and right moving unit and mounted with the hydraulic breaker. And a control unit.

A guide rail may be formed on the side frame, and a roller may be formed on the guide rail to rotate the guide rail.

The up-and-down moving unit has a guide groove formed therein, and the left and right moving unit is moved along the guide groove.

Further, the clamping unit is coupled to the left and right moving units, and is configured to be adjustable in angle.

The clamping unit may include a clamping block having a fixing bracket hinged to one side of the upper portion of the clamping unit and a lower clamping block to which the hydraulic breaker is mounted, And the other side of the angle adjusting cylinder is hinged to the other side of the upper portion of the fixing bracket.

Further, the pressing means is characterized in that the lower side is arranged to be inclined in the outward direction.

The frame may further include height adjustment means coupled to one side of the frame and coupled to the other side of the frame to adjust the height of the up and down movement unit.

The hydraulic breaker testing apparatus of the present invention is advantageous in that it can be tested by mounting hydraulic breakers of various sizes and types.

In addition, it is easy to mount the hydraulic breaker, and it is possible to accurately test the impact energy, the impact frequency, the impact efficiency, and the durability life of the hydraulic breaker.

1 is a schematic view showing a structure of a general hydraulic breaker.
2 to 4 are a perspective view, a front view and a side view of a hydraulic breaker testing apparatus according to an embodiment of the present invention;
5 is a side view showing the operation structure of the up and down moving part according to the present invention.
6 is a perspective view illustrating an operating structure of a left and right moving unit according to the present invention;
7 and 8 are exploded views and assembly views showing a coupling structure of a clamping unit and a hydraulic breaker according to the present invention.
9 is a front view showing an operating structure of the clamp angle adjusting unit according to the present invention.
10 is a schematic view showing an operating structure of a clamping block according to the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the hydraulic breaker testing apparatus of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing a structure of a general hydraulic breaker.

1, a bracket 30 is formed on an upper portion of a body 20, a chisel 50 is formed on a lower portion of the body 20, and a pair of fixing holes 31 are formed in a bracket 30 And the fixing pin 40 is coupled to the fixing hole 31. Thus, the hydraulic breaker 10 is configured such that the portion of the fixing pin 40 can be fixedly coupled to equipment such as an excavator. 1 (a), the hydraulic breaker 10 may include a top fixing method in which a fixing portion is formed on an upper portion of the body 20 or a side fixing method in which a fixing portion is formed on an upper side surface of the body 20, It can be fixed.

2 is a perspective view of a hydraulic breaker testing apparatus according to an embodiment of the present invention, FIG. 5 is a side view showing an operating structure of a vertical moving unit according to the present invention, FIG. Fig. 7 is a perspective view showing an operating structure of a left and right moving part according to the invention.

As shown in the drawings, the hydraulic breaker testing apparatus 1000 according to an embodiment of the present invention includes a plurality of side frames 120 formed on an upper side of a base 110, A frame 100 on which a light emitting device 130 is formed; A vertical moving part 200 coupled to the frame 100 and movable in a height direction along the side frame 120; A pressing means 230 coupled to one side of the frame 100 and coupled to the other side of the up and down movement unit 200 to adjust the height of the up and down movement unit 200 and press downward; A left and right moving part 300 coupled to the up and down moving part 200 and configured to be movable in the longitudinal direction along the up and down moving part 200; And a clamping unit 400 coupled to the left and right moving unit 300 to mount the hydraulic breaker 10 therein. .

The frame 100 has a base 110 fixed on the ground, four side frames 120 are formed in a square shape on the upper side thereof, and an upper frame 130 is formed on an upper side of the side frames 120. At this time, the frame 100 may be formed of an H beam material having a high structural rigidity, and the reinforcement frame 121 may be formed to reinforce the side frame 120. The base 110 may be formed in a shape in which a pair of flat plates are formed so as to be spaced apart from each other in the width direction and an H beam is interposed therebetween so that the central portion is empty.

As shown in FIG. 5, the vertical movement unit 200 is movable in the height direction along the side frame 120, and the vertical movement unit 200 is disposed between the side frames 120 to be moved in the height direction .

The pressing means 230 is coupled to the base 110 of the frame 100 on the lower side and is coupled to the upper and lower moving parts 200 to adjust the height of the up and down moving parts 200 and press the lower and the upper moving parts 200 downward do. At this time, the pressurizing means 230 is formed of a hydraulic cylinder, and both ends can be coupled to the hinge 240, respectively.

The left and right moving part 300 is coupled to the up and down moving part 200 and is movable in the longitudinal direction along the up and down moving part 200 as shown in FIG. At this time, the left and right moving unit 300 can be moved in the longitudinal direction by the left and right adjusting means 320, and the left and right adjusting means 320 can be formed by the hydraulic cylinder. One side of the left and right adjusting means 320 is coupled to the up and down moving unit 200 and the other side is coupled to the left and right moving unit 300 so that the left and right moving unit 300 can be moved in the longitudinal direction have. The left and right moving part 300 is coupled to the up and down moving part 200 and can move together with the left and right moving part 300. The left and right moving part 300 is coupled to the up and down moving part 200, As shown in Fig.

The clamping part 400 is coupled to the lower side of the left and right moving part 300 and is a part where the hydraulic breaker 10 is mounted. At this time, the clamping part 400 is formed to be coupled with the pair of fixing pins 40 of the hydraulic breaker 10, and the hydraulic breaker 10 can be fixed to a general excavator as shown in FIG. 10 . That is, the right fixing hook 430 of the fixing hook 430 formed on the clamping block 420 is fixed, the left fixing hook 430 is coupled by the hinge, and the hydraulic breaker 10 can be configured to engage with the fixing pin 40.

4, a concrete foundation 60 is formed on the lower side of the frame 100 and a striking base 70 is formed on a central portion of the frame 100. The chisel 50 of the hydraulic breaker 10 is fixed to the striking base 70, As shown in FIG.

The hydraulic breaker testing apparatus of the present invention controls the height of the up-down moving part 200 by operating the hydraulic cylinder, which is the pushing means 230, according to the size (height) of the hydraulic breaker, So that the hydraulic breaker 10 to be tested can be mounted on the clamping part 400. After the hydraulic breaker 10 is mounted, the left and right moving parts 300 are moved again so that the hydraulic breaker 10 is disposed vertically above the center of the base 110, so that the chisel 50 of the hydraulic breaker 10, The upper and lower moving parts 200 are moved downward by using the pressing means 230 so that the chisel 50 of the hydraulic breaker 10 is pressed against the striking base 70, To be tested.

As described above, the hydraulic breaker testing apparatus of the present invention can be tested by mounting hydraulic breakers of various sizes and types, and it is possible to easily attach the hydraulic breaker and accurately measure the impact energy, the impact frequency, the impact efficiency, and the durability life of the hydraulic breaker There are advantages to be tested.

A guide rail 122 may be formed on the side frame 120 and a roller 220 may be formed on the guide rail 122 to rotate in contact with the guide rail 122.

5 and 6, the guide rail 122 is formed in a height direction on a surface facing the side frame 120, and the side surface of the up and down moving part 200 is brought into contact with the guide rail 122, And the roller 220 of the up-and-down moving unit 200 is smoothly moved in the height direction in a state in which the roller 220 is in close contact with the guide rail 122. At this time, the guide rails 122 are formed with protruding ribs in the height direction, and the rollers 220 are formed with grooves along the circumferential direction at the center of the outer circumferential surface so that the up and down moving parts 200 are moved up and down in the longitudinal direction . The rollers 220 formed on the up and down moving unit 200 may be formed to adjust the positions of the rollers 220 to match the widths of the pair of guide rails 122.

The up and down moving part 200 may have a guide groove 250 formed therein and the left and right moving part 300 may be coupled to move along the guide groove 250.

As shown in FIG. 6, the protrusions are formed on both sides of the left and right movement unit 300 and the left and right movement units 300 are slid in the longitudinal direction while the protrusions are inserted into the guide groove 250. Thus, the left and right moving unit 300 can be moved in the longitudinal direction along the up and down moving unit 200 in a state where the movement is restricted in the height and width directions by the up and down moving unit 200. At this time, a stopper is formed on the up-and-down moving unit 200 to prevent the left-to-right moving unit 300 from moving in the longitudinal direction.

In addition, the clamping unit 400 may be coupled to the left and right moving unit 300 and may be adjustable in angle.

This allows the angle of the clamping part 400 to be adjusted, so that the hydraulic breaker 10 of the top fixing type and the side fixing type can be mounted.

7 to 9, the clamping part 400 is coupled to the hinge 411 at one side of the upper part of the fixing bracket 410 to the left and right moving part 300, and the hydraulic breaker 10 is mounted at the lower part thereof A rotary shaft 330 is formed in the left and right moving part 300 so that one side of the angle adjusting cylinder 450 is coupled to the rotating shaft 330 and the angle adjusting cylinder 450 is coupled to the angle adjusting cylinder 450. [ And the hinge 411 may be coupled to the other side of the upper portion of the fixing bracket 410. [

That is, one side of the fixing bracket 410 may be coupled with the hinge 411 and rotated so that the angle of the clamping unit 400 is adjusted by the angle adjusting cylinder 450. Here, the angle adjusting cylinder 450 is fixed The bracket 410 is coupled to the other side of the upper portion of the bracket 410 by a hinge 411 so that the angle of the fixing bracket can be adjusted around the hinge 411. At this time, the angle adjusting cylinder 450 is coupled to the rotating shaft 330 formed in the left and right moving unit 300, so that the angle adjusting cylinder 450 and the fixing bracket 410 can be smoothly operated and rotated. The clamping block 420 is coupled to the lower portion of the fixing bracket 410 so that the hydraulic breaker 10 can be mounted.

Further, the pressing means 230 may be formed such that the lower side is inclined in the outward direction.

That is, the lower side of the hydraulic cylinder, which is the pressurizing means 230, is arranged to be inclined in the outward direction to prevent interference between the pressurizing means 230 and the up-down moving unit 200, And the up and down movement unit 200 can be separated from each other and the up and down movement unit 200 can be easily moved downward.

The apparatus may further include a height adjusting unit 150 coupled to one side of the frame 100 and the other side coupled to the up and down moving unit 200 to adjust the height of the up and down moving unit 200 .

In this case, the height adjusting means 150 is formed of a winch capable of winding the wire, and the winch is fixed to the base 110 and the pulley 140 is coupled to the upper frame 130, The height of the up and down moving part 200 can be adjusted by the height adjusting means 150 so that the pressing means 230 and the up and down moving part 200 can be easily disassembled and assembled, The moving part 200 can be lowered to the bottom surface, and maintenance and inspection of the apparatus is easy.

The hydraulic breaker testing apparatus of the present invention may be equipped with a hydraulic pressure supply unit for operating various hydraulic cylinders, a control unit for controlling the hydraulic cylinder, and a test apparatus and monitoring units for various tests.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

1000: Hydraulic breaker test equipment
100: frame
110: base 120: side frame
121: reinforcing frame 122: guide rail
130: upper frame 140: pulley
150: height adjusting means
200: Up and down moving part
210: body 220: roller
230: pressing means 240: hinge
250: Guide groove
300:
310: body 311:
320: lateral adjustment means
330:
400: clamping part
410: Fixing bracket 411: Hinge
420: clamping block 430: fixed hook
440: Hook rotation device 450: Angle adjusting cylinder
10: Hydraulic breaker 20: Body
30: Bracket 31: Fixing hole
40: Fixing pin 50: Chisel
60: concrete foundation 70: batting base

Claims (7)

A frame having a plurality of side frames formed on an upper side of the base and an upper frame formed on an upper end of the side frames;
A vertical moving part coupled to the frame and movable in a height direction along the side frame;
A pressing means capable of adjusting the height of the up and down moving unit and pressing the bottom moving unit in a downward direction, the pressing unit having one side coupled to the frame and the other side connected to the up and down moving unit;
A left and right moving unit coupled to the up and down moving unit and configured to be movable in the longitudinal direction along the up and down moving unit; And
A clamping part coupled to the left and right moving parts to mount the hydraulic breaker; And a hydraulic breaker testing device
The method according to claim 1,
Wherein a guide rail is formed on the side frame, and a roller is formed on the guide rail to rotate the lower rail in contact with the guide rail.
The method according to claim 1,
Wherein the upper and lower moving parts are formed with guide grooves on the inside and the left and right moving parts are moved along the guide grooves.
The method according to claim 1,
Wherein the clamping part is coupled to the left and right moving parts and is adjustable in angle.
5. The method of claim 4,
Wherein the clamping part is hinged to one side of the upper part of the fixing bracket to the left and right moving part and the clamping block is mounted on the lower part to which the hydraulic breaker is mounted,
Wherein the left and right moving part is formed with a rotating shaft, one side of the angle adjusting cylinder is coupled to the rotating shaft, and the other side of the angle adjusting cylinder is hinged to the other side of the upper part of the fixing bracket.
The method according to claim 1,
Wherein the pressurizing means is disposed such that its lower side is inclined outwardly.
The method according to claim 1,
Further comprising a height adjusting unit coupled to one side of the frame and the other side to be coupled to the up and down moving unit to adjust a height of the up and down moving unit.

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