KR101778256B1 - A safety valve for hydraulic breaker - Google Patents

Abstract

The present invention relates to a safety valve for a hydraulic breaker for supplying hydraulic oil supplied from a pump to a control valve at a constant pressure to reciprocate a piston by hydraulic pressure, wherein the hydraulic pressure is supplied under the control of the control valve to crush concrete or rock by hitting a chisel by the piston in a body of a hydraulic breaker. The present invention comprises: a bush disposed in a hole formed from the outer side of the hydraulic breaker to the inside; a spool inserted in the bush; a spring disposed in contact with an upper end of the spool at an upper portion inside the bush; and a cap whose part is inserted into the hole of the body to hold the spring. When the pressure of the hydraulic oil supplied from the pump is lower than a predetermined pressure, the spool supplies the hydraulic oil from a discharge passage to a supply passage connected to the control valve in a space between the spool and the cap through a passage formed therein. When the pressure of the hydraulic oil is higher than a predetermined pressure, the spool moves by the pressure of the hydraulic oil to reduce the flow of the hydraulic oil supplied from the pump, thereby supplying the hydraulic oil of a predetermined range of pressure to the control valve.

Description

{SAFETY VALVE FOR HYDRAULIC BREAKER FOR HYDRAULIC BREAKER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a safety valve for a hydraulic breaker, and more particularly, to an improved safety valve for a hydraulic breaker to prevent failure of the hydraulic breaker by maintaining the hydraulic pressure supplied to the hydraulic breaker at a constant pressure.

Generally, a hydraulic breaker is used in an excavator or construction heavy equipment at a construction site to crush concrete or rock in the construction site. The hydraulic breaker supplies high-pressure hydraulic fluid to reciprocate the piston by the control valve, thereby breaking the rock or concrete by striking the chisel provided at the end.

However, since the pressure of the hydraulic oil supplied to the hydraulic breaker is not constant, excessive excessive force acts on the control valve in the hydraulic breaker, resulting in frequent failure.

In order to solve this problem, a safety valve for a hydraulic breaker installed in a valve housing of a control valve provided in a hydraulic breaker is disclosed in Korean Patent No. 10-0490592 (registered May 11, 2005) A block engaging portion formed at a rear portion of the valve body and having a pair of connection flow paths communicating with the control valve; Wherein the inflow path and the outflow path are formed on one side surface and have a valve accommodating portion connected to the inflow path and the outflow path so that the inflow path and the outflow path are not connected or connected to the connection path, Or the other side is selectively coupled to the block engagement portion; And a safety valve body detachably coupled to the valve receiving portion such that the inlet and the outlet are connected to the inflow passage and the outflow passage.

However, in the conventional safety valve of the hydraulic breaker, the inlet and outlet of the safety valve body can be connected to or disconnected from the control valve chamber by selectively reversing the valve-engaging block to which the safety valve body is coupled in case of failure, So that the piston can be raised and lowered only by the hydraulic control of the control valve without the function of the safety valve so that the rock mass can be shattered Therefore, a problem that the breakage operation is performed without the safety valve in case of failure of the safety valve, so that the breakage of the hydraulic breaker can be irreversibly damaged, and thus a more fundamental solution is required.

Korean Registered Patent No. 10-0490592 (registered on May 11, 2005)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a safety valve for a hydraulic breaker, which is capable of preventing a safety valve for a hydraulic breaker from being damaged by a safety valve, So that the hydraulic pressure can be supplied through the hydraulic circuit.

In order to achieve the above object, a safety valve for a hydraulic breaker according to the present invention is a safety valve for a hydraulic breaker, in which a piston is hammered by a piston in a body of a hydraulic breaker to break a concrete or a rock, A hydraulic safety valve for a hydraulic breaker, comprising: a bush disposed in an inner surface of an outer surface of a body of a hydraulic breaker, the bush being inserted into the bush; A spool disposed in contact with an upper end of the spool at an upper portion of the bush, and a cap partially inserted into the hole of the body to hold the spring,

The spool is supplied with the pressurized oil from the discharge passage to the supply passage communicated with the control valve in the space between the spool and the cap through the oil passage formed therein when the pressure of the oil supplied from the pump is smaller than a preset pressure, When the pressure is greater than a predetermined pressure, the spool moves by the pressure of the pressure oil to reduce the pressure oil flow supplied from the pump, and the pressure oil of a predetermined range is supplied to the control valve.

The spool includes a first large diameter portion, a small diameter portion formed by continuing to the lower side of the first large diameter portion and formed to have a reduced diameter, and a second large diameter portion having a diameter increased along the lower side of the small diameter portion, A through hole extending from the upper end to an upper portion of the second large diameter portion downward in the central portion, an extension hole formed to be inclined laterally from the lower end of the through hole to communicate with the lower end surface of the second large diameter portion, And a through hole extending from the upper surface of the enlarged diameter of the lower end surface to the lower end surface.

An annular space portion communicating with the through hole and communicating with the pressurized oil supply path supplied from the pump is formed between the inner side surface of the hole of the body and the outer surface of the bush. And the pressure oil supplied from the pump through the supply passage of the pressure oil flows through the space portion and the through hole in the space portion formed by the small diameter portion of the spool, And flows through the through hole of the neck portion into the space portion through the extension hole and the through hole of the spool in the space portion formed by the lower end portion of the bush, the bottom of the hole formed in the body and the lower end surface of the second large diameter portion of the spool, And the pressurized oil is supplied to the control valve through the pressurized oil supply passage communicated with the discharge passage.

A sprue is formed on a lower surface of a second large diameter portion of the spool so that a bottom of the hole formed in the body and a spool And a space portion is formed between the lower end surfaces of the second large-diameter portion.

The pressurized oil filled in the space portion 50 is supplied through the supply passage, the space portion, and the through hole, and then flows into the space portion through the through hole formed in the second large diameter portion of the spool in the space portion, The pressurized oil flows through a through hole formed at the center of the extension hole and the spool to a space portion formed in the cap and then flows through the hole formed in the bush and the space portion to the discharge passage and through the pressurized oil supply passage communicated with the discharge passage, When the pressure of the oil supplied through the supply passage exceeds a preset elastic force of the spring mounted in the cap, the pressure of the oil in the space formed in the lower end of the spool is supplied to the spool 25, So that the spool is moved upward and the through hole communicated with the pressure oil supply path from the pump as the spool moves upward Least in part, by reducing the flow rate of blocking is to prevent the excessive pressure of the supply pressure oil to the control valve.

The safety valve for a hydraulic breaker according to the present invention is capable of fundamentally preventing failure of the control valve and the hydraulic breaker due to uneven pressure of the supply hydraulic pressure by constantly supplying the hydraulic pressure supplied to the control valve of the hydraulic breaker in a preset pressure range There is an effect.

In addition, the safety valve for a hydraulic breaker according to the present invention has a simpler structure, so that failure is not generated, durability is achieved, and manufacturing cost is reduced.

1 is a schematic perspective view of a hydraulic breaker provided with a safety valve according to the present invention;
Fig. 2 is a partial sectional view showing the state in which the safety valve is provided in Fig. 1; Fig.
3 is an exploded perspective view of the safety valve of Fig.
Figure 4 is an enlarged cross-sectional view of the spool of the safety valve of Figure 3;
5 is a schematic hydraulic circuit diagram at the step of lifting a piston in a hydraulic breaker provided with a safety valve according to the present invention.
6 is a schematic hydraulic circuit diagram showing the step of descending the piston by the supply of hydraulic pressure;
Fig. 7 is a schematic hydraulic circuit diagram showing a step in which the piston strikes the chisel in succession to the piston descent step of Fig. 6; Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the invention are shown.

The hydraulic breaker 10 shown in FIG. 1 is supplied with a control valve, not shown in the drawing, through a safety valve 20 according to the present invention mounted on the body 11 so that the body 11 and the block 12 to reciprocate the chisel 13 mounted to be protruded from the block 12 to crush the rock or concrete.

2 and 3, the safety valve 20 according to the present invention includes a bush 26 into the hole 15 formed in the outer side of the body 11 of the hydraulic breaker, a spool 26 inserted into the bush, (25), a spring (24) arranged to be in contact with an upper end of the spool at an upper portion of the bush, a spring support member (23) And a cap 21 for sealing the spring 24 and the spring support member 23 by being hermetically inserted into the body 11 hermetically with an O-ring 22 in such a manner that the lower end thereof is in contact with the upper end of the bush. Reference numerals 27, 29 and 30, which are not shown in the drawing, are backup rings, and reference numerals 28 and 31 denote O-rings, and are omitted in FIG. 2 for the sake of simplicity.

When the pressure of the oil supplied from the pump is less than a predetermined pressure, the spool 25 supplies pressure oil from the discharge passage to the supply passage 40 communicating with the control valve in the space between the spool and the cap through the oil passage formed therein When the pressure of the pressure oil is greater than a predetermined pressure, the spool (25) moves by the pressure of the pressure oil to reduce the pressure oil flow supplied from the pump, .

The spool 25 includes a first large diameter portion 252 having a cylindrical protrusion 251 formed at an upper end thereof and a small diameter portion 253 formed to extend downward from the first large diameter portion 252 and having a reduced diameter, And a second large diameter portion 254 having a diameter increased along the lower side of the smaller diameter portion and a protrusion 258 formed at the lower end of the second larger diameter portion 254.

The spool has a through hole 255 extending from an upper end to an upper portion of the second large diameter portion 254 downward at a central portion of the spool, and an extension hole 256 is formed at a lower end of the through hole 255, Is formed to be inclined sideways from the center so as to communicate with the lower end surface of the base plate (254). A through hole 257 extending from the upper surface of the enlarged diameter of the second large diameter portion 254 to the lower end surface is formed.

The bush 26 is spaced apart from the bush 26 by the through holes 261 and 262. The bush 26 is formed so as to be spaced apart from the bush 26 by an inner surface of the hole 15 of the body 11 and an outer surface of the bush 26, And the space 269 is formed between the inner surface of the bush 26 and the outer surface of the first large diameter portion 252 of the spool 25 so as to communicate with the through hole 262. [ And an annular space portion 263 is formed between the side surfaces. The space 269 communicates with the discharge passage 41 formed in the body 11 and the discharge passage 41 communicates with the supply passage 40 of the control valve.

A through hole 264 is formed on both sides of the lower portion of the bush 26 and communicates with the through hole 264 between the inner surface of the hole 15 of the body 11 and the outer surface of the bush 26. [ And the space portion 265 communicates with the pressurized oil supply path 40 supplied from the pump. A space portion 266 is formed between the inner side surface of the bush 26 and the small diameter portion 253 of the spool 25. The pressurized oil supplied from the pump through the pressurized oil supply path 40 is supplied from the space portion 265 to the space portion 266 formed by the small diameter portion of the spool through the through hole 264 .

The space portion 267 is formed by the lower end of the bush 26, the bottom of the hole 15 formed in the body 11, and the protrusion 258 formed at the lower end of the second large diameter portion 254 of the spool 25, The pressure oil flowing into the space portion 266 formed by the small diameter portion 253 flows into the space portion 267 through the through hole 257 formed in the second large diameter portion 254 of the spool, do. The high pressure fluid supplied through the supply path 40 by the pump flows into the space portion 265, the through hole 264 and the space portion 266 and flows into the second large diameter portion 254 of the spool 25 and then through the hole 256 of the second large diameter portion 254 of the spool 25 to the center hole 255. The second large diameter portion 254 of the spool 25 is then fed through the through hole 257, And flows into the space portion 50 formed by the upper end of the spool 25, the upper portion of the bush 26, and the inner surface of the cap 20.

The pressurized oil filled in the space portion 50 is supplied through the supply passage 40, the space portion 265 and the through hole 264 and is then discharged from the space portion 265 to the second spool 25 And can be introduced into the space 267 through the through hole 257 formed in the neck portion 254. The pressurized oil flowing into the space portion 267 flows into the space portion 50 formed in the cap 21 through the extended hole 256 and the through hole 255 formed at the center of the spool 25, The pressurized oil is supplied to the control valve through the pressurized oil supply passage 40 that flows to the discharge passage 41 through the hole 261 formed in the bush 26 and the space portion 269 and communicates with the discharge passage 41 .

At this time, since the pressure of the hydraulic pressure supplied by the pump is not constant, the pressure of the oil supplied through the pressure oil supply path 40 exceeds the predetermined elastic force of the spring 24 mounted inside the cap 21 The pressure of the pressure oil in the space portion 267 formed at the lower end of the spool 25 acts on the lower end surface of the spool 25 to compress the spring 24 and move the spool 25 upward.

As the spool 25 moves upward, the through hole 264 communicated with the pressure oil supply path 40 from the pump is connected to the space portion 263 at the inner side of the bush center, Excessive pressure on the valves, cylinders, pistons, and seals is prevented, preventing the control valve from malfunctioning.

When the pressure in the space portion 267 becomes smaller than the elastic force of the spring 24 as the pressure in the space portion 267 flows into the discharge passage 41 through the space portion 50, ) Acts on the upper surface of the spool 25 to move the spool downward, so that the through hole 264 is opened and the pressurized oil is supplied again through the pressure oil supply path 40 from the pump.

In this way, when the pressure of the oil supplied from the pump through the supply path 40 is larger than the elastic force of the predetermined spring 24, the spool 25 is moved upward to be controlled so as to reduce the pressure oil supply, It is possible to efficiently and easily prevent the damage of the control valve, and the pressure of the control valve, the cylinder, the piston, the seal Failure is also prevented.

5 includes a through hole 120 formed in the body 11 and a piston 140 slidably disposed in the through hole 120. A chisel 150 is disposed below the piston So that the chisel 150 is struck when the piston 140 is operated downward, thereby causing the chisel to break the rock or concrete. An annular groove (122) is formed on the inner side surface of the through hole (120) and an annular groove (121) is formed at a position spaced apart from the annular groove (121) so that the pressure oil supplied under control of a control valve Are supplied to or discharged from the grooves 121 and 122, respectively.

5, in order to cause the piston 140 of the hydraulic breaker to reciprocate up and down, the pressure oil supplied from the pump 100 through the control valve 101 is discharged from the safety valve 20 according to the present invention And is supplied to the control valve 130 at a pressure within a range of elastic force of a predetermined spring, and the control valve 130 controls the flow of the pressure oil so as to raise or lower the piston.

5, the pressure oil supplied through the safety valve 20 of the present invention is supplied to the groove 121 formed in the inner side surface of the through hole 120 of the hydraulic breaker body 11, so that the piston 140 The gas in the through hole 120 on the upper side of the piston 140 is compressed and the piston 140 is moved up and down. At this time, the supply port of the control valve 130 is blocked.

6, the pressure oil supplied through the safety valve 20 is supplied to the groove 122 through the control valve 130 so that the hydraulic pressure in the groove 122 is applied to the piston 140 So that the piston 140 is lowered.

7, the piston 140 continuously descends due to the oil pressure in the groove 122, and the lower end of the piston 140 strikes the upper end of the chisel 150. Then, the control valve 130 moves to the supply port The supplied pressure oil is drained, thereby preventing the damage of the piston and the chisel, which may occur when hydraulic pressure continues to be applied to the piston.

The safety valve for a hydraulic breaker according to the present invention can be used to prevent damages of the hydraulic breaker and the control valve by supplying the pressure of the hydraulic oil supplied through the safety valve constantly within a predetermined range in order to operate the piston of the hydraulic breaker have.

20: Safety valve 21: Cap
24: spring 25: spool
26: Bush 40: Supply path
100: Pump 110: Body
120: through hole 121, 122: groove
130: Control valve 140: Piston
150: Chisel 253: Small neck
254: second diameter-diameter portion 258:
266, 267:

Claims (5)

The pressure oil supplied from the pump is supplied to the control valve at a constant pressure so as to reciprocate the piston by the hydraulic pressure supplied under the control of the control valve in order to break the concrete or the rock to hit the chisel by the piston in the body of the hydraulic breaker Wherein the hydraulic breaker safety valve comprises:
A bush 26 disposed in a hole 15 formed in the outer side of the body 11 of the hydraulic breaker; a spool 25 inserted in the bush; A spring (24), a cap (21) into which a portion is inserted into the hole (15) of the body (11) to hold the spring (24)
When the pressure of the oil supplied from the pump is less than a preset pressure, the spool 25 is supplied to the supply passage communicated with the control valve from the discharge passage in the space between the spool 25 and the cap 21 through the oil passage formed therein. When the pressure of the pressure oil is greater than a preset pressure, the spool (25) moves by the pressure of the pressure oil to reduce the pressure oil flow supplied from the pump, Of the total pressure of the pressurized fluid,
The spool 25 includes a first large diameter portion 252, a small diameter portion 253 formed to extend downward from the first large diameter portion 252 and having a reduced diameter, and a small diameter portion 253 extending downward from the small diameter portion 254, A second large diameter portion 254 having a protruding portion 258 at the center of the lower end thereof and a through hole 255 extending downward from the upper end to an upper portion of the second large diameter portion 254, An extended hole 256 formed to be inclined sideways from the lower end of the through hole 255 so as to communicate with the lower end surface of the second large diameter portion 254 and a lower end surface of the second large diameter portion 254, And an elongated through hole (257).
delete The method according to claim 1,
A through hole 264 is formed in the lower portion of the bush 26 and communicates with the through hole 264 between the inner surface of the hole 15 of the body 11 and the outer surface of the bush 26, A space portion 266 is formed between the inner side surface of the bush 26 and the small diameter portion 253 of the spool 25 And the pressurized oil supplied from the pump through the pressurized oil supply path 40 is discharged from the space portion 266 formed by the small diameter portion of the spool through the space portion 265 and the through hole 264, The lower end of the bush 26 and the bottom of the hole 15 formed in the body 11 and the lower end face of the second larger diameter portion 254 of the spool 25 pass through the through hole 257 of the larger diameter portion 254 The through holes 261 and 262 formed in the space portion 267 and flowing into the space portion 50 through the extension hole 256 and the through hole 255 of the spool and spaced from the upper portion of the bush, To be supplied through The safety valve for a hydraulic breaker.
The method of claim 3,
A spring support member 23 is mounted to support the spring so that the protruding portion of the spring upper end is disposed inside the spring,
A protrusion 258 is formed on the lower end surface of the second large diameter portion 254 of the spool so that the gap between the bottom of the hole 15 formed in the body 11 and the lower end surface of the second large diameter portion 254 of the spool 25 And a space portion (267) is formed in the space.
The method of claim 3,
The pressurized oil filled in the space portion 50 is supplied through the supply path 40, the space portion 265 and the through hole 264 and then flows into the second large diameter portion The pressurized oil flowing into the space portion 267 flows through the extended hole 256 and the through hole 255 formed in the center of the spool 25, Flows into the space part 50 formed in the cap 21 through the hole 261 formed in the bush 26 and the space 269 formed in the bush 26 and flows into the discharge passage 41 The pressurized oil is supplied to the control valve through the pressurized oil supply passage 40 communicated with the pressurized oil supply passage 40,
The space portion 267 formed in the lower end portion of the spool 25 is inserted into the cap 21 when the pressure of the oil supplied through the supply path 40 exceeds the predetermined elastic force of the spring 24 mounted in the cap 21. [ The pressure of the oil in the spool 25 acts on the lower end surface of the spool 25 to move the spool 25 upward while compressing the spring 24, Through the through hole 264 communicated with the control valve 262 and the space 263 at the inner center of the bushing are connected to each other to be controlled by the set pressure to prevent excessive pressure from acting on the control valve, cylinder, piston, Features a safety valve for hydraulic breakers.

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