KR20110002139U - Constant pressure supply device of hydraulic breaker for excavator - Google Patents

Abstract

The present invention relates to a static pressure supply device for an excavator hydraulic breaker, and is connected to the hydraulic device of the excavator and the hydraulic breaker, even if the hydraulic pressure of the overpressure is supplied from the excavator to the hydraulic breaker, only the static pressure is supplied to the hydraulic breaker, and the rest of the hydraulic pressure of the excavator again Static pressure supply means for returning to the apparatus; A high pressure supply line connected to the constant pressure supply means and the oil tank of the excavator and configured to pump the hydraulic pressure in the oil tank to the constant pressure supply means when the hydraulic pump is driven; A low pressure recovery line connected to the positive pressure supply means and the oil tank of the excavator to recover the overpressure supplied from the excavator to the positive pressure supply means to the oil tank; A high pressure supply hose connected to the high pressure supply port of the static pressure supply means and the hydraulic breaker to transfer the high pressure transmitted to the static pressure supply means to the hydraulic breaker; The low pressure discharge hose is connected to the low pressure discharge port of the constant pressure supply means and the hydraulic breaker so that the low pressure oil discharged from the hydraulic breaker is recovered to the oil tank through the constant pressure supply means.

Therefore, when the hydraulic pressure of the overpressure is supplied from the excavator, the constant pressure supply means is opened and a part of the hydraulic pressure flows into the low pressure recovery line and is recovered to the oil tank, and only a predetermined pressure is supplied to the pneumatic supply port of the hydraulic breaker through the high pressure outlet.

Excavator, static pressure supply means, main block, high pressure supply line, low pressure recovery line

Description

Constant pressure supply device of hydraulic breaker for excavator

The present invention relates to a static pressure supply device for an excavator hydraulic breaker.

In general, the hydraulic breaker mounted on the excavator is operated by the hydraulic pressure of the excavator, the hydraulic breaker is to blow the crushing object such as rock by hitting the chisel mounted on the front head is a piston for the blower mounted inside the main body Used to perform a task.

In order to operate the hydraulic breaker mounted on the excavator in the prior art, first, when the operator operates the boom of the excavator and presses the foot switch with the chisel of the hydraulic breaker pressed against the crushing object, the hydraulic supply device is turned on. The high pressure hydraulic pressure is supplied to the hydraulic breaker, and thus the impact piston crushes the chisel while reciprocating to crush the object.

The hydraulic breaker is composed of a head cap, a cylinder body, a front head, the head cap is filled with nitrogen gas. Inside the cylinder body, the impact piston is mounted in a state capable of reciprocating movement, and one side of the cylinder body is equipped with a high pressure supply port and a low pressure discharge port, and the hydraulic supply direction is switched to the lower side of the high pressure supply port and the low pressure discharge port. Hydraulic valve is installed.

The front head is mounted so that the chisel can reciprocate. The top of the chisel is inserted into the front head and the bottom of the chisel is installed to protrude a predetermined length from the bottom of the front head.

The two chisel pins assembled in a fixed state on the front head are installed in a state of being fitted in the moving grooves formed at both sides of the upper end of the chisel to enable the reciprocating movement of the chisel and constrain the chisel from being separated from the front head.

And the chisel mounted on the front head is to perform the blow operation to crush the object to be broken by the blow piston of the cylinder body. In other words, when the lower end of the chisel is placed on the crushing object, the chisel is protruded above the upper space of the front head to be located in the striking area of the striking piston.

The striking piston strikes the chisel while repeating the up and down reciprocating motion, ie, the upstroke and the downstroke, by the hydraulic pressure circulating in the hydraulic passages formed in the wall of the cylinder body.

In general, equipment such as excavators are developed and manufactured with high flow, high pressure equipment to install attachments such as hydraulic breakers. When a conventional hydraulic breaker is installed in such a high flow rate and high pressure equipment, excessive hydraulic pressure is often supplied to the hydraulic breaker, thereby causing damage to the internal parts of the hydraulic breaker.

An object of the present invention for solving the above problems is that when the hydraulic pressure of the excavator from the hydraulic device of the excavator is supplied with the hydraulic pressure of the excavator so that a part of the hydraulic pressure is recovered to the hydraulic device of the excavator so that only the hydraulic pressure of a constant pressure is supplied to the hydraulic breaker. The present invention provides a static pressure supply device for an excavator hydraulic breaker.

The hydraulic pressure supply device of the excavator hydraulic breaker of the present invention for achieving the above object, the chamber is formed on the inner peripheral surface, the chamber is connected by the hydraulic lines, the cylinder is formed with a high pressure supply port and a low pressure discharge port on the outside The main body, the head cap coupled to the upper portion of the cylinder body and filled with gas, the front head coupled to the lower portion of the cylinder body, and coupled to slide inside the cylinder body, are connected to the hydraulic line of the cylinder body. It is connected to a hydraulic breaker including a piston which is lifted by the supplied hydraulic pressure and the upper end is inserted so as to slide inside the front head, and the chisel hits the upper end when the piston descends to supply only the hydraulic pressure of a constant pressure to the hydraulic breaker. Apparatus, connected to excavator hydraulics and hydraulic breakers Positive pressure feed means come to be supplied to the hydraulic pressure of over-pressure from the excavator to the hydraulic breaker, only the static pressure supplied to the hydraulic breaker and recovering the remaining oil pressure is back to the hydraulic system of the excavator; A high pressure supply line connected to the constant pressure supply means and the oil tank of the excavator and configured to pump the hydraulic pressure in the oil tank to the constant pressure supply means when the hydraulic pump is driven; A low pressure recovery line connected to the positive pressure supply means and the oil tank of the excavator to recover the overpressure supplied from the excavator to the positive pressure supply means to the oil tank; A high pressure supply hose connected to the high pressure supply port of the static pressure supply means and the hydraulic breaker to transfer the high pressure transmitted to the static pressure supply means to the hydraulic breaker; The low pressure discharge hose is connected to the low pressure discharge port of the constant pressure supply means and the hydraulic breaker to recover the low pressure oil discharged from the hydraulic breaker to the oil tank through the constant pressure supply means.

Another characteristic of the static pressure supply device of the hydraulic breaker for excavator of the present invention, the positive pressure supply means is connected to the high pressure supply line, the high pressure hydraulic pressure supplied from the oil tank is supplied to the inside and connected to the high pressure supply port of the hydraulic breaker The hydraulic pressure supplied from the tank is transferred to the hydraulic breaker, and is connected to the low pressure outlet of the hydraulic breaker so that the low pressure oil discharged from the hydraulic breaker is recovered to the oil tank through the low pressure recovery line, and connected to the low pressure recovery line from the high pressure supply line. The main block to recover the supplied overpressure or the hydraulic pressure discharged from the hydraulic breaker to the oil tank, and when the hydraulic pressure of the overpressure is supplied to the main block from the hydraulic device of the excavator and installed in the main block so that part of the An operating hole is formed and the hydraulic pressure of the overpressure on one side An overpressure inlet is formed to flow in and an overpressure outlet is formed so that the overpressure introduced into the inner space on the other side is discharged to the outside, and overpressure to control the overpressure from the overpressure inlet to the overpressure outlet around the inner space between the overpressure inlet and the overpressure outlet. A spool body having a discharge limit step is formed, and the inner space of the spool body is provided to slide along the inner space, and an operating chamber is connected to one side of the operating hole of the spool body so that the overpressure is transmitted. A spool consisting of an opening and closing portion for intermittently controlling the flow of fluid in the inner space while opening and closing the discharge limit step, a nipple coupled to the main block and supporting the spool body, and one end supported by the spool and the other end supported by the nipple side. Springs that elastically support the inner side of the main block, A pressure adjusting washer provided between the ends and adjusting the pressure of the spring, which is fastened to the nipple to seal the inside, and the inner end is in close contact with the pressure adjusting washer, and when tightened or loosened to the inside of the nipple, the spring is compressed or loosened. It consists of adjuster.

Another characteristic of the static pressure supply device of the hydraulic breaker for excavator of the present invention, the main block is formed in the inner center of the main block, the spool body is installed, the main passage through which the nipple is coupled and the overpressure passes through the main block, It is formed at one side of and connected to the high pressure supply line, the high pressure inlet supplied with the high pressure supplied from the hydraulic device of the excavator, and connected to the main passage and the high pressure inlet to supply the overpressure hydraulic pressure from the hydraulic device of the excavator to the high pressure inlet Pressure passage to guide the spool body into the operating hole of the spool body, the main block is connected to the main passage and the high pressure inlet, and connected to the high pressure inlet of the hydraulic breaker to supply the hydraulic pressure flowed into the high pressure inlet to the high pressure inlet of the hydraulic breaker. When the overpressure is supplied to the high pressure inlet, the main block and the high pressure outlet to supply a part of the overpressure to the overpressure inlet of the spool body It is formed on the other side of the low pressure outlet connected to the low pressure recovery line to recover the oil supplied from the hydraulic breaker or the main passage to the oil tank, and is connected to the main passage and low pressure outlet of the main block and connected to the low pressure discharge hose It consists of a low pressure inlet to discharge the low pressure oil discharged from the hydraulic breaker to the low pressure outlet side and guide a part of the overpressure via the high pressure inlet, the high pressure outlet, and the main passage to the low pressure outlet side.

The present invention as described above, when the hydraulic pressure of the overpressure is supplied to the hydraulic breaker through the high pressure supply line from the hydraulic device of the excavator is supplied to the operating chamber of the spool through the overpressure passage of the main block and the operation hole of the spool body to operate the spool The hydraulic pressure of the overpressure introduced into the high pressure inlet is discharged to the low pressure outlet of the main block through the overpressure inlet of the spool body, the internal space, and the overpressure outlet, and then recovered into the oil tank. Therefore, when the hydraulic pressure of the overpressure is supplied from the excavator, the constant pressure supply means is opened and some of the hydraulic pressure flows into the low pressure recovery line and is recovered to the oil tank, and only a predetermined pressure is supplied to the pneumatic supply port of the hydraulic breaker through the high pressure outlet. Therefore, even if the hydraulic breaker is installed in the excavator of high flow, high pressure equipment, it is safely protected from the overpressure supplied therefrom.

Specific features and advantages of the present invention will become more apparent from the following description with reference to the accompanying drawings.

1 is a schematic perspective view showing an excavator equipped with a static pressure supply device of the hydraulic breaker of the present invention, Figure 2 is a schematic partial cross-sectional view showing a static pressure supply device of the hydraulic breaker for excavators of the present invention, Figures 3a and 3b is a constant pressure supply Partial enlarged cross-sectional views showing the means. Figures 4a to 4d is a front cross-sectional view, a plan view, a cross-sectional view taken along the line A-A ', a cross-sectional view taken along the line B-B', Figure 5 is a hydraulic circuit diagram of an excavator connected to the hydrostatic pressure supply of the hydraulic breaker.

The hydraulic breaker 1 of the present invention provided with a constant pressure supply device includes a cylinder body 2, a head cap 5, a front head 6, a piston 7, and a chisel 10.

In the cylinder body 2, chambers are formed on an inner circumferential surface, chambers are connected by hydraulic lines, and a high pressure supply port 3 and a low pressure discharge port 4 are formed outside. The head cap 5 is coupled to the upper portion of the cylinder body 2 and filled with nitrogen gas therein. The front head 6 is coupled to the lower part of the cylinder body 2. The piston 7 is coupled to slide in the cylinder body 2 and is lifted by the hydraulic pressure supplied to the hydraulic line of the cylinder body 2. That is, when a high pressure hydraulic pressure is supplied to the lower ring 8 or the upper ring 9 of the piston 7, the cylinder is lifted along the inside of the body 2. The chisel 10 is inserted so that the upper end slides inside the front head 6 and the upper end is hit when the piston 7 descends.

The hydraulic device of the hydraulic breaker 1 and the excavator 11 is provided with a constant pressure supply device according to the features of the present invention. The constant pressure supply device is composed of a constant pressure supply means 20, a high pressure supply line 50, a low pressure recovery line 60, a high pressure supply hose 70, a low pressure discharge hose (80).

The positive pressure supply means 20 is connected to the hydraulic device of the excavator 11 and the hydraulic breaker 1 so that only the positive pressure is supplied to the hydraulic breaker 1 even when the hydraulic pressure of the overpressure is supplied from the excavator 11 to the hydraulic breaker 1. And the rest of the hydraulic pressure is recovered back to the hydraulic device of the excavator (11).

Here, the overpressure refers to a hydraulic pressure of a higher pressure than a high pressure set to be supplied to the hydraulic breaker 1, and if such excessive pressure is supplied to the hydraulic breaker 1 as it is, the inside of the hydraulic breaker 1 The parts can be damaged.

The constant pressure supply means 20 consists of the main block 21, the spool body 28, the spool 34, the nipple 37, the spring 38, the pressure adjusting washer 39, and the adjuster 40.

The main block 21 is connected to the high pressure supply line 50 so that the high pressure hydraulic pressure supplied from the oil tank 12 is supplied to the inside and connected to the high pressure supply port 3 of the hydraulic breaker 1 so that the oil tank ( The hydraulic pressure supplied from 12) is transmitted to the hydraulic breaker 1 and is connected to the low pressure discharge port 4 of the hydraulic breaker 1 to discharge the low pressure oil discharged from the hydraulic breaker 1 through the low pressure recovery line 60. The oil tank 12 is recovered and connected to the low pressure recovery line 60 so that the overpressure supplied from the high pressure supply line 50 or the hydraulic pressure discharged from the hydraulic breaker 1 is recovered to the oil tank 12.

Here, the high pressure supply line 50 and the low pressure recovery line 60 are both connected to the main control valve 15 and thereby connected to the oil tank 12.

As shown in detail in FIGS. 4A to 4D, the main block 21 includes a main passage 22, a high pressure inlet 23, an overpressure passage 24, a high pressure outlet 25, a low pressure outlet 26, and a low pressure. The inlet 27 is formed.

The main passage 22 is formed in the inner center of the main block 21, the spool body 28 is installed, the nipple 37 is coupled to the end and the overpressure passes.

The high pressure inlet 23 is formed at one side of the main block 21 and connected to the high pressure supply line 50 to supply the high pressure supplied from the hydraulic device of the excavator 11.

The overpressure passage 24 is connected to the main passage 22 and the high pressure inlet 23 so that a part of the overpressure passage is supplied to the high pressure inlet 23 from the hydraulic device of the excavator 11 to the part of the spool body 28. It is led to the operation hole 29.

The high pressure outlet 25 is formed in the main block 21 to be connected to the main passage 22 and the high pressure inlet 23 and connected to the high pressure supply port 3 of the hydraulic breaker 1 to the high pressure inlet 23. When the supplied hydraulic pressure is supplied to the high pressure supply port 3 of the hydraulic breaker 1 and the overpressure is supplied to the high pressure inlet 23, a part of the overpressure is supplied to the overpressure inlet 31 of the spool body 28.

The low pressure outlet 26 is formed on the other side of the main block 21 and connected to the low pressure recovery line 60 so that the oil supplied from the hydraulic breaker 1 or the main passage 22 is recovered to the oil tank 12. do.

The low pressure inlet 27 is formed to be connected to the main passage 22 and the low pressure outlet 26 of the main block 21 and is connected to the low pressure discharge hose 80 to discharge the low pressure oil discharged from the hydraulic breaker 1. The low pressure outlet 26 is discharged to the side and the high pressure inlet 23, the high pressure outlet 25, a portion of the overpressure via the main passage 22 to be guided to the low pressure outlet 26 side.

The spool body 28 is provided inside the main block 21, and the spool body 28 has an operation hole 29, an overpressure inlet 31, an overpressure outlet 32, and an overpressure discharge limiting step 33. Is formed.

The operation hole 29 of the spool body 28 is formed at one side of the spool body 28, and when a hydraulic pressure of overpressure is supplied from the hydraulic device of the excavator 11 to the main block 21, a part of the internal space 30 Inflow). The overpressure inlet 31 of the spool body 28 is formed below the operation hole 29 to allow the hydraulic pressure of the overpressure to flow into the internal space 30. The over-extrusion port 32 is formed under the over-pressure inlet 31 so that the over-pressure introduced into the internal space 30 of the spool body 28 is discharged to the outside. The overpressure discharge limiting step 33 is formed around the internal space 30 between the overpressing inlet 31 and the overpressing outlet 32 to control the overpressure from being moved from the overpressing inlet 31 to the overpressing outlet 32. .

The spool 34 is provided to slide along the inner space 30 in the inner space 30 of the spool body 28, and is connected to the operation hole 29 of the spool body 28 around one side to transmit overpressure. The operation chamber 35 is formed, and the other side is formed of an opening and closing portion 36 to control the flow of the fluid in the inner space 30 while opening and closing the inside of the overpressure discharge limiting step 33.

The nipple 37 is coupled to the main block 21 and supports the spool body 28.

One end of the spring 38 is supported by the spool 34 and the other end is supported by the nipple 37 to elastically support the spool 34 to the inside of the main block 21.

The pressure washer 39 is provided between the inside of the nipple 37 and one end of the spring 38 to adjust the pressure of the spring 38. As the thickness of the pressure adjusting washer 39 increases, the spring pressure compressed by the spool 34 increases as the spring 38 is compressed, and the thickness of the pressure adjusting washer 39 increases as the thickness of the pressure adjusting washer 39 increases. As this relaxes, the spring pressure compressed by the spool 34 is reduced. Therefore, by adjusting the spring pressure by selecting the thickness of the pressure adjusting washer 39 it is possible to adjust the internal pressure of the hydraulic breaker.

The adjuster 40 is fastened to the nipple 37 to seal the inside thereof, and the inner end thereof is in close contact with the pressure adjusting washer 39, and when the inner portion of the nipple 37 is tightened or loosened, the spring 38 is compressed. Adjust the spring pressure as you relax. Therefore, the internal pressure of the hydraulic breaker 1 may be adjusted to the thickness of the pressure adjusting washer 39, it may be adjusted by rotating the adjuster (40).

The high pressure supply line 50 is connected to the positive pressure supply means 20 and the oil tank 12 of the excavator 11 and when the hydraulic pump 13 is driven, the hydraulic pressure in the oil tank 12 is positive pressure supply means 20. To be pumped.

The low pressure recovery line 60 is connected to the constant pressure supply means 20 and the oil tank 12 of the excavator 11 to supply the overpressure supplied from the excavator 11 to the constant pressure supply means 20 to the oil tank 12. To be recovered.

The high pressure supply hose 70 is connected to the positive pressure supply means 20 and the high pressure supply port 3 of the hydraulic breaker 1 to transmit the high pressure transmitted to the positive pressure supply means 20 to the hydraulic breaker 1.

The low pressure discharge hose 80 is connected to the positive pressure supply means 20 and the low pressure discharge port 4 of the hydraulic breaker 1 so that the low pressure oil discharged from the hydraulic breaker 1 is passed through the positive pressure supply means 20. Recover to tank 12.

The static pressure supply device of the hydraulic breaker for excavators of the present invention of such a configuration is operated as follows.

First, when the operator operates the electric switch 14 of the excavator 11, the main control valve 15 is opened and the hydraulic pump 13 is driven, the hydraulic pressure in the oil tank 12 is positive pressure through the high pressure supply line 50 It is introduced into the high pressure inlet 23 of the supply means (20).

At this time, when the hydraulic pressure of the high pressure pumped is not greater than the pressure of the spring 38, that is, less than the set pressure, the high pressure introduced into the high pressure inlet 23 is supplied to the high pressure supply hose 70 through the high pressure outlet 25 and the hydraulic pressure is increased. It is supplied to the high pressure supply port 3 of the breaker 1.

On the other hand, when the hydraulic pressure supplied from the excavator 11 is greater than the spring pressure, that is, exceeds the set pressure, the overpressure of some of the overpressure introduced into the high-pressure inlet 23 through the overpressure passage 24 (spool body ( It is supplied to the operation hole 29 of the 28 and the operation chamber 35 of the spool 34. As part of the overpressure is supplied to the working chamber 35 of the spool 34, the spool 34 is moved along the spool body 28 as shown in FIG. 3B while compressing the spring 38.

When the spool 34 is moved, the high pressure inlet 23 and the low pressure outlet 26 are connected to each other. Accordingly, the hydraulic pressure of the overpressure supplied to the high pressure inlet 23 is transferred to the low pressure outlet 26 of the main block 21 through the overpressure inlet 31, the internal space 30, and the overpressure outlet 32 of the spool body 28. Inflow, it is recovered to the oil tank 12 through the low pressure recovery line (60).

When the pressure of a part of the overpressure in the high pressure inlet 23 is recovered to the low pressure outlet 26 side as described above, the pressure in the high pressure inlet 23 is lowered and the pressure in the high pressure inlet 23 is lower than the spring pressure. As the spring 38 is restored, the spool 34 is restored as shown in FIG. 3A.

When the spool 34 is restored, the opening / closing portion 36 of the spool 34 is in close contact with the inner circumferential surface of the overpressure discharge limiting step 33 of the spool body 28 to block the high pressure inlet 23 and the low pressure outlet 26. Therefore, the hydraulic pressure flowing into the high pressure inlet 23 is not discharged to the low pressure outlet 26 and is supplied to the high pressure supply hose 70 through the high pressure outlet 25.

This invention has the following advantages.

When the hydraulic pressure of the overpressure is supplied to the hydraulic breaker 1 from the hydraulic device of the excavator 11 through the high pressure supply line 50, the operation hole 29 of the overpressure passage 24 and the spool body 28 of the main block 21. Supplied to the operating chamber 35 of the spool 34 to operate the spool 34, and the hydraulic pressure of the overpressure introduced into the high pressure inlet 23 is the overpressure inlet 31 of the spool body 28, the inner space. 30 is discharged to the low pressure outlet 26 of the main block 21 through the over-pressure outlet 32 is recovered to the oil tank 12.

Therefore, when the hydraulic pressure of the overpressure is supplied from the excavator 11, the constant pressure supply means 20 is opened and a part of the hydraulic pressure flows into the low pressure recovery line 60 and is recovered to the oil tank 12, and only a constant pressure is the high pressure outlet 25. It is supplied to the high pressure supply port (3) of the hydraulic breaker (1) through.

Therefore, even if the hydraulic breaker 1 is installed in the excavator 11 of the high flow rate, high pressure equipment, it is safely protected from the overpressure supplied therefrom.

1 is a schematic perspective view showing an excavator equipped with a constant pressure supply device for a hydraulic breaker of the present invention

Figure 2 is a schematic partial cross-sectional view showing a static pressure supply device of the hydraulic breaker for excavator of the present invention

3A and 3B are partially enlarged cross-sectional views showing the static pressure supply means.

4A to 4D are front sectional views, a plan view, a cross-sectional view taken along a line A-A ', and a cross-sectional view taken on a line B-B', taken from the main block;

5 is a hydraulic circuit diagram of an excavator connected to the static pressure supply device of the hydraulic breaker

* Description of the symbols for the main parts of the drawings *

1: Hydraulic breaker 2: Cylinder body

3: high pressure supply port 4: low pressure discharge port

5: Head Cap 6: Front Head

7: piston 8: lower ring

9: upper ring 10: chisel

11: excavator 12: oil tank

13: hydraulic pump 14: electric switch

15: main control valve 20: constant pressure supply means

21: main block 22: main passage

23: high pressure inlet 24: overpressure passage

25: high pressure outlet 26: low pressure outlet

27: low pressure inlet 28: spool body

29: operating hole 30: internal space

31: overpressure inlet 32: overpressure outlet

33: overpressure discharge limit step 34: spool

35: operation chamber 36: opening and closing part

37: Nipple 38: Spring

39: pressure washer 40: adjuster

50: high pressure supply line 60: low pressure recovery line

70: high pressure supply hose 80: low pressure discharge hose

Claims (3)

Chambers are formed on the inner circumferential surface, the chambers are connected by hydraulic lines, and the cylinder body is formed with a high pressure supply port and a low pressure discharge port on the outside, and a head cap coupled to the upper part of the cylinder body and filled with gas inside. And a front head coupled to the lower portion of the cylinder body, a piston coupled to slide in the cylinder body and being elevated by hydraulic pressure supplied to the hydraulic line of the cylinder body, and inserted so that the upper end slides inside the front head. In the device for supplying only the hydraulic pressure of a constant pressure to the hydraulic breaker is connected to the hydraulic breaker including a chisel which is hit and the upper end is hit when the piston descends, Is connected to the hydraulic device of the excavator 11 and the hydraulic breaker 1, even if the hydraulic pressure of the overpressure is supplied from the excavator 11 to the hydraulic breaker 1, only the positive pressure is supplied to the hydraulic breaker 1 and the remaining hydraulic pressure is back to the excavator 11 Positive pressure supply means for recovering to the hydraulic device of 20); High pressure supply line is connected to the positive pressure supply means 20 and the oil tank 12 of the excavator 11 and when the hydraulic pump 13 is driven so that the hydraulic pressure in the oil tank 12 is pumped to the positive pressure supply means 20 ( 50); Low pressure recovery line 60 is connected to the positive pressure supply means 20 and the oil tank 12 of the excavator 11 to recover the overpressure supplied from the excavator 11 to the positive pressure supply means 20 to the oil tank 12. ); A high pressure supply hose 70 connected to the positive pressure supply means 20 and the high pressure supply port 3 of the hydraulic breaker 1 to transfer the high pressure transmitted to the positive pressure ball feed end 20 to the hydraulic breaker 1; Connected to the positive pressure supply means 20 and the low pressure discharge port 4 of the hydraulic breaker 1 so that the oil of low pressure discharged from the hydraulic breaker 1 is recovered to the oil tank 12 through the positive pressure supply means 20. Low pressure discharge hose (80); Constant pressure supply device of the hydraulic breaker for excavators, characterized in that consisting of. The method of claim 1, wherein the constant pressure supply means 20, The hydraulic pressure of the high pressure supplied from the oil tank 12 by being connected to the high pressure supply line 50 is supplied to the inside, and the hydraulic pressure supplied from the oil tank 12 by being connected to the high pressure supply port 3 of the hydraulic breaker 1. It is transmitted to the hydraulic breaker (1) and connected to the low pressure outlet (4) of the hydraulic breaker (1) to recover the low pressure oil discharged from the hydraulic breaker (1) to the oil tank (12) through the low pressure recovery line (60) And the main block 21 is connected to the low pressure recovery line 60 so that the overpressure supplied from the high pressure supply line 50 or the hydraulic pressure discharged from the hydraulic breaker 1 is recovered to the oil tank 12, When the inside of the main block 21 is installed and the hydraulic pressure of the overpressure is supplied to the main block 21 from the hydraulic device of the excavator 11, the operation hole 29 is formed so that a part thereof flows into the internal space 30, one side An overpressure inlet 31 is formed so that the hydraulic pressure of the overpressure flows into the inner space 30, and an overpressure outlet 32 is formed so that the overpressure introduced into the inner space 30 on the other side is discharged outward. And an overpressure discharge limiting jaw 33 is formed around the inner space 30 between the overpressure outlets 32 to control the overpressure from the overpressure inlet 31 to the overpressure outlet 32. )Wow, An operating chamber 35 is provided in the inner space 30 of the spool body 28 so as to slide along the inner space 30, and is connected to the operating hole 29 of the spool body 28 around one side to transmit overpressure. Is formed and on the other side while opening and closing the inside of the over-pressure discharge limiting step 33, the spool (34) consisting of the opening and closing portion 36 to control the flow of fluid in the internal space 30, A nipple (37) coupled to the main block (21) and supporting the spool body (28); A spring 38 having one end supported by the spool 34 and the other end supported by the nipple 37 to elastically support the spool 34 inside the main block 21; A pressure washer (39) provided between the interior of the nipple (37) and one end of the spring (38) to adjust the pressure of the spring (38), Adjusting the spring pressure by being fastened to the nipple (37) to seal the inside and the inner end is in close contact with the pressure adjusting washer (39) and tightened or loosened to the inside of the nipple (37) while the spring 38 is compressed or relaxed. Hydraulic pressure supply device for an excavator hydraulic breaker, characterized in that consisting of (40). The method of claim 2, wherein the main block 21, It is formed in the inner center of the main block 21, the spool body 28 is installed, the main passage 22 is coupled to the nipple 37 and the overpressure is passed through the end, A high pressure inlet 23 formed at one side of the main block 21 and connected to the high pressure supply line 50 to supply a high pressure supplied from the hydraulic device of the excavator 11; Connected to the main passage 22 and the high pressure inlet 23, when an overpressure of hydraulic pressure is supplied from the hydraulic device of the excavator 11 to the high pressure inlet 23, a part thereof is led to the operation hole 29 of the spool body 28. An overpressure passage 24 to ensure that The main block 21 is formed to be connected to the main passage 22 and the high pressure inlet 23 and is connected to the high pressure supply port 3 of the hydraulic breaker 1 to supply the hydraulic pressure introduced into the high pressure inlet 23 to the hydraulic breaker ( And a high pressure outlet 25 for supplying the high pressure inlet 3 of 1) and supplying a part of the overpressure to the overpressure inlet 31 of the spool body 28 when the overpressure is supplied to the high pressure inlet 23. The low pressure outlet 26 is formed on the other side of the main block 21 and connected to the low pressure recovery line 60 to allow oil supplied from the hydraulic breaker 1 or the main passage 22 to be recovered to the oil tank 12. , The low pressure oil discharged from the hydraulic breaker 1 is formed to be connected to the main passage 22 and the low pressure outlet 26 of the main block 21 and is connected to the low pressure discharge hose 80 to discharge to the low pressure outlet 26. Hydraulic breaker for excavators, characterized in that the high pressure inlet 23, the high pressure outlet 25, the low pressure inlet 27 to guide a part of the overpressure via the main passage 22 to the low pressure outlet 26 side. Constant pressure supply.

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