KR102299173B1 - 2 step auto stroke type hydraulic breaker - Google Patents

Abstract

The present invention relates to a hydraulic two-stroke hydraulic breaker. According to the present invention, a main valve is coupled to the outside of a cylinder, and a pilot valve and a stroke valve are connected to the main valve, so that maintenance of the main valve is easy. In addition, it is possible to respond clearly and quickly to a change signal when a stroke is changed. A fixed groove is formed on an inner wall of the cylinder, so it is possible to block irregular signals generated during a lifting operation of a piston. In addition, a structure of a communication hole of a housing is improved so that the communication hole can be selectively opened and closed according to convenience of an operator without a bolt fastening operation. The hydraulic two-stroke hydraulic breaker of the present invention comprises: the main valve (200); the stroke valve (600); the pilot valve (700); the housing (50); and a plurality of grooves (115).

Description

Hydraulic 2-step stroke hydraulic breaker {2 STEP AUTO STROKE TYPE HYDRAULIC BREAKER}

The present invention relates to a hydraulic two-stage stroke hydraulic breaker. In particular, the main valve is coupled to the outside of the cylinder, and the pilot valve and the stroke valve are connected to the main valve to facilitate maintenance of the main valve, and to change the signal when changing the stroke. It enables clear and quick response, and forms a fixed groove on the inner wall of the cylinder to block irregular signals generated during the lifting and lowering of the piston. It relates to a hydraulic two-stroke hydraulic breaker whose structure is improved so that it can be selectively opened and closed.

In general, hydraulic breaker is widely used for crushing concrete or rock by installing it on construction equipment such as excavator and loader. Concrete and rock are crushed by the striking force that strikes the piston up and down.

This hydraulic breaker consists of a hydraulically operated cylinder and a piston, and a chisel used when crushing an object is attached to the front of the cylinder.

When the piston reciprocates due to the operation of the cylinder, the chisel is struck and a strong impact is applied to the object to split or break the object.

In the hydraulic breaker, a front head is disposed at a lower portion of a cylinder forming a body of the breaker, a head cap is disposed at an upper portion of the cylinder, and is integrally fastened via a long bolt and a nut.

The piston is installed in the cylinder, and portions of both ends of the piston are reciprocally installed in the front head and the head cap installed at both ends of the cylinder, respectively.

The cylinder and the front head are connected by a connecting pin.

The front head is installed with a chisel for crushing the rock or concrete structure, and the chisel performs the function of crushing the rock and concrete while repeatedly reciprocating in conjunction with the up and down reciprocating operation of the piston.

In addition, the cylinder is fastened with a long bolt that passes through the cylinder from the head cap and is fixed to the front head in order to assemble each component into one unit as well as fasten the front head and the head cap.

As the prior art related to the hydraulic breaker, as disclosed in Korean Patent Publication No. 10-1799576 "Intelligent hydraulic breaker using proximity sensor and construction equipment including the same" (registration date: 2017.07.27), hydraulic pressure is supplied cylinder; a piston accommodated in the cylinder and moving forward or backward by hydraulic pressure; a chisel positioned in front of the piston so as to be struck by the piston, one end positioned inside the cylinder and the other end positioned exposed at the front end of the cylinder; a main valve for controlling forward or backward movement of the piston by intermitting hydraulic pressure connected to the long stroke port and the short stroke port formed in the cylinder; a sensor formed in the cylinder to detect a position of the piston in the cylinder; a solenoid valve connected to the main valve and hydraulic pressure and controlling the hydraulic pressure connected to the short stroke port; and a controller that transmits a control signal to the solenoid valve based on the received sensing value of the sensor, wherein the controller includes a stroke distance of the piston based on the sensing value detected by the sensor at the bottom dead center of the piston To control, the sensor, the front end of the piston hitting the chisel may be formed in the cylinder to be located within the stroke distance that the piston moves when the chisel travels through the striking object.

As another prior art related to the hydraulic breaker to which the existing solenoid valve is applied, as disclosed in Korean Patent Publication No. 10-1799576 "Intelligent hydraulic breaker using proximity sensor and construction equipment including the same" (registration date: 2017.11.14) As such, a cylinder to which hydraulic pressure is supplied; a piston accommodated in the cylinder and moving forward or backward by hydraulic pressure; a chisel positioned in front of the piston so as to be struck by the piston, one end positioned inside the cylinder and the other end positioned exposed at the front end of the cylinder; a main valve for controlling forward or backward movement of the piston by intermitting hydraulic pressure connected to the long stroke port and the short stroke port formed in the cylinder; a sensor formed in the cylinder to detect a position of the piston in the cylinder; a solenoid valve connected to the main valve and hydraulic pressure and controlling the hydraulic pressure connected to the short stroke port; and a controller that transmits a control signal to the solenoid valve based on the received sensing value of the sensor, wherein the controller includes a stroke distance of the piston based on the sensing value detected by the sensor at the bottom dead center of the piston To control, the sensor, the front end of the piston hitting the chisel may be formed in the cylinder to be located within the stroke distance that the piston moves when the chisel travels through the striking object.

However, in the conventional hydraulic breaker, a plurality of grooves are formed on the outer circumferential surface of the piston to apply the pressure required for the lifting operation as hydraulic pressure is supplied into the cylinder, but irregular signals caused by hydraulic pressure by the movement of the piston in the lifting operation in the cylinder There is a possibility that , there is a disadvantage that the responsiveness is lowered during the lifting operation of the piston due to this.

In addition, the existing hydraulic breaker has a disadvantage in that it is difficult to maintain and reduce the size of the material because the main valve is built inside the head cap located on the upper part of the cylinder.

In addition, the existing main valve for hydraulic breaker has disadvantages in that the change signal is unclear when changing the flow path for the change signal of the long stroke and the short stroke, and the operation responsiveness of the hydraulic breaker is lowered due to irregular factors of the valve.

Korean Patent Publication No. 10-1799576 "Intelligent hydraulic breaker using proximity sensor and construction equipment including the same" (Registration date: 2017.07.27) Korean Patent Publication No. 10-1799576 "Intelligent hydraulic breaker using proximity sensor and construction equipment including the same" (Registration date: 2017.11.14)

The present invention was created to solve these problems in consideration of the above problems, and its purpose is to connect the main valve to the outside of the cylinder and connect the pilot valve and the stroke valve to the main valve to facilitate maintenance of the main valve, The hydraulic two-step stroke hydraulic system has improved structure so that it can respond clearly and quickly to the change signal when the stroke is changed, and to block the irregular signal generated during the lifting operation of the piston by forming a fixed groove on the inner wall of the cylinder It is to provide a breaker.

Another object of the present invention is to improve the coupling workability of the main valve and to provide a hydraulic two-stroke hydraulic breaker whose structure is improved so that the communication hole of the housing can be selectively opened and closed according to the convenience of the operator without bolting work. there is

The present invention for achieving the above object is a main valve that is detachably coupled to the outer side of the cylinder constituting the breaker body by means of one side portion; a stroke valve connected to the main valve and providing a signal for determining a flow path to the main valve side to select a long stroke mode or a short stroke mode; a pilot valve connected to the main valve and configured to vary the hydraulic pressure transmitted to the main valve when a long stroke mode or a short stroke mode is selected; a housing coupled to surround the outside of the breaker body and having a communication hole communicating with the main valve from the outside; and a plurality of grooves formed to be spaced apart from each other in the height direction on the inner circumferential surface of the cylinder,

The main valve is disposed at a height corresponding to the internal flow path of the upper part to be connected to the high-pressure side flow path of the cylinder, and a connection hole for connection with the stroke valve is formed in the other side of the main valve,

The coupling means consists of a coupling groove formed concavely on the outer surface of the cylinder and coupled to receive a portion of one side of the main valve, and a coupling bolt for fixing the main valve having one side fitted to the coupling groove to the cylinder, and , The housing further includes a cover means for selectively opening and closing the communication hole, wherein the cover means includes a sliding hole formed to communicate with the outside formed on one side of the housing, and the inside of the housing through the sliding hole, A cover that is coupled to the outside and protrudes to have a width greater than the width of the sliding hole at the left and right ends of one edge, respectively, and blocks the communication hole from the outside during the inner retracting operation of the housing A plate, a stopper provided inside the housing and limiting the retracting distance during the retracting operation of the cover plate, and a guide rail provided to be spaced apart from both left and right sides inside the housing and to guide the sliding movement of the guide protrusion. It is characterized in that it includes.

The coupling means further includes a locking protrusion having a concave locking groove formed at the bottom of the coupling groove, and formed on an edge of one end of the main valve to be fitted in the locking groove.

The cylinder has a communication passage communicating with the inside of the main valve so that hydraulic pressure is supplied therein, and the communication passage is formed at an angle inclined downward from the main valve side toward the cylinder.

In the cylinder, an accumulator for reducing the pulsation of hydraulic pressure is disposed below the main valve.

The cover means is formed to protrude from one side of the housing in which the sliding hole is formed in order to fix the position of the cover plate, and a fixing bracket having a first pin coupling hole is formed, and the cover plate protrudes to the outside of the sliding hole when the cover plate is retracted. It further includes a coupling pin for penetrating the second pin coupling hole and the first pin coupling hole formed on the other edge of the cover plate.

In the present invention, since the main valve protrudes on the outside of the cylinder so that the internal flow path of the main valve is horizontally connected to a height corresponding to the high-pressure side flow path of the cylinder, the overall flow path is shortened when switching between the long and short strokes. Hydraulic pressure is quickly transmitted to the inside of the cylinder by the length, which has the advantage of improving responsiveness at each stroke change.

In addition, since the present invention is provided to communicate with the main valve at an inclined angle downward through the communication passage connected to the groove side of the lower side of the cylinder, the hydraulic pressure supply direction is supplied toward the downward moving direction of the piston, so that the piston moves downward. It has the advantage of doubling the striking power.

In addition, the present invention can easily couple the main valve to the outside of the cylinder by using a coupling means, and when a locking groove and a locking jaw are further provided among the coupling means, one side of the main valve is temporarily assembled in the coupling groove. It can be fastened with a coupling bolt in the .

In addition, the present invention has the advantage of having a cover means for selectively opening and closing the communication hole of the housing, so that the communication hole can be easily opened and closed without a bolt fastening operation by the sliding operation of the cover plate.

1 is a front view of a hydraulic two-stage stroke hydraulic breaker according to the present invention.
Fig. 2 is a cross-sectional view of Fig. 1;
3 is an enlarged view of the "A" part of FIG.
Figure 4 is an exploded view of the main valve of Figure 3;
5 is a cross-sectional view showing a modified example of the present invention coupling means.
6 and 7 are perspective views showing the state before and after the coupling of the present invention protective cover.
Figure 8 is a perspective view showing the present invention cover means.
9 and 10 are partial cross-sectional views showing the state before and after the use of the cover means of the present invention.
11 is a hydraulic circuit diagram of the present hydraulic breaker.
12 is an exemplary view schematically showing a flow path connection state between the main valve and the stroke valve of the present invention.
13 is a view showing the operation state of the stroke valve in the long stroke mode of the hydraulic breaker of the present invention.
14 is a view showing the operation state of the stroke valve in the short stroke mode of the hydraulic breaker of the present invention.

In describing the present invention, if it is determined that a detailed description of a related known technology or configuration may unnecessarily obscure the gist of the present invention, a detailed description thereof will be omitted. And the terms to be described later are terms defined in consideration of functions in the present invention, and may vary according to the intention or custom of the user. Therefore, the definition should be made based on the content throughout this specification. In addition, 'including' a certain component means that other components may be further included, rather than excluding other components, unless otherwise stated.

When the hydraulic two-stroke hydraulic breaker according to the present invention is described with reference to FIGS. 1 to 14 , one side portion is detachably coupled to the outside of the cylinder 110 constituting the breaker body 100 by a coupling means 400 . a main valve 200 being; a stroke valve 600 connected to the main valve 200 and providing a signal for determining a flow path to the main valve 200 side to select a long stroke mode or a short stroke mode; a pilot valve 700 that is connected to the main valve 200 and transmits to vary the hydraulic pressure transmitted to the main valve 200 when a long stroke mode or a short stroke mode is selected; a housing 50 coupled to surround the outside of the breaker body 100 and having a communication hole 55 that communicates with the main valve 200 from the outside; and a plurality of grooves 115 formed to be spaced apart from each other in the height direction on the inner circumferential surface of the cylinder 110 , wherein the main valve 200 has an upper internal flow path 205 for the high pressure of the cylinder 110 . It is disposed at a corresponding height to be connected to the side flow path 111 , and a connection hole 202 for connection with the stroke valve 600 is formed at the other side of the main valve 200 .

In the breaker body 100 of the present invention, as shown in FIGS. 1 and 2 , the gas chamber 120 is disposed on the upper side of the cylinder 110 , and is struck by the piston 140 on the lower side of the cylinder 110 . A front head 130 in which the upper portion of the chisel 150 is accommodated is disposed.

1 and 2 , the cylinder 110 has a structure in which a plurality of grooves 115 concave in the form of a belt are formed on an inner circumferential surface of which the piston 140 is lifted.

For this reason, the fixed groove formed in the inner wall of the cylinder 110 can block the irregular signal generated during the lifting operation of the piston 140 .

As shown in FIGS. 2, 12, and 13, the main valve 200 is coupled to an externally protruding outside of the cylinder 110, and a high-pressure flow path 210 is provided on the upper side of the inside, and the The low pressure flow path 220 is provided below the high pressure flow path 210 , and the pilot flow path 230 is provided below the low pressure flow path 220 .

In addition, the main valve 200 has a structure in which an internal flow path 205 connected to the high pressure side flow path 111 of the cylinder 110 in a bent direction is formed on the upper side of the high pressure flow path 210 .

As the main valve 200 is disposed in an external structure in which the internal flow path 205 protrudes on the outer periphery of the cylinder 110 at a height corresponding to the high pressure side flow path 111 of the cylinder 110, the existing main valve ( 200) is arranged in the gas chamber, since the overall length of the flow path through which the oil is supplied to the cylinder 110 is shortened, the hydraulic breaker responds quickly when switching between short stroke or long stroke mode. has

In addition, in the cylinder 110 , an accumulator 300 for reducing the pulsation of hydraulic pressure is disposed below the main valve 200 .

The cylinder 110 has a communication passage 112 that communicates with the inside of the main valve 200 so that hydraulic pressure is supplied therein, and the communication passage 112 has the groove 115 on the main valve 200 side. ) and has a structure formed at an angle inclined downward toward it.

As shown in FIGS. 2 and 11, in the main valve 200, high-pressure oil is always supplied to the high-pressure flow path 210 side of the main valve 200 in the long stroke mode of the stroke valve 600, It has a structure in which the low-pressure oil of the stroke valve 600 is connected to be supplied to the low-pressure flow path 220 of the main valve 200 in the short stroke mode.

As shown in FIG. 12 , the stroke valve 600 has a sensing flow path 602 , a long flow path 604 , and a short flow path 606 connected to the cylinder 110 with grooves 115 of different heights, and the pilot The side flow path 607 and the low and high pressure connection flow paths 609 and 608 have a structure in which they are connected to the pilot flow path 230 of the main valve 200 , the low pressure flow path 220 , and the high pressure flow path 210 .

In addition, as shown in FIG. 4 , the coupling means 400 includes a coupling groove 410 that is concavely formed on the outer surface of the cylinder 110 and coupled to accommodate one side of the main valve 200 , and , a coupling bolt 420 for fixing the main valve 200 having one side fitted into the coupling groove 410 to the cylinder 110 .

The coupling groove 410 has a structure concavely formed on the outer circumferential surface of the cylinder 110 in a corresponding shape along the circumference of one side edge of the main valve 200 .

5 is a cross-sectional view showing a modified example of the coupling means 400 of the present invention, the coupling means 400 has a concave engaging groove 415 is formed in the lower bottom of the coupling groove 410, the main valve 200 ) is formed on the edge of one end and further includes a locking jaw 430 fitted into the locking groove 415 .

The locking groove 415 and the locking jaw 430 couple the main valve 200 to the outside of the cylinder 110 and connect the main valve 200 to the coupling groove 410 before fastening with the coupling bolt 420 . Because it can be temporarily assembled by walking on the main valve 200, it is possible to increase the working convenience of the operator during the coupling operation.

That is, during the coupling operation of coupling the main valve 200 to the outside of the cylinder 110, the operator puts the main valve 200 in close contact with the coupling groove 410 of the cylinder 110 with one hand, and then uses the coupling bolt with the other hand. In the process of fastening with 420, since the main valve 200 can be assembled after temporary assembly by hanging the locking jaw 430 in the locking groove 415 to be separated from the assembly position, it is possible to increase the convenience of the operator. have

6 and 7 are views showing a protective cover 70 of the present invention, in which the protective cover 70 capable of covering the communication hole 55 of the housing 50 is provided with a plurality of fastening bolts 75 to the housing 50 ), the crushed stone is thrown into the housing 50 through the open communication hole 55 during the ground crushing operation of the hydraulic breaker to prevent the main valve 200 or the accumulator 300 from being damaged.

8 to 10 , the housing 50 further includes a cover means 500 for selectively opening and closing the communication hole 55 . The cover means 500 is to improve the cumbersome and time-consuming fastening work of fastening the protective cover 70 with a plurality of fastening bolts 75 in order to couple the housing 50 to the housing 50 .

The cover means 500 has a sliding hole 510 formed on one side of the housing 50 to communicate with the outside, and protrudes and protrudes from the inside and outside of the housing 50 through the sliding hole 510 . Guide protrusions 522 that are coupled to each other and protrude to have a width greater than the width of the sliding hole 510 are formed at the left and right ends of the edge of one side, and the communication hole during the inner retracting operation of the housing 50 A cover plate 520 that blocks 55 from the outside, a stopper 530 provided inside the housing 50 and limiting the retracting distance when the cover plate 520 is retracted, and the housing 50 ) is provided to be spaced apart on both left and right sides in the interior and is made to include a guide rail 550 for guiding the sliding movement of the guide protrusion 522 .

The sliding hole 510 is formed in the form of a rectangular hole elongated in the height direction on one side of the housing 50 .

The cover plate 520 is a rectangular plate, and a grip portion 525 that is always protruded to the outside of the sliding hole 510 on the other side edge and can be gripped by an operator's hand is formed, and through the sliding hole 510 , the cover plate 520 is formed. When entering the inside of the housing 50, the communication hole 55 is blocked from the outside to prevent crushed stones generated during the crushing operation of the hydraulic breaker from splashing into the inside of the housing 50 through the communication hole 55 Thus, the function of the protective cover protecting the main valve 200 and the accumulator 300 is performed.

The cover means 500 is formed to protrude from one side of the housing 50 in which the sliding hole 510 is formed in order to fix the position of the cover plate 520 , and the first pin coupling hole 542 is fixed. A bracket 540 and a second pin coupling hole 527 formed in the grip portion 525 of the cover plate 520 protruding to the outside of the sliding hole 510 during the retracting operation of the cover plate 520 and A coupling pin 570 through which the first pin coupling hole 542 is coupled is further provided.

The stopper 530 functions to limit the retracting operation distance of the cover plate 520 and to align the second pin coupling hole 527 to the first pin coupling hole 542 on the same vertical line. will have

The cover means 500 is a protective cover that normally shields the communication hole 55 of the housing 50 as the cover plate 520 slides into the inside of the housing 50 through the sliding hole 510 . However, during maintenance of the main valve 200 and the accumulator 300, the cover plate 520 is drawn out of the housing 50 through the sliding hole 510 to the outside of the communication hole 55 ) to open the main valve 200 and the accumulator 300 to the outside.

In the present invention having such a configuration, the main valve 200 and the accumulator 300 are coupled by a coupling means 400 in an external form protruding outside the cylinder 110 constituting the breaker body 100, and the main valve The stroke valve 600 and the pilot valve 700 are connected to form a flow path through the connection hole 202 of the 200 .

After coupling the coupling means 400 so that one edge of the main valve 200 is accommodated in the coupling groove 410 concavely formed on the outside of the cylinder 110, the coupling bolt 420 is used to connect the main valve 200 ) is coupled to be fixed to the cylinder (110).

At this time, the coupling means 400 uses the locking groove 415 and the locking jaw 430 to connect the main valve 200 to the outside of the cylinder 110 before coupling the main valve 200 to the cylinder 110 . Since it can be temporarily assembled in the coupling groove 410, it is possible to increase the working convenience of the operator during the coupling operation.

As the breaker body 100 described above is disposed on the outside of the cylinder 100 so that the main valve 200 is close to the chisel 150, there is a risk that the parts may be easily damaged due to a stone splashing during crushing, but as shown in FIG. The communication hole 55 is covered with the protective cover 70 while entering into the housing 50 and coupled, or the communication hole 55 is connected with the cover plate 520 of the cover means 500 as shown in FIG. 8 . By opening/closing, component damage can be prevented.

The cover means 500 may open and close the communication hole 55 of the housing 50 by a sliding operation of the cover plate 520 that enters and withdraws into and out of the housing 50 through the sliding hole 510 . Therefore, it is possible to omit a large number of bolt fastening work has the advantage of increasing the convenience of the operator.

In addition, when the communication hole 55 is closed by the cover plate 520 , the second pin coupling hole 527 formed in the grip portion 525 of the cover plate 520 is used to fix the cover plate 520 . After locating the first pin coupling hole 542 of the fixing bracket 540 on the same vertical line, the coupling pin 570 may be pin-coupled to fix the cover plate 520 .

Thereafter, as shown in FIGS. 11 and 12 , the flow path for the stroke valve 600 and the pilot valve 700 is connected to the connection hole 202 of the main valve 200 coupled to the cylinder 110 . The flow path can be switched when the stroke is switched between the long stroke mode or the short stroke mode.

The flow path for each stroke of the hydraulic breaker is, for example, in an initial idle state as shown in FIG. 12 , a low-pressure hydraulic pressure is transmitted to the sensing flow path 602 of the stroke valve 600, and the valve body 620 is raised. and low pressure oil is supplied to the pilot flow path 230 side of the main valve 200, and the valve 220 is lowered by the cross-sectional area difference of the oil supply portion of the valve 250 to the main valve 200. ) is supplied with low pressure oil.

-Long stroke stroke-

As shown in FIG. 13 during the long stroke mode stroke of the hydraulic breaker of the present invention, the long flow path 604 of the stroke valve 600 is opened and the internal spool 610 is lowered by the high pressure hydraulic pressure while the high pressure flow path ( 210) and the pilot flow path 230 are connected, and the high pressure hydraulic pressure is transmitted to the upper side of the cylinder 110 through the high pressure flow path 210 and the internal flow path 205 of the main valve 200, and the piston 140 descends. As a result, a long stroke striking force acts on the chisel 150 region.

-Short stroke stroke-

During the short stroke stroke, as shown in FIG. 14 , the piston 140 moves downward more than the striking point, and the low pressure hydraulic pressure is transmitted to the sensing flow path 602 of the stroke valve 600, and the valve body 620 rises. While switching to the short stroke stroke mode, low pressure oil is supplied to the pilot flow path 230 side of the main valve 200, and the valve 250 of the main valve 200 is The lowering operation is performed to supply low-pressure oil to the main valve 200 .

In the present invention, the main valve 200 is connected to the outside of the cylinder 110 so that the internal flow path 205 of the main valve 200 is horizontally connected to a height corresponding to the high pressure side flow path 111 of the cylinder 110 . Since it protrudes from the long stroke, the hydraulic pressure is rapidly transferred to the inside of the cylinder 110 due to the overall shortened flow path length when switching between the long and short strokes, so that the responsiveness is improved during each stroke change.

In addition, in the present invention, since the main valve 200 and the communication passage 112 connected to the lower groove 115 side of the cylinder 110 are provided to communicate at an inclined downward angle, the hydraulic pressure supply direction is the piston ( It is supplied in the downward direction of the 140) and has the advantage of doubling the striking force during the descending operation of the piston (140).

In the present invention, the main valve 200 can be easily coupled to the outside of the cylinder 110 by using the coupling means 400 , and the locking groove 415 and the locking jaw 430 among the coupling means 400 . ), it is possible to fasten one side of the main valve 200 with the coupling bolt 420 in a state that is temporarily assembled in the coupling groove 410, thereby increasing the convenience of the coupling operation of the operator.

In addition, the present invention is provided with a cover means 500 for selectively opening and closing the communication hole 55 of the housing 50, the sliding operation of the cover plate 520 can open and close the communication hole 55 conveniently without a bolt fastening operation. have an advantage

As such, although specific embodiments have been described in the detailed description of the present invention, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be defined by the claims and equivalents as well as the claims to be described later.

That is, the present invention described as described above is not limited to the specific preferred embodiments described above, and anyone with ordinary skill in the art to which the invention pertains without departing from the gist of the present invention as claimed in the claims Of course, various modifications are possible, and such modifications are within the scope of the claims.

50: housing 55: through hole
70: protective cover 75: fastening bolt
100: breaker body 110: cylinder
111: high-pressure side flow path 112: communication flow path
115: groove 120: gas chamber
130: front head 140: piston
150: chisel 200: main valve
205: internal flow path 210: high pressure flow path
220: low pressure flow path 230: pilot flow path
250: valve 300: accumulator
400: coupling means 410: coupling groove
415: locking groove 420: coupling bolt
430: locking jaw 500: cover means
510: sliding ball 520: cover plate
522: guide protrusion 525: gripping part
527: second pin coupling hole 530: stopper
540: fixing bracket 542: first pin coupling hole
550: guide rail 570: coupling pin
600: stroke valve 602: sensing flow path
604: long euro 606: short euro
607: pilot side flow path 608: high-pressure connection flow path
609: low pressure connection passage 610: spool
620: valve body 700: pilot valve

Claims (5)

a main valve 200 having one side portion detachably coupled to the outside of the cylinder 110 constituting the breaker body 100 by a coupling means 400; a stroke valve 600 connected to the main valve 200 and providing a signal for determining a flow path to the main valve 200 side to select a long stroke mode or a short stroke mode; a pilot valve 700 that is connected to the main valve 200 and transmits to vary the hydraulic pressure transmitted to the main valve 200 when a long stroke mode or a short stroke mode is selected; a housing 50 coupled to surround the outside of the breaker body 100 and having a communication hole 55 that communicates with the main valve 200 from the outside; and a plurality of grooves 115 formed to be spaced apart from each other in the height direction on the inner circumferential surface of the cylinder 110,
The main valve 200 is disposed at a height corresponding to the upper internal flow path 205 to be connected to the high pressure side flow path 111 of the cylinder 110 , and the stroke valve is located on the other side of the main valve 200 . A connection hole 202 for connection with the 600 is formed,
The coupling means 400 has a coupling groove 410 that is concavely formed on the outer surface of the cylinder 110 and coupled to accommodate one side of the main valve 200 , and one side of the coupling groove 410 . is composed of a coupling bolt 420 for fixing the main valve 200 fitted with the cylinder 110 to the cylinder 110,
The housing 50 further includes a cover means 500 for selectively opening and closing the communication hole 55 , wherein the cover means 500 is formed to communicate with the outside formed on one side of the housing 50 . a sliding hole 510 that becomes a sliding hole 510, and is coupled to the inside and outside of the housing 50 through the sliding hole 510 so as to be larger than the width of the sliding hole 510 at the left and right ends of one edge. Guide protrusions 522 each protruding so as to have a width are formed, and a cover plate 520 that blocks the communication hole 55 from the outside during the inner retracting operation of the housing 50, and the inside of the housing 50 A stopper 530 which is provided and which limits the retracting distance during the retracting operation of the cover plate 520 and is provided to be spaced apart from left and right sides inside the housing 50 and guides the sliding movement of the guide protrusion 522 A hydraulic two-step stroke hydraulic breaker comprising a guide rail (550).
The method according to claim 1,
The coupling means 400 is formed with a concave locking groove 415 in the bottom portion of the coupling groove 410,
A hydraulic two-step stroke hydraulic breaker formed on the edge of one end of the main valve (200) and further comprising a locking jaw (430) fitted into the locking groove (415). The method according to claim 1,
The cylinder 110 has a communication passage 112 that communicates with the inside of the main valve 200 so that hydraulic pressure is supplied therein,
The communication passage 112 is a hydraulic two-stroke hydraulic breaker, characterized in that formed at an angle inclined downward from the main valve 200 side toward the cylinder 110. The method according to claim 1,
The cylinder (110) is a hydraulic two-step stroke hydraulic breaker, characterized in that the accumulator (300) for reducing the pulsation of the hydraulic pressure is disposed below the main valve (200). The method according to claim 1,
The cover means 500 is formed to protrude from one side of the housing 50 in which the sliding hole 510 is formed in order to fix the position of the cover plate 520 , and the first pin coupling hole 542 is fixed. a bracket 540, and
The second pin coupling hole 527 and the first pin coupling hole 542 formed on the other edge of the cover plate 520 protruding to the outside of the sliding hole 510 during the retracting operation of the cover plate 520, Hydraulic two-stroke hydraulic breaker, characterized in that it further comprises a coupling pin (570) for through coupling.

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