KR101948016B1 - Breaker main valve - Google Patents

Abstract

A breaker main valve according to one aspect of the present invention includes an inner body having an inner space formed therein and into which hydraulic fluid is introduced, an outer body fixedly coupled to the inner body to form a space separated from the outer surface of the inner body by a predetermined distance, And a moving body provided between the outer body and the inner body and moving in the space depending on an external hydraulic pressure.

Description

Breaker main valve {Breaker main valve}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a breaker main valve, and more particularly, to a breaker main valve for supplying hydraulic pressure in reciprocating motion.

The hydraulic breaker is a device that breaks the object by transferring the impact energy to the object such as rock or concrete contacted with the end of the chisel by the kinetic energy generated by the reciprocating movement of the piston, Which is connected to a hydraulic power source of an excavator and is supplied with hydraulic oil from an excavator.

The hydraulic breaker is broadly divided into a cylinder constituting a breaker body, a piston provided movably to the cylinder, a chisel installed at a lower portion of the cylinder so as to be hit by the piston, and a pressurized oil being selectively supplied to the cylinder chamber and the cylinder chamber And a valve serving as a means for reciprocating the piston.

The piston is driven by hydraulic pressure to reciprocate between a top dead center and a bottom dead center, and is configured to strike a chisel at a bottom dead center. The chisel transforms the kinetic energy of the piston into impact energy and transfers it to the object to be crushed. The piston is hit by the piston when the piston descends from the top dead center to the bottom dead center.

Thus, the hydraulic breaker determines the hydraulic hydraulic efficiency by the speed at which the valve supplies the hydraulic fluid to the cylinder.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a breaker main valve that increases the efficiency of hydraulic pressure by supplying and removing hydraulic pressure by reciprocating.

According to an aspect of the present invention, there is provided a breaker main valve comprising: an inner body having an inner space formed therein and into which hydraulic fluid is introduced; and an inner body having a predetermined distance from the outer surface of the inner body, And a moving body provided between the outer body and the inner body and moving in the spaced space according to an external hydraulic pressure.

The internal body includes a first body having a cylindrical shape, a first flow path formed on the first body and through which the hydraulic fluid moves, and a second flow path formed on one end of the first body and protruding in the direction of the outer surface of the first body, And an external body and a receiving portion for allowing the moving body to be placed thereon.

The outer body includes a second body having a cylindrical shape, a second flow path formed in the second body and through which the hydraulic fluid is moved, a hydraulic hole formed in the second body and in which the hydraulic pressure moves, And a head portion formed to be bent in the direction of the inner body so that a space is formed between the inner body and the outer body.

Wherein the moving body includes a third body having a cylindrical shape, a third flow path formed in the third body and through which the hydraulic fluid is moved, and a second flow path formed by recessing the hydraulic fluid flowing from the outer body, And an induction groove for guiding to return toward the outer body without being influenced.

Wherein the inner body includes an auxiliary flow path provided in the first body for moving hydraulic fluid and an open / close valve provided in the auxiliary flow path for opening and closing the auxiliary flow path, the moving body including a first flow path, And a pressure measurement hole located on the same line as the auxiliary flow path when the third flow path is located on the same line, and wherein the on-off valve is provided with the auxiliary flow path and the pressure measurement hole A control device for closing the on-off valve and moving the moving body can be connected when the pressure of the hydraulic fluid is measured and is equal to or higher than a predetermined pressure.

According to the breaker main valve of the present invention, the efficiency of the hydraulic pressure can be increased by supplying and removing hydraulic pressure by reciprocating.

1 is a sectional view of a hydraulic breaker with a breaker main valve according to an embodiment of the present invention;
Figures 2 and 3 are cross-sectional views illustrating the portion I shown in Figure 1;
Fig. 4 and Fig. 5 are sectional views showing operation of the breaker main valve according to external hydraulic pressure; Fig.

Hereinafter, a breaker main valve according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view illustrating a hydraulic breaker having a breaker main valve according to an embodiment of the present invention.

1, a breaker main valve 10 according to an embodiment of the present invention includes a hydraulic breaker (not shown) having a front cap 1, a chisel 2, a piston 3 and a nitro gas 4 A). The operation principle of the hydraulic breaker (A) is as follows.

First, when the hydraulic pressure is applied, the piston 3 rapidly moves upward, and the hydraulic pressure that has been pulled out at the end of the stroke of the piston 3 is quickly released. The nitrogas 4 can be compressed by the piston 3 raised in the middle.

When the piston 3 is moved upward, when the piston 3 reaches the position of the outlet port, the hydraulic oil that has been drawn out is released, and the piston 3 is rapidly lowered by the nitro gas 4 that has been compressed.

The lowered piston 3 hits the chisel 2 whose one end is exposed from the front cap 1 and the aggregate or the like is broken by the chisel 2. At this time, when the chisel 2 touches the ground again, the piston 3 is slightly raised. When the piston 3 reaches the position where it receives the hydraulic oil from which the piston 3 is drawn, the piston 3 rises by the supplied hydraulic oil.

When the piston 3 reaches the position where the hydraulic oil for lifting the piston 3 reaches, the piston 3 is rapidly lowered due to the expansion of the nitro gas 4 and the weight of the piston 3.

As described above, the hydraulic breaker A can be operated by the upward and downward movement of the piston 3 by the hydraulic pressure.

Next, the breaker main valve 10 for supplying and removing the hydraulic pressure to the piston 3 will be described.

Figs. 2 and 3 are sectional views showing the portion I shown in Fig.

2 and 3, the breaker main valve 10 according to an embodiment of the present invention may include an inner body 100, an outer body 200, and a moving body 300.

The inner body 100 has an inner space 100a through which hydraulic fluid flows and includes a first body 110, a first oil passage 120, a receiving portion 130, an auxiliary oil passage 140, and an on- ).

First, the first body 110 determines the overall shape of the inner body 100 and may have a cylindrical shape. In addition, a plurality of grooves (not shown) are formed on the outer surface of the first body 110. Hydraulic oil can be introduced into the first body 110 to reduce the coefficient of friction with the moving body 300, Can move more smoothly.

The first flow path 120 may be formed in the first body 110 to allow the hydraulic fluid to move to the inside or the outside of the first body 110. Here, the first flow path 120 may include a plurality of first flow paths 120 to maintain a predetermined distance along the outer surface of the first body 110.

The pedestal 130 may be provided at one end of the first body 110 and protrude toward the outer circumference of the first body 110. The external body 200 and the moving body 300 can be placed on the receiving portion 130 protruding in the direction of the outer circumference of the first body 110 and the width of the moving body 300 can be restricted You can also play a role.

The auxiliary flow path 140 has a smaller diameter than the first flow path 120 and is provided in the first body 110 in the same manner as the first flow path 120. The auxiliary flow path 140 is provided between the first flow path 120 and the receiving portion 130 Can be located. The auxiliary flow path 140 may include an on-off valve 160 for opening and closing the auxiliary flow path 140. The opening / closing valve 160 will be described later in detail.

The outer body 200 is fixedly coupled to the inner body 100 to form a space 200b spaced from the outer surface of the inner body 100 by a predetermined distance and includes a second body 210, , A hydraulic hole (230) and a head part (240).

The second body 210 determines the overall shape of the outer body 200 and may be formed in a cylindrical shape like the first body 110.

The second flow path 220 is formed in the second body 210 so that the hydraulic fluid can be moved to the inside or the outside of the second body 210. The second flow path 220 may include a plurality of second flow paths 220 so as to be spaced along the outer surface of the second body 210, As shown in FIG.

The hydraulic holes 230 are provided at both ends of the second body 210 in the longitudinal direction so that the hydraulic pressure can be transferred to the inside or the outside of the second body 210. The hydraulic holes 230 also communicate with the second passage 220, Similarly, a plurality of the first and second bodies 210 and 210 may be provided at regular intervals along the outer surface of the second body 210.

The head part 240 is disposed at one end of the second body 210 and is bent in the direction of the inner body 100 so that the width of the moving body 300, which is the same as the receiving part 130 of the inner body 100, And the like. Here, the head 240 may be provided at one end of the second body 210 which is not placed on the receiving portion 130 of the inner body 100.

Since the inner body 100 and the outer body 200 have the receiving portion 130 and the head portion 240 as described above, the inner body 100 and the outer body 200 are coupled together with the first body 110 and the second body 210, 100 and the outer body 200. In this case,

The moving body 300 is provided between the outer body 200 and the inner body 100 and can move within the space 200b in response to an external hydraulic pressure. Three flow paths 320, an induction groove 330, and a pressure measurement hole 340.

The third body 310 determines the overall shape of the moving body 300 and may be formed in a cylindrical shape like the first body 110 and the second body 210. A plurality of grooves (not shown) are formed on the outer surface of the third body 310 in the same manner as the first body 110. Hydraulic oil can be introduced into the outer surface of the third body 310 to reduce the coefficient of friction with the outer body 200 The moving body 300 can move more smoothly.

The third flow path 320 may be formed in the third body 310 to allow the hydraulic fluid to move to the inside or the outside of the third body 310. Here, the first flow path 120 may include a plurality of first flow paths 120 to maintain a predetermined distance along the outer surface of the first body 110.

The pressure measuring hole 340 is formed to have a diameter smaller than that of the third flow path 320 and is provided in the third body 310 as in the third flow path 320. The third flow path 320, An induction groove 330 may be formed in the outer surface of the third body 310 in a concave shape.

The pressure measurement hole 340 and the guide groove 330 will be described in detail later.

Next, a method of operating the breaker main valve 10 according to an embodiment of the present invention will be described.

4 and 5 are sectional views showing an operation of the breaker main valve according to the external hydraulic pressure.

2 to 5, a breaker main valve 10 according to an embodiment of the present invention includes an inner body 100 in which an inner space 100a is formed and into which hydraulic oil flows, And an outer body 200 fixed to the inner body 100 so as to form a space 200b spaced apart from the outer body 200 by a predetermined distance to be spaced apart from the inner body 100, And a moving body 300 moving within the space 200b.

The inner body 100 includes a first body 110 having a cylindrical shape, a first flow path 120 formed in the first body 110 to move the hydraulic fluid, a first flow path 120 formed at one end of the first body 110, A support body 130 formed to protrude in the outer circumferential direction of the body 110 and allowing the outer body 200 and the moving body 300 to be placed thereon; a support body 130 provided on the first body 110 to move hydraulic oil 140 And an on-off valve 160 provided on the auxiliary flow path 140 to open and close the auxiliary flow path 140.

The outer body 200 includes a second body 210 having a cylindrical shape, a second flow path 220 formed on the second body 210 and through which the hydraulic fluid moves, and a second body 210 formed on the second body 210, And is formed at one end of the moving hydraulic hole 230 and the second body 210 so as to be bent in the direction of the inner body 100 so that a spacing space 200b is formed between the inner body 100 and the outer body 200 The head portion 240 may be provided.

The moving body 300 includes a third body 310 having a cylindrical shape and a third flow path 320 formed on the third body 310 to move the hydraulic fluid and a third body 320 having a concave shape on the outer surface of the third body 310 An induction groove 330 for guiding the hydraulic oil introduced from the external body 200 to return to the external body 200 without flowing into the internal body 100 and a first oil path 120 for the internal body 100, The second flow path 220 of the outer body 200 and the third flow path 320 of the moving body 300 are located on the same line, .

The operation of the breaker main valve 10 is as follows.

4, when the hydraulic pressure is supplied through the hydraulic hole 230 in the vicinity of the head portion 240 of the outer body 200, the moving body 300 is moved to the receiving portion 130 side The hydraulic hole 230 in the vicinity of the receiving portion 130 of the inner body 100 is automatically closed and the first flow path 120, the second flow path 220 and the third flow path 320 are all opened Hydraulic oil can be introduced into the inner space 100a of the inner body 100. The auxiliary flow path 140 of the inner body 100 and the pressure measurement hole 340 of the moving body 300 are connected to the first flow path 120 The hydraulic fluid drawn into the inner space 100a of the inner body 100 flows into the inner space 100a through the auxiliary flow path 140, ). ≪ / RTI >

At this time, when the pressure of the hydraulic oil ejected through the pressure measuring device (not shown) provided in the pressure measuring hole 340 is measured and the ejected pressure is equal to or higher than a predetermined pressure, the opening / closing valve 160, The auxiliary channel 140 may be closed to move the mobile unit 300 in the direction of the head unit 240 from the receiving unit 130 as shown in FIG.

The hydraulic oil is discharged through the hydraulic hole 230 located on the head portion 240 side and the hydraulic oil is discharged from the bearing portion 130, The hydraulic pressure is supplied through the hydraulic hole 230 located on the side of the hydraulic pump.

The hydraulic fluid drawn into the outer body 200 through the third flow path 320 flows into the guide groove 330 of the moving body 300 as the hydraulic fluid is closed by the moving body 300 into the inner space 100a, So that the hydraulic oil can be prevented from entering the inner space 100a in advance.

The control device 400 is connected to the opening and closing valve 160 to measure the pressure of the hydraulic fluid jetted in the direction of the outer body 200 through the auxiliary flow path 140 and the pressure measurement hole 340 in the inner body 100 The on / off valve 160 may be closed to allow the moving body 300 to move.

As described above, the hydraulic pressure can be repeatedly supplied and blocked through the movement of the moving body 300 through the inflow and outflow of the hydraulic oil, so that when the hydraulic motor is operated at high speed, the efficiency of the hydraulic pressure as the hydraulic breaker can be increased.

Although the breaker main valve according to an embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiments disclosed herein. Those skilled in the art, who understands the spirit of the present invention, can readily suggest another embodiment by adding, changing, deleting, or adding elements within the scope of the same idea, but this is also within the spirit of the present invention something to do.

10: breaker main valve 100: inner body
200: external body 300: mobile body
400: control device

Claims (5)

A breaker main valve for supplying hydraulic pressure to and from a hydraulic breaker used in a construction site,
The breaker main valve includes an inner body having an inner space formed therein and into which hydraulic fluid is introduced, an outer body fixedly coupled to the inner body to form a space separated from the outer surface of the inner body by a predetermined distance, A moving body provided between the sieves and moving in the spaced space according to an external hydraulic pressure;
The internal body includes a first body having a cylindrical shape, a first flow path formed on the first body and through which the hydraulic fluid moves, and a second flow path formed on one end of the first body and protruding in the direction of the outer surface of the first body, An external body and a receiving portion for allowing the moving body to be placed thereon;
The outer body includes a second body having a cylindrical shape, a second flow path formed in the second body and through which the hydraulic fluid is moved, a hydraulic hole formed in the second body and in which the hydraulic pressure moves, And a head portion formed to be bent in the direction of the inner body so that a space is formed between the inner body and the outer body;
Wherein the moving body includes a third body having a cylindrical shape, a third flow path formed in the third body and through which the hydraulic fluid is moved, and a second flow path formed by recessing the hydraulic fluid flowing from the outer body, And an induction groove for guiding to return toward the outer body without being influenced;
Wherein the inner body includes an auxiliary flow path provided in the first body for moving the hydraulic fluid and an open / close valve provided in the auxiliary flow path for opening and closing the auxiliary flow path, the moving body including a first flow path, And a pressure measurement hole located on the same line as the auxiliary flow path when the third flow path is located on the same line, wherein the opening / closing valve is provided with the auxiliary flow path and the pressure measurement hole And a control device for closing the on-off valve and moving the moving body is connected when the pressure of the hydraulic fluid is measured and the pressure is higher than a predetermined pressure. delete delete delete delete

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