KR100400385B1 - Control valve for hidraulic breaker - Google Patents

Abstract

The present invention relates to a hydraulic control valve of a hydraulic breaker, the main object of the invention is to improve the configuration of the valve side, valve side sleeve and valve plug to enable a stable sliding without forming a separate guide extension, It does not form a narrow through-holes so that there is no change in cross-sectional area, so that unnecessary hydraulic resistance does not occur, and it is intended to be easy to process and to reduce productivity and lower production costs.

A characteristic constitution of the present invention for achieving the above object is to form a valve chamber (210b) on the hydraulic inlet flow passage 211 at one side of the cylinder 210, the valve side sleeve 250 and the valve embedded therein In the hydraulic control valve of the hydraulic breaker composed of a plug 270 and a valve side 260 to reciprocate inside the valve side sleeve, the valve side sleeve 250 is the valve side 260 is raised and lowered Stroke hydraulic line port 214, the drain port 215 of the interruption, the valve switching port 216 communicates with the internal hydraulic chamber 212 of the cylinder 210 from the bottom to maintain an internal space to operate And a buffer drain port 218, and the valve plug 270 is formed to have an inner diameter 271 to which an upper end of an outer diameter of the valve side 260 may be fitted, and the valve side ( 260 allows the hydraulic pressure connected from the respective ports to act on its outer diameter. To form the round jaw, the inner diameter of the straight line without changing the cross section, and to form the radial grooves (264) on the top surface.

Description

CONTROL VALVE FOR HIDRAULIC BREAKER}

The present invention relates to a hydraulic control valve of a hydraulic breaker, and more particularly, to improve the structure of the valve so that the cross-sectional change is not large, it is characterized in that it is easy to process and reduce the hydraulic resistance during sliding operation.

In general, the hydraulic breaker is installed on the arm end of a construction machine such as an excavator, and is used to repeatedly perform hundreds of blows per minute by hydraulic power, and delivers such a hitting force to the ground or rock to excavate or fracture. Device.

As shown in the cross-sectional view of FIG. 120), the control valve 130 is provided on the side of the cylinder for supplying / blocking the hydraulic passage and the hydraulic space, the compression chamber 140 provided on the upper end of the cylinder, connected to the lower end of the cylinder It is made of a chisel (100) to deliver the impact of the piston to the rock or ground.

At this time, the conventional control valve 130 as shown in Figure 2 and 3, the valve side sleeve 150 and the valve side provided on the hydraulic inlet flow path 111 on one side of the cylinder 110, And a valve plug 170.

That is, the valve side sleeve 150 has an inner space in which the valve side 160 can move up and down, and around the upper hydraulic chamber 112 of the cylinder 110 to help the piston 120 descend. Strike hydraulic line port 114, the drain pot 115 of the interruption, and the valve switching port 116 are provided in order from the bottom, and on the valve plug 170 thereon is a central buffer hydraulic chamber ( Drain port 118 leading to 117 is formed.

In addition, the valve side 160 has a valve switching jaw 161 of the suspension, a through hole 162 of the upper end surface, and a guide extension 163 protruding in the longitudinal direction from the center of the through holes. The guide extension 163 is fitted into the guide hole 171 of the valve plug 170.

And the operation of the valve valve 160 is as follows.

When the hydraulic oil rises up into the hydraulic inflow passage 111 of the cylinder 110, the valve side 160 is shown in FIG. 2 because the hydraulic pressure acts on the upper side through the through holes 162 of the valve side 160. As you can see, you're keeping it down.

In such a state, when the hydraulic oil is continuously supplied to the lower hydraulic chamber 113 of the cylinder 110 through the hydraulic inflow passage 111 and the piston 120 ascends, the valve switching port ( Pressure oil acts through 116, which acts on the valve switching jaw 161 to raise the valve valve 160.

As shown in FIG. 3, when the valve side 160 is raised, the lower end of the valve side 160 opens the striking hydraulic line port 114, so that the pressure oil acts on the upper hydraulic chamber 112 of the cylinder 110. Therefore, the piston 120 is lowered to allow the chisel 100 to strike.

Subsequently, the pressurized oil after the tapping is partially discharged into the hydraulic discharge passage 119 through the drain port 118 of the stop, and when the hydraulic pressure is partially discharged, it acts on the valve switching jaw 161 of the valve valve 160. Since the hydraulic pressure is removed, the valve side 160 is lowered again to return to its original position, and the above operation is repeated.

The conventional hydraulic control valve constructed and operated as described above is pointed out the following drawbacks.

That is, since the plurality of through holes 162 are formed in the upper end surface, when the hydraulic pressure moves, an action such as an orifice is generated to generate unnecessary hydraulic resistance as well as noise.

In addition, the guide extension part 163 is formed in the longitudinal direction at the center of the through holes 162 for the guide of the valve valve 160 which is to move up and down, and the guide plug is fitted to the valve plug 170. The guide hole 171 that can be formed is formed, which is a disadvantage in that productivity is lowered and manufacturing costs are increased because of difficulty in processing.

Therefore, the present invention has been made in view of the above-mentioned conventional shortcomings to solve the problem, the main object of the invention is to improve the configuration of the valve side, valve side sleeve and valve plug, stable sliding even without forming a separate guide extension To prevent unnecessary hydraulic resistance by not forming narrow through-holes so that there is no change in cross-sectional area, and to make it easy to process, it is possible to improve productivity and lower production costs. will be.

A characteristic constitution of the present invention for achieving the above object is to form a valve chamber on the hydraulic inlet flow passage at one side of the cylinder, and to reciprocate in the valve side sleeve and valve plug embedded therein, and the valve side sleeve. In the hydraulic control valve of the hydraulic breaker consisting of a valve side, wherein the valve side sleeve has an internal space for the valve side to move up and down, the blow hydraulic line port communicated from the bottom to the upper hydraulic chamber of the cylinder, And the valve plug is formed to have an inner diameter to which the upper end of the outer diameter of the valve valve can be fitted, and the valve valve is formed at its outer diameter, respectively. And forming the barrels so that the hydraulic pressure connected from the ports of the port can act, and the inner diameter thereof is formed in a straight line without changing the cross section. , And to form a radial groove in the top surface.

1 is a cross-sectional view showing the internal configuration of a conventional hydraulic breaker

Figure 2 is an enlarged cross-sectional view of Figure 1 in the lowered state of the valve sleeve sleeve

3 is an enlarged sectional view of FIG. 1 showing an elevated state of the valve sleeve;

Figure 4 is an enlarged cross-sectional view showing the internal configuration of the hydraulic breaker of the present invention.

Figure 5 is a hydraulic control valve cross-sectional view of the valve lower sleeve state of the present invention

Figure 6 is a sectional view of the valve side sleeve as a hydraulic control valve cross-sectional view of the present invention.

Figure 7 is a perspective view of the valve side of the present invention

<Code Description of Main Parts of Drawing>

100: chisel 210: cylinder

211: inflow passage 212: upper hydraulic chamber

213: lower hydraulic chamber 214: striking hydraulic line port

215: Drain port 216: Valve switching port

220: piston 230: control valve

240: compression chamber 250: valve side sleeve

260: valve side 261: valve switching jaw

264 groove 265: upper surface

270: valve plug 271: inner diameter

Hereinafter, the detailed configuration and operation of the present invention will be described with reference to the accompanying drawings.

4 is a cross-sectional view of a hydraulic breaker according to the configuration of the present invention, Figures 5 and 6 is an enlarged cross-sectional view showing an operating state of the control valve 230.

As shown in the drawings, the hydraulic breaker of the present invention includes a cylinder 210 provided with the hydraulic passage 210a and the upper and lower hydraulic chambers 212 and 213, and a plurality of stages to be built in the cylinder. Piston 220 having a jaw portion 221 is provided on the side of the cylinder, the control valve 230 for supplying / blocking hydraulic pressure to the hydraulic passage 210a and the hydraulic chamber 212, the upper end of the cylinder Compression chamber 240 is provided, which is similar to the conventional configuration.

In the present invention, after forming the valve chamber 210b on the hydraulic inlet flow passage 211 at one side of the cylinder 210, the valve valve sleeve 250 and the valve plug 270 embedded therein. And a valve side 260 to be reciprocated in the valve side sleeve, but the valve side sleeve 250, the valve plug 270, and the valve side 260 are improved.

In the present invention, the valve side sleeve 250 has an internal space in which the valve side 260 can be operated up and down, the bottom hydraulic pressure communicated from the bottom to the upper hydraulic chamber 212 of the cylinder 210 The line port 214, the drain port 215 of the interruption | operation, the valve switching port 216, and the buffer drain port 218 are formed in order.

In addition, the valve plug 270 is formed to serve as a guide as the inner diameter 271 to which the upper end of the outer diameter of the valve side 260 can be fitted.

In addition, the valve side 260 forms a round jaw so that the hydraulic pressure connected from the respective ports to the outer diameter, and the inner diameter is formed in a straight line without changing the cross section, the radial groove 264 on the top surface It is formed.

Referring to the operating state of the present invention configured as described above, as shown in Figure 4, when the pressure oil rises to the hydraulic inlet flow path 211 of the cylinder 210, the hydraulic pressure to the upper surface 265 of the valve valve 260 Since the valve valve 260 is operating, the valve valve 260 maintains the lowered state as shown in FIG.

While in this state, when the hydraulic oil is continuously supplied to the lower hydraulic chamber 213 of the cylinder 210 through the hydraulic inflow passage 211 and the piston 220 ascends, the valve completion port ( Pressure oil acts through 216, which acts on the valve switching jaw 261 to raise the valve side 260.

As shown in FIG. 6, when the valve side 260 is raised, the lower end of the valve side 260 opens the striking hydraulic line port 214, so that the pressure oil acts on the upper hydraulic chamber 212 of the cylinder 210. Therefore, the piston 220 is lowered to allow the chisel 100 to strike.

Subsequently, the pressure oil after the impact is partially discharged to the hydraulic discharge passage 219 through the drain port 215 of the suspension, and when some of the hydraulic pressure is discharged, it acts on the valve switching jaw 261 of the valve valve 260. Not only the hydraulic pressure is removed but also the pressure oil introduced into the inner diameter of the valve side 260 acts on the radial groove 264 formed on the upper end surface, the valve side 260 is lowered again to return to the original position, The above operation is repeated.

In operation of the valve valve 260 as described above, in the present invention, when the pressure oil rises through the central hole of the valve valve 260, it can operate flexibly without changing the cross-sectional area in the inner diameter of the valve valve 260. Since the inner diameter of the valve plug 270 is made to fit with the outer diameter of the upper end of the valve side 260, this part is to exhibit the guide function.

The hydraulic control valve of the present invention as described in detail above is designed to improve the valve sleeve and the valve plug so that the valve valve is easy to slide, and since the inner diameter of the valve valve is manufactured in a straight line without changing the cross-sectional area, unnecessary hydraulic resistance does not occur. This flexible, the valve valve and the valve plug has a number of advantages, such as productivity does not need to be processed conventional guide extensions and guide holes, so that the production cost can be reduced.

Claims (1)

After the valve chamber 210b is formed on the hydraulic inlet flow passage 211 at one side of the cylinder 210, the valve valve sleeve 250 and the valve plug 270 embedded therein are formed inside the valve valve sleeve. In the hydraulic control valve of the hydraulic breaker composed of the valve valve 260 to reciprocate, The valve side sleeve 250 has an internal space in which the valve side 260 can be moved up and down, but the hydraulic pressure line port communicating from the bottom to the upper hydraulic chamber 212 of the cylinder 210 214, the stop drain port 215, the valve switching port 216, the buffer drain port 218 in the order of The valve plug 270 is formed to serve as a guide by the inner diameter (271) that can be fitted to the upper end of the outer diameter of the valve side 260, The valve side 260 forms a round jaw so that the hydraulic pressure connected from each port to the outer diameter can act, the inner diameter is formed in a straight line without changing the cross section, and the radial grooves 264 are formed on the upper surface. Hydraulic control valve of a hydraulic breaker, characterized in that.