KR0135760Y1 - Hydraulic valve structure of hydraulic rock drill - Google Patents

Abstract

The present invention relates to a hydraulic valve structure of a hydraulic rock drill that is used when excavating a solid ground or when drilling or breaking a rock in civil engineering, and a blow tool (2) protruding the tip portion at the lower end of the rock drill body (1) and A piston (3) striking the striking tool (2), a high pressure flow passage (5) and a lower high pressure chamber (6) for actuating the hydraulic pressure flowing through the hydraulic inlet (4) to the piston lower large diameter portion (31), In the lower portion of the valve lowering switching chamber 10 and the inner upper portion of the rock drill body 1 through which the hydraulic pressure that raised the piston 3 is discharged to the hydraulic outlet 9 through the low pressure chamber 7 as the low pressure flow path 8. In the rock drilling machine in which the gas chamber 11 is provided, the valve chamber 12 is formed in the rock drill body 1 and is formed in the outer periphery of the piston 3, and is installed in the valve chamber 12. The high and low pressure switching chamber 16 which applies hydraulic pressure to the rising large diameter part 13a of the valve 13, The low pressure chamber 15 is connected to the low pressure passage 8 communicating with the valve chamber 12 to discharge the hydraulic pressure, and the upper high and low pressure through which the hydraulic pressure flows in and out through the valve chamber 12. And a valve switching passage 17 communicating with the switching chamber 16 and the valve lowering switching chamber 10 to apply hydraulic pressure to the lower large diameter portion 13b of the valve 13.

Description

Hydraulic Valve Structure of Hydraulic Rock Drill

1 is a cross-sectional view of a state before the piston of the present invention is raised.

2 is a cross-sectional view of the state before the piston of the present invention descends.

3 is a cross-sectional view of the prior art.

* Explanation of symbols for main parts of the drawings

1: rock drill body 2: blow tool

3: piston 4: hydraulic inlet

5: high pressure passage 6: lower high pressure chamber

7: low pressure chamber 8: low pressure flow path

9: hydraulic outlet 10: valve lower switching chamber

11 gas chamber 12 valve chamber

13: valve 14: high and low pressure switching chamber

15: Low pressure chamber at all times 16: Upper high pressure switch chamber

17: valve switching flow path

The present invention relates to a hydraulic valve structure of a hydraulic rock drill that is used when excavating hard ground in civil engineering, or when drilling or breaking a rock.

As shown in FIG. 3, the conventional hydraulic rock drill has a tip of the hammer tool 101 protruding from the lower end of the rock drill body 100, and a piston 102 for hitting the hammer tool 101 is formed therein. It is installed.

And the valve housing 103 for elevating the piston 102 is protruded to the outside of the rock drill body (100).

The valve housing 103 has a valve 104 for adjusting the flow of oil flowing in and out through the hydraulic inlet 111 and the hydraulic outlet 112, and a valve-side high pressure inlet chamber connected to the high pressure flow passage 113a ( 117 and the low pressure chamber 118 connected to the low pressure passage 115a and the valve switching chamber 119 connected to the valve down switching chamber 116 are formed, and at the end of the high pressure passage 113a, a large diameter portion of the lower piston portion is provided. In the lower high pressure chamber 113 for applying hydraulic pressure to the 102b, the low pressure chamber 115 is always formed at the end of the low pressure passage 115a, and the low pressure chamber 115 and the high and low pressure switching chamber 114 are always provided. The piston upper large diameter part 102a is formed in the flow path between ().

In addition, the body 100 is formed in the gas chamber 120 is configured to act to accelerate the descending speed of the piston 102 when the gas is compressed at the time of the piston 102 rises when the piston 102 is lowered.

However, since the valve housing 103 protrudes on the outside of the body 100 of the rock drill, the conventional construction configured as described above not only causes the volume of the rock drill itself to be uncomfortable, but also the valve housing 103 during operation. In the case of frequent contact with the valve housing 103, there was a problem that the valve housing 103 is frequently damaged, and since the valve housing 103 protrudes on one side of the body 100, the valve-side high pressure formed around the valve 104 is high. The flow path connecting the inflow chamber 117, the low pressure chamber 118, the valve switching chamber 119, and the like, the high pressure flow passage 113a, the low pressure flow passage 115a, and the high and low pressure switching chamber 114 is complicated and lengthened, and the hydraulic action is performed. There is a problem that the service life is shortened due to problems such as a decrease in efficiency and excessive heat generated due to a slow response.

The present invention has been made to solve various problems as in the prior art, and as a means for forming a valve formed in the body of the rock drill as a circumference of the piston without being configured to protrude outside the body, the volume of the body of the rock drill is reduced. The purpose of the present invention is to provide the required strength to the piston itself so that the diameter of the piston itself is not excessively reduced even when the valve is mounted on the body of the rock drill. Compared with this, the number of assembly parts can be reduced, which greatly improves the assembly performance, and the simultaneous failure is less, which is another purpose of improving work efficiency and significantly extending the service life of the rock drill itself.

The present invention as a means for achieving the above object, the impact tool protruding the tip portion on the lower end of the rock drill body and the piston hitting the impact tool, and the hydraulic pressure flowing through the hydraulic inlet to the large diameter of the piston lower portion In the high pressure flow path and the lower high pressure chamber, the valve lowering switching chamber which discharges the hydraulic pressure which raised the piston to the low pressure flow passage through the low pressure chamber to the hydraulic outlet, and the rock drill in which the gas chamber is provided in the upper part of the rock drill body. A valve chamber formed inside the rock drill body and formed on an outer circumference of the piston; A high and low pressure switching chamber for applying hydraulic pressure to a large diameter portion of the valve installed in the valve chamber; A low pressure chamber at all times connected to the low pressure passage communicating with the valve chamber to discharge hydraulic pressure; An upper high and low pressure switching chamber through which the hydraulic pressure flows in and out through the valve chamber; And a valve switching channel communicating with the valve lowering switching chamber to apply hydraulic pressure to the large diameter lowering part of the valve. It is characterized by having a.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of a state before the piston of the present invention ascends, and FIG. 2 is a cross-sectional view of a state before the piston of the present invention descends. Reference numeral 1 denotes a body of a rock drill, and the rock drill body 1 The lower end of the) is provided with a blow tool (2) protruding the tip, and a piston (3) for hitting the blow tool (2) by hydraulic action.

In the middle of the piston 3, a large piston lower diameter portion 31 and a piston upper diameter portion 32 are formed, and a valve 13 is installed above the piston upper diameter portion 32. .

The valve 13 is installed in the valve chamber 12 formed inside the rock drill body 1, and the rock drill body 1 is provided with a hydraulic inlet 4 and a hydraulic outlet 9, the hydraulic inlet ( 4) is configured to communicate with the high-pressure flow path 5 to apply hydraulic pressure to the high and low pressure switching chamber 14 of the valve chamber 12 and the lower end 31b of the piston lower large diameter portion 31 of the piston 3. To make it possible.

The low pressure passage 8 communicating with the hydraulic outlet 9 is configured to communicate with the low pressure chamber 15 of the valve chamber 12 at all times, and the high pressure passage 5 communicating with the hydraulic inlet 4 has a lower high pressure. It was configured to communicate with the chamber 6 and the valve lowering switching chamber 10.

In addition, the high pressure hydraulic pressure introduced into the valve lowering switching chamber 10 is introduced into the valve chamber 12 through the valve switching channel 17 to act on the large diameter portion 13b of the valve 13 to lower the valve 13. ) Can be lowered.

Referring to the operation of the present invention configured as described above are as follows.

FIG. 1 is a state in which the piston 3 descends to start the ascending operation after first striking the striking tool 2, and at this time, flows into the high pressure flow path 5 through the hydraulic inlet 4 and is converted into a high and low pressure switching chamber. In this case, the hydraulic pressure introduced into the high and low pressure switching chamber 14 acts on the rising diameter portion 13a of the valve 13 so that the valve 13 moves upward of the valve chamber 12. Will move.

When the valve 13 is moved upward as described above, the high and low pressure switching chamber 14 is closed by the valve 13 and the hole 13c formed in the valve 13 is always at the low pressure chamber 15 side. The hydraulic pressure flowing into the valve chamber 12 is always discharged to the hydraulic outlet 9 through the low pressure chamber 15.

In the state in which the high and low pressure switching chamber 14 is sealed as described above, the hydraulic pressure introduced into the high pressure flow passage 5 flows into the lower high pressure chamber 6 and acts on the lower end 31b of the piston lower large diameter portion 31 to thereby operate the piston. (3) is raised, the piston upper large diameter portion 32 of the raised piston (3) to move the hydraulic pressure in the upper high and low pressure switching chamber 16 to the valve chamber 12 side to the hole (13c) and always low pressure As the piston 15 is discharged to the hydraulic outlet 9 through the seal 15, the lifting operation of the piston 3 is performed.

When the piston 3 is raised to the top dead center by the above operation, the lower end 31b of the piston lower diameter portion 31 opens the valve lowering switching chamber 10 as shown in FIG. When the hydraulic pressure introduced into the lower high pressure chamber 6 through the high pressure flow passage 5 moves to the valve lowering switching chamber 10 to act on the valve chamber 12 through the valve switching flow passage 17. The hydraulic pressure flowing into the valve chamber 12 through the 17 acts on the lower large diameter portion 13b of the valve 13, so that the valve 13 starts lowering movement again.

That is, the hydraulic pressure flowing into and circulating in the valve switching passage 17 pushes down the lower diameter portion 13b formed at the upper end of the valve 13 moved upwardly of the valve chamber 12, so that the valve 13 is lowered. In this case, the hole 13c of the valve 13 is always out of the low pressure chamber 15 at the moment it moves under the valve chamber 12, and flows into the valve chamber 12 through the valve switching flow passage 17 and the valve. The hydraulic pressure which lowered (13) is in a state where the retreat is blocked and acts on the upper high and low pressure switching chamber 16 which communicates with the lower side of the valve chamber 12, and pushes the piston upper large diameter part 32, ) Is instantaneously lowered, and as the gas compressed in the gas chamber 11 expands and pushes the upper end of the piston 3, the piston 3 is accelerated and the impact force of the piston 3 is increased, so that the blow tool ( 2) will be hit hard.

When the piston 3 descends and hits the striking tool 2 as described above, the upward large diameter portion 13a of the valve 13 moves to the high and low pressure switching chamber 14, and the piston ( The lower end 31b of the piston lower large diameter part 31 of 3) is also moved to the lower high pressure chamber 6, and this state becomes a state in which the piston 3 is about to start a rising operation again. Ascending and descending operations are repeated repeatedly so that the impact tool 2 can carry out the excavation work.

The present invention as described above has installed the valve chamber and the valve to induce the piston up and down operation in the body of the rock drill has the effect of eliminating the phenomenon that the valve is in shock contact with the outside during the excavation work, and also the valve chamber rock drill body Each flow path of the hydraulic pressure can be formed short and simple to increase the response efficiency of the hydraulic pressure, and the volume of the rock drill itself is reduced, so that it is easy to handle and there is less trouble, so the service life is extended. It is a devised effect.

Claims (1)

The lower end of the rock drill body (1) and the piston (3) hitting the striking tool (2) protruding the tip and the hydraulic pressure flowing through the hydraulic inlet (4) lower piston large diameter portion (31) The high pressure passage (5) and the lower high pressure chamber (6) and the hydraulic pressure that raised the piston (3) acting as a low pressure passage (8) through the low pressure chamber (7) to the hydraulic outlet (9) In the rock-drilling machine in which the gas chamber 11 is provided in the valve lower switching chamber 10 and the upper part of the rock drill body 1, it is formed in the rock drill body 1, and formed in the outer periphery of the piston 3 A valve chamber 12 to be used; A high / low pressure switching chamber 16 for applying hydraulic pressure to the rising large diameter portion 13a of the valve 13 installed in the valve chamber 12; A low pressure chamber 15 connected to the low pressure passage 8 communicating with the valve chamber 12 to discharge hydraulic pressure; An upper high and low pressure switching chamber 16 through which the hydraulic pressure flows in and out through the valve chamber 12; And a valve switching channel 17 communicating with the valve lowering switching chamber 10 to apply hydraulic pressure to the lower large diameter part 13b of the valve 13; Hydraulic valve structure of a hydraulic rock drill, characterized in that provided with.