KR101337974B1 - Complex Hammer air displacement volume controlled - Google Patents

Abstract

The present invention relates to an air hammer assembly having a structure of a hammer capable of discharging air into a case of a combination hammer and an air discharge control valve, wherein the compressed air supplied from the air compressor passes through an air distributor and combines a hammer case (40). Each of them is distributed and supplied to a plurality of air hammers installed therein, and the piston 9 inside each air hammer strikes the lower bit while reciprocating up and down, and the bit crushes various grounds. In this combination hammer,
The discharge air which operates and discharges the piston 9 of each air hammer is not discharged to the lower portion of the combined hammer case 40, but the air discharge hole 50 formed in the wear sleeve 1 of each air hammer. Through the discharged into the combination hammer case 40, a part of the air filled in the combination hammer case 40 is discharged to the ground through the air discharge passage of the drill rod in the combination hammer case 40, this discharge The discharge is controlled by means of a valve installed at the end of the outlet. In addition, a part of the air is discharged to the sludge discharge passage 20 through the check valve assembly 30. Air discharged in this way allows water and sludge (crushed rock) to be discharged to the ground through a drill rod through air lifting, and the present invention adjusts the air discharge amount from a combination hammer, and according to the air discharge amount, By adjusting, there is a remarkable effect that a smooth perforation can be achieved without consuming much water.

Description

Complex hammer air displacement volume controlled

The present invention relates to a combination hammer that can control the amount of discharged air that can reduce the foreign matter mixed in the discharged air by operating the air hammer and by adjusting a portion of the discharged air discharged by the air discharge control valve.

     The present invention has a closed circuit structure in which air is not discharged to the outside of the case of the combination hammer in the combination hammer that combines two or more DTH hammers to perform drilling of the ground, and the amount of air discharged through the case of the combination hammer is measured. By adjusting, the present invention relates to a combination hammer structure in which the flow rate required for air lifting for sludge discharge including crushed rock can be controlled.

In general, the hammer that excavates the ground gains the excavation force by using a fluid such as air or water, and also controls the operation of the hammer.

     For the conventional hammer structure, the Utility Model Registration No. 20-0429346 discloses that when the compressed air supported by the air compressor reaches the air hammer through the rotary head and the extension pipe, the piston inside the air hammer is moved up and down. Repeatedly hitting the beat, and the beat breaks through various grounds.

     The components of the air hammer used here can be divided into chucks, shells, pistons, compressed air distributors, and top subs.In the role of each part, the chucks are coupled to the underside of the shell and the air hammers and bits The outer shell surrounds the outer circumferential surface of the piston and facilitates the reciprocating movement of the piston. The compressed air distributor distributes the air for the piston to reciprocate. The top sub is coupled to the upper portion of the outer shell and compressed air to the air hammer. The technology that connects the extension pipe for supplying is disclosed.

     In addition, the Utility Model Registration No. 20-0273989, the air hammer is provided with an excavation bit is installed in the hollow portion of the cylindrical housing constituting the body portion, the lower end of the bit is a number of balls made of cemented carbide material The fixed tooth and the enlarged tooth assembled to extend outward are provided, and thus the bit installed in the hollow part is driven by vertically mounting the housing of the airhammer at the place for excavation. The fixed tooth and the enlarged tooth provided at the bottom of the head unit protrude toward the lower end of the housing), and while the enlarged tooth is enlarged outward by its own weight, the bit is rotated and sprays high pressure air pressure at the same time, so that Excavation of rock layers has been disclosed.

     On the other hand, in a combination hammer in which two or more hammers are combined, the air or water fluid flows into the inflow passage and reciprocates the piston in the hammer and then is discharged to the bottom of the hammer.

    In the conventional combination hammer in which two or more hammers of such a structure are combined, a large amount of air, including sludge (crushed rock), is generated by a large amount of air lifted by the entire amount of air discharged from the bottom of the combined hammer case after each hammer is operated. Will be discharged to the ground.

    Therefore, a large amount of water is required in the drilling process, which causes problems in land works with limited water resources.

Therefore, the present invention has been made to solve the above problems, by discharging the air discharged after operating the hammer through the case of the combination hammer, the discharge of the air discharged through the check valve assembly as a control valve It is to provide a combination hammer that can control the amount of discharged air to minimize the sludge containing the crushed rock discharged to the ground by controlling.

The present invention relates to an air hammer assembly having a structure of a hammer capable of discharging air into a case of a combination hammer and an air discharge control valve, wherein the compressed air supplied from the air compressor passes through an air distributor and combines a hammer case (40). Each of them is distributed and supplied to a plurality of air hammers installed therein, and the piston 9 inside each air hammer strikes the lower bit while reciprocating up and down, and the bit crushes various grounds. In this combination hammer,

     The discharge air which operates and discharges the piston 9 of each air hammer is not discharged to the lower portion of the combined hammer case 40, but the air discharge hole 50 formed in the wear sleeve 1 of each air hammer. Through the discharged into the combination hammer case 40, a part of the air filled in the combination hammer case 40 is discharged to the ground through the air discharge passage of the drill rod in the combination hammer case 40, this discharge The discharge is controlled by means of a valve installed at the end of the outlet. In addition, a part of the air is discharged to the sludge discharge passage 20 through the check valve assembly 30. Air discharged in this way is characterized in that water and sludge (crushed rock) to be discharged to the ground through the drill rod through Air Lifting.

Accordingly, the present invention has a remarkable effect of adjusting the amount of air discharged from the combination hammer, and achieving smooth drilling without consuming much water by adjusting the amount of sludge discharged according to the amount of air discharged.

1 is a schematic diagram of the operation of the combination hammer can control the present invention exhaust air amount
Figure 2 is a combination hammer installation diagram capable of adjusting the exhaust air amount of the present invention
Figure 3 is a perspective view of the combination hammer adjustable air discharge amount of the present invention
Figure 4 is a front view of the combination hammer adjustable air discharge amount of the present invention
5 is a perspective view of a combination hammer incision capable of adjusting the exhaust air volume of the present invention
Figure 6 is a partial hammer cutaway combination of the present invention can control the discharge air amount
Figure 7 is a cross-
8 is a perspective view of the present invention air hammer
9 is an exploded view of FIG. 8
10 is a cross-sectional schematic view of FIG. 8

According to the present invention, compressed air supplied from an air compressor is distributed and supplied to a plurality of air hammers installed in one assembly case 40 through an air distributor, and when the supply air reaches each of the air hammers, In the combination hammer in which the piston 9 inside the hammer strikes the lower bit while repeating the up and down movement, and the bit is combined with two or more air hammers in which excavation is performed to crush various grounds.

     The discharge air which operates and discharges the piston 9 of each air hammer is not discharged to the lower portion of the combined hammer case 40, but the air discharge hole 50 formed in the wear sleeve 1 of each air hammer. Characterized by the structure of the hammer discharged into the combination hammer case 40 through the, part of the air filled in the combination hammer case 40 through the air discharge passage of the drill rod in the combination hammer case 40 It is discharged to the ground, which is controlled by a valve installed at the end of the outlet. In addition, a part of the air is discharged to the sludge discharge passage 20 through the check valve assembly 30. Air discharged in this way is characterized in that water and sludge (crushed rock) to be discharged to the ground through the drill rod through Air Lifting.

     In addition, a check valve 30 is installed to prevent water from penetrating into the combination hammer case 40 from the combination hammer, and through this, some air passes through the sludge discharge passage 20 to achieve air lifting. Characterized in that it is discharged.

The present invention will be described in detail with reference to the accompanying drawings. 1 is a schematic view of the operation of the combination hammer can control the present invention exhaust air, Figure 2 is a combination hammer installation diagram of the present invention can adjust the discharge air, Figure 3 is a perspective view of the combination hammer capable of controlling the present invention exhaust air, Figure 4 is the present invention discharge Combination hammer front view of adjustable air volume, Figure 5 is a combination hammer incision perspective adjustable discharge air volume, combination hammer partial incision view capable of adjusting the exhaust air amount of the present invention, Figure 7 is a cross-sectional view of Figure 6, Figure 8 is an invention air hammer 9 is an exploded view of FIG. 8, and FIG. 10 is a cross-sectional schematic view of FIG. 8.

    The air hammer installed in the combination hammer capable of adjusting the discharge air volume of the present invention has a buffer ring 4 formed below the back head 2, a ring 3 formed below the buffer ring 4, and the ring 3 ) Air Distributor Body (5) is formed at the bottom, Tube (6) is formed at the bottom of Air Distributor Body (5), Piston (9) is installed at the bottom of Tube (6), and Ring (3) at the bottom. The piston bush 13 and the bit ring 14 are sequentially installed, and a bit is installed below the bit ring 14.

    On the other hand, according to the operation method of the air hammer of the present invention, in the initial state in which the piston 9 is at the bottom of the hammer, the horizontal hole formed in the upper portion of the wear sleeve 1 is not blocked, so that the supply air is the wear sleeve. It is discharged without resistance (Piston (9) operation) through the upper horizontal hole of (1).

Afterwards, when a person raises the piston 9 slightly by using a manpower or a mechanism, the supply air is supplied to the lower part of the piston so that the piston 9 rises rapidly. Is blocked, the lower air is discharged through the lower horizontal hole of the wear sleeve 1, the compressed air is supplied to the upper part of the piston again, the piston is rapidly lowered, and the bit mounted on the bottom of the air hammer of the present invention Will be excavated.

     And the operation of the check valve assembly 30 of the present invention is as follows.

The air discharged from the hammer through the operation of the hammer is filled in the combination hammer case, a part of the air is discharged to the atmosphere through the control of the air discharge passage of the drill rod and the valve installed on the ground. The air discharged into the atmosphere is controlled by the opening and closing of the valve.

     In addition, the remaining air is discharged to the ground through a drill rod such as sludge (crushed rock) while performing air lifting through the sludge discharge passage 20.

At this time, if air is continuously supplied after the air is discharged, water may flow into the combined hammer case, which may cause a problem. Therefore, the compression spring installed inside the check valve pushes up the check valve to prevent the inflow of water. prevent.

     The check valve of the check valve assembly 30 of the present invention is a check valve in which fluid can flow in only one direction, and has a cylindrical shape, and an air inlet 36 is formed on the cylindrical valve body 37. The air outlet 33 is connected to the sludge discharge passage 20 is formed on the side. And a conical ball 38 for opening and closing the flow path is installed in the lower air inlet 36, the compression coil spring 39 is installed below the ball 38, the discharge air drawn into the upper air inlet 36 When the pressure of the pressure is increased, the elastic force of the compression coil spring is overcome and the ball is pushed to the lower part of the valve body. Thus, the flow path blocked by the valve is opened, and the discharge air is discharged to the side through the air outlet 33 on the side.

And the reinforcing diaphragm is further formed between the upper and lower plates 41, 42 of the present invention, the check valve assembly 30 is installed on the upper surface of the reinforcing diaphragm.

     Accordingly, the present invention has a remarkable effect of adjusting the amount of air discharged from the combination hammer, and achieving smooth drilling without consuming much water by adjusting the amount of sludge discharged according to the amount of air discharged.

1: Wear sleeve 2: Back head
3: Ring 4: Buffer ring
5: Pipe 6: Valve Cap
9: Piston 10: Housing inner
13: Piston Bush 14: Bit Ring
20: sludge discharge passage 30: check valve assembly
41: upper plate 42: lower plate
33: air outlet 44: side plate
36: air inlet
37: valve body 38: check valve
39: compression coil spring 40: case
50: discharge air hole 60: drill rod
70: air exhaust pipe

Claims (3)

Compressed air supplied from the air compressor is distributed and supplied to a plurality of air hammers installed in one combination hammer case 40 via an air distributor, and when the supply air reaches the air hammer, respectively, In the combination hammer in which the piston 9 strikes the lower bit while the upper and lower repetitive action, and the bit is crushed the various ground,
The discharge air which is operated by the piston 9 of each air hammer and is discharged is not discharged to the lower part of the hammer, but is discharged to the discharge air hole 50 drilled in the air hammer wear sleeve 1, whereby the combined hammer case ( 40) is discharged to the inside,
Part of the air discharged into the combination hammer case 40 is discharged to the atmosphere through the air discharge passage of the drill rod, or discharged to the ground through the sludge discharge passage 20,
In addition, the check valve assembly 30 is installed at the tip of the sludge discharge passage 20 inside the case, and a combination capable of adjusting the amount of discharged air, characterized in that water is prevented from flowing back into the combined hammer case 40. hammer delete delete

Images