KR101527956B1 - Ground drilling equipment for front device and drilling method of using thereof - Google Patents

Abstract

The present invention relates to a tip device joined to the front end of an excavating device and excavating the ground by hitting a hammer bit and, more specifically, to a tip device for excavation improving a hitting effect by controlling the amount of high-pressure water or compressed air as occasion demands and thereafter supplying the same to a hammer bit. A guide cap is installed on the lower space of an excavation rod. A movable hole and a guide hole are formed on the guide cap. The tip device is joined to the lower side of the excavation rod while a ring valve is installed on the upper space of the top device. A valve rod is supported by a spring while being fitted into the guide hole of the guide cap and opens and closes an inlet of the ring valve while vertically moving. A connection unit is joined to the lower side of the tip device. A hammer holder on which the hammer bit is joined is joined to the connection unit. The compressed air or high-pressured water supplied to a pressing passage of the excavation rod passes through a gap between the valve rod and ring valve after passing through the movable hole of the guide cap and is delivered to the hammer bit through a movable hole of a hammer holder.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a ground drilling equipment,

The present invention relates to a drilling rig which is connected to a tip of a drilling rig and excavates a ground by hammer bit impact, and supplies high-pressure water or compressed air as a hammer bit by adjusting the capacity as required, To a drag tip apparatus.

The hammer device is connected to the end device of a perforator for ground excavation to form a perforation hole in the ground, and then a concrete pile is formed by injecting concrete or mortar while drilling a perforation hole to reinforce the ground, Or by high-pressure water to strike the ground while performing linear motion, thereby facilitating perforation.

As shown in FIG. 1, the end device includes a tip device 20 fitted with a hammer bit 30 at the tip of a drill rod 10, and the tip device 20 has a discharge hole 41 The valve holder 60 is inserted into the discharge hole 41 formed in the valve holder 40 so that the valve rod 60 which is resiliently biased by the spring 50 is inserted into the valve holder 40 And the compressed air or high-pressure water supplied through the pressure passage 11 of the excavation rod 10 can be supplied to the valve holder 40.

The water supplied through the pressure passage 11 is injected into the nozzle 15 to expand the perforation hole and the milk or mortar supplied through the fluid passage 12 of the excavation rod 10 is discharged through the discharge port 13, Thereby filling the hole that has been opened.

The high pressure compressed air supplied through the pressure passage 11 is applied to the upper side of the valve rod 60 as a pressure but the valve rod 60 is retained by the spring 50, When the pressure of the compressed air is a pressure that can not push the spring 50, the valve rod 60 does not come into close contact with the valve holder 40 as shown in FIG. 3 so that compressed air or high- When the spring 50 is pushed by the compressed air or high pressure water, the valve rod 60 is brought into close contact with the valve holder 40 as shown in FIG. 2, And is discharged through the nozzle 15 to the outside to expand the perforation hole.

This is because the low pressure which can not press the spring 50 causes the valve rod 60 to be supplied to the hammer bit 30 without being brought into close contact with the valve holder 40 so that the high pressure for pressing the spring 50 The valve rod 60 is brought into close contact with the valve holder 40 and supplied to the nozzle 15 so that the hammer bit 30 of the type shown in Figure 1 is supplied with compressed air at a pressure that can not compress the spring 50, And the hammer bit 30 can be increased in puncture speed and puncture efficiency by a high pressure blow as the high pressure is supplied. However, the hammer bit 30 is limited in heightening the pressure of the compressed air as described above , It is difficult to increase the puncture efficiency of the valve rod 60 and the distal end device 20 unless the valve rod 60 and the distal end device 20 are large enough to be supplied with high-pressure compressed air.

That is, the compressed air having a pressure not capable of squeezing the spring 50 is supplied to the hammer bit 30 through the clearance between the valve rod 60 and the valve holder 40, The compressed air having a pressure enough to squeeze the spring 50 can not flow through the valve rod 60 and the valve holder 40, The hammer bit 30 can not be hit and the nozzle 15 can be sprayed.

Accordingly, in order to increase the striking efficiency of the hammer bit 30, it is necessary to supply high-pressure compressed air or high-pressure water or extend the space where the compressed air is filled, but when the pressure is actually increased, ) Is blocked to block the supply of compressed air, so that it is difficult to increase the pressure. On the other hand, if the space to be filled with the compressed air is expanded, it is possible to increase the impact, but securing the space is difficult because it causes the expansion of the diameter.

If the hammer bit pressure can not be increased in this way, to solve the problem of long drilling time, the drilling machine is used to drill holes in the ground. Then, holes are drilled to drill holes and mortar or milk However, in this case, it is not easy to find the perforation hole as well as it takes a long time. In particular, in the case of the marine work, it is impossible to use the perforation hole because it can not be found. However, in this case, as described above, it is difficult to increase the pressure, and on the other hand, it is difficult to expand the space where the compressed air is filled.

Korea patent registration 10-1402288 (registered on May 26, 2014) Korea Patent Registration No. 10-1399384 (Registered on May 20, 2014) Korea Utility Model Registration 20-0445289 (2009.07.08 registered) Korea Utility Model Registration 20-0396390 (Registered on September 13, 2005)

The present invention relates to a hammer drilling apparatus for hammer drilling by supplying compressed air or high-pressure water to a hammer bit roll, wherein in the drilling apparatus for ground excavation, when the pressure of water or air supplied to the hammer bit from the end apparatus is increased, However, there is a problem that a separate device for supplying high pressure is required. When the space for filling the compressed air of the end device is widened, the hammer bit striking efficiency can be increased. However, in order to secure space in the end device It is to solve difficult problems.

In the present invention, a guide cap is provided in a lower space of the excavating rod, and a moving hole and a guide hole are formed in the guide cap, and a distal end device is coupled to a lower side of the excavating rod, A valve rod which is fitted in the guide hole of the guide cap and is mounted on the spring to open and close the inlet of the ring valve while being moved up and down, and a connection unit is coupled to the lower end of the tip unit, And the compressed air or high pressure water supplied to the pressurizing passage of the excavation rod passes between the rear valve rod and the ring valve through the moving hole of the guide cap and flows through the moving hole of the hammer holder to the hammer holder And the hammer holder is moved to the upper part when the hammer holder is pressed on the floor A hammer bit is sufficiently transmitted through the space between given to push the valve rod of the compressed air or high-pressure water-ring valve and the valve rod can be improved impact efficiency.

In the present invention, when the hammer bit located on the bottom surface for punching reaches the floor, the hammer holder to which the hammer bit is coupled is moved upward by spline engagement to press the spring to lift the valve rod, The valve rod compresses the ring valve by the pressure of the spring to block the space, thereby blocking the pressure transmission of the hammer bit and ejecting the milk through the nozzle or discharging the mortar through the discharge port.

In the present invention, when the compressed air is introduced through the pressure passage, the hammer bit is hit by the air hammer, and when the high pressure water is supplied, the water hammer is hit.

In addition, in the present invention, when hammer bits are not coupled to the tip apparatus, and when common bits are combined, the bit is detected to be pressed on the ground, and high pressure water or compressed air supplied from the tip apparatus is discharged.

In the present invention, the hammer bit positioned on the bottom surface for punching is brought into contact with the floor. When the hammer bit touches the floor and the hammer bit is pressed, the hammer holder coupled with the hammer bit moves upward by the spline coupling, A process in which the valve rod is lifted and a pressure is transmitted to the hammer bit when the valve rod is lifted to cause a hammer to be formed. In the above process, when the hammer bit is released from the floor, The valve rod is lowered to block the pressure transmission to the hammer bit, and at the same time, the milk is sprayed through the nozzle or the mortar is discharged through the discharge port.

When the hammer bit is brought into close contact with the paper surface, high-pressure water or compressed air is supplied to the hammer bit to hammer the paper, and when the hammer bit comes off the ground High pressure water or compressed air is not supplied to the hammer bit so that the hammer does not occur and high pressure water or compressed air is injected into the nozzle to discharge the mortar or milk together with the opening of the perforation hole, It is possible to control the supply of air to the hammer bit by controlling the supply of the high pressure water or the compressed air to the hammer bit in a large amount The pressure can be increased while the blowing speed is increased while the blowing efficiency It can be improved.

The present invention is based on whether or not the hammer bit is squeezed on the ground surface, regardless of whether the pressure of the high-pressure pump or the compressor supplying the high-pressure water or the compressed air is high or low. The hammer bit is supplied from the tip unit with compressed air or high-pressure water at a high pressure, so that the hitting efficiency can be increased.

1 shows a conventional end device explanatory diagram
2 is a cross-sectional view
3 is a cross-sectional view
4 is an enlarged cross-sectional view
5 is an exploded perspective view
6 is a sectional view showing a state in which high-pressure water or compressed air is supplied from the tip apparatus of the present invention
7 is a cross-sectional view of another embodiment of the present invention

The present invention is characterized in that a guide rod for causing a valve rod to compress a spring and moving it up and down is coupled to a lower space of a drilling rod through which a high pressure water or compressed air is discharged through a pressurizing passage, And a hammer holder coupled to the inside of the connection unit is moved up and down while being coupled to the connection unit, and a hammer bit is coupled to a lower side of the hammer holder, .

When the hammer bit is brought into close contact with the floor, the hammer holder moves upward to squeeze the spring to lift the valve rod. When the valve rod is lifted, the space between the valve rod and the ring valve is opened. Pressure water or compressed air flowing through the hammer bit is transferred to the hammer bit so that the hammer bit is rapidly and strongly hammerized. When the hammer bit is released from the ground, the valve rod is brought into close contact with the ring valve due to the elastic force of the spring, Pressure water or compressed air introduced through the pressurizing passage of the compressor is discharged through the nozzle without being transferred to the hammer bit.

The valve rod of the present invention is inserted into the guide hole of the guide cap and is moved up and down while being resiliently biased by the spring, and the guide cap moves high pressure water or compressed air through the moving hole formed on the outer side around the guide hole, The valve rod is brought into close contact with a ring valve that is fitted and fixed to the tip device, and the valve rod is pushed upward by the hammer holder in tight contact with the ring valve.

The hammer holder is connected to the connecting unit inserted in the end device. The hammer holder is connected to the connecting unit and the hammer holder, The holder causes spline overlapping.

In order to transfer high-pressure water or compressed air to the hammer bit regardless of the pressure of the high-pressure water or the compressed air supplied through the pressure passage, the hammer bit Depending on whether it is attached to the ground or not, high pressure water or compressed air is transmitted or blocked by the hammer bit.

The high pressure water or compressed air delivered to the hammer bit according to the present invention is delivered according to the presence or absence of the hammer bit regardless of the strength of the pressure. It is possible to supply the high pressure together with the accuracy of the operation, And thus hammer quality can be obtained.

Meanwhile, in the excavation method of the present invention, the hammer bit attached to the front end of the tip unit is closely contacted to the floor, and when the hammer bit is pressed against the floor and pressed, the hammer holder moves upward to press the spring, When the valve rod is lifted, the space between the valve rod and the ring valve is opened. Therefore, a process of transferring a large amount of high-pressure water or compressed air introduced through the pressure passage of the excavation rod to the hammer bit is performed When the hammer bit drops from the ground, the valve rod is brought into close contact with the ring valve by the elastic force of the spring. As a result, the high-pressure water or compressed air flowing through the pressurizing passage of the excavation rod is not transferred to the hammer bit, So that a large amount of the pressurizing material transferred to the hammer bit can be discharged. It is possible to supply to the geotyieoseo to solve the problem that the other hand can increase the amount to solve the problem to control the pressure of the spring, such as conventional, the quality of a hammer hammer bit will be written quickly and strongly.

The present invention will be described in detail with reference to the accompanying drawings.

In the present invention, a drilling hole is drilled in the ground, and milk or mortar is injected together with the hole to form a concrete column underground. The drilling rod 10 is a triple-tube type pipe injecting high pressure water, air, mortar, milk, The drilling rod 10 is provided with a nozzle 15 for spraying high-pressure water at a predetermined interval to expose the drilling rod 10, and the drilling rod 10 is connected to a plurality of drilling rods 10 .

The excavating rod 10 has a known structure and connects the hammer holder 120 which is moved up and down through the tip unit 20 and the connecting unit 110 to the lower side of the excavator rod 10, The hammer bit 30 is hammered to the lower side of the hammer bit 120.

That is, the present invention is characterized in that the hammer holder 120 is coupled to the distal end device 20 via the connecting unit 110 by coupling the distal end device 20 to the lower side of the excavator rod 10, Pressure water or compressed air delivered from the excavation rod 10 is transmitted to the hammer bit 30 only when the bottom is pressed by the hammer bit 30 by coupling the hammer bit 30 to the lower side of the hammer bit 30, Pressure water or compressed air is blocked from being transferred to the hammer bit 30, and at the same time, the discharge is made through the nozzle 15. In this case,

In the case of injecting milk in the present invention, the mortar injected through the fluid passage 12 can be injected by the high-pressure water or compressed air in the nozzle 15 as shown in FIG. 7, 4, the milk injected through the fluid passage 12 is discharged through the discharge port 11, while the high-pressure water or compressed air is discharged through the nozzle 15. [

The guide cap 130 is coupled to the upper end of the distal end device 20 while the distal end device 20 is coupled so that a space is formed below the excavation rod 10, A valve hole 150 is formed in the guide hole 131 and a radial movement hole 132 is formed outside the guide hole 131. A valve rod 150 fitted in the guide hole 131 is inserted into the spring 140, And is closely attached to the ring valve 160 fixed to the distal end device 20 at the lower side.

The valve rod 150 has a disk-shaped body for closely fitting the ring valve 160 on the upper side thereof. The rod formed on the upper portion of the valve rod 150 is inserted into the guide cap 130 and the rod protruding downward is pushed by the upper portion of the hammer holder 120. [

The spring 140 urges the valve rod 150 downward so that the body of the valve rod 150 is brought into close contact with the ring valve 160 so that high pressure water or compressed air The hammer holder 120 is prevented from being transmitted to the rear hammer bit 30 through the moving hole 132 of the guide cap 130 and the hammer holder 120 moves upward A space between the valve rod 150 and the ring valve 160 is formed so that high pressure water or air is delivered to the hammer bit 30.

That is, when the valve rod 150 is kept pressed by the spring 140, the valve rod 150 is sealed between the valve rod 150 and the ring valve 160, and the valve rod 150 presses the spring 140 to move upward The space between the valve rod 150 and the ring valve 160 opens so that high-pressure water or compressed air can be moved.

The connecting unit 110 is coupled to the lower end of the leading unit 20 of the present invention and the hammer holder 120 is inserted into the connecting unit 110. The connecting unit 110 and the hammer holder 120 are connected to the spline 123 to allow the hammer holder 120 to move up and down on the spline 123.

The hammer holder 120 is formed with the moving hole 121 and the stationary ring 125 is coupled to the hammer holder 120 so that the stationary ring 125 moves to the connecting unit 110 even if the hammer holder 120 moves downward due to its own weight So that it does not fall downward.

The known hammer bit 30 is coupled to the hammer holder 120 of the present invention and the hammer bit 30 is subjected to a vertical impact when water or compressed air of high pressure is supplied, .

1, the hammer quality of the hammer bit 30 or the discharge of the nozzle 15 is selected by adjusting the tension of the spring 50 by the pressure of the high-pressure water or the compressed air When the hammer bit 30 is brought into close contact with the floor for the purpose of hammer quality, high pressure water or compressed air is transferred to the hammer bit 30 to hammer the hammer bit 30, The hammer quality of the hammer bit 30 is stopped and injection through the nozzle 15 is performed.

The hammer holder 120 to which the hammer bit 30 is coupled in the state where the connecting unit 110 is fixed is installed in the sprue (not shown) The upper portion of the hammer holder 120 pushes up the valve rod 150 upward.

The valve rod 150 moves upward through the guide hole 131 of the guide cap 130 and presses the spring 140 so that the valve rod 150 moves upward from the upper surface of the ring valve 160 The high pressure water or the compressed air discharged from the excavating rod 10 is separated from the valve rod 150 through the moving hole 132 of the guide cap 130 because the space between the valve rod 150 and the ring valve 160 is formed separately, The hammer bit 30 is transferred to the hammer bit 30 through the moving hole 121 of the hammer holder 120 after passing through a space between the valve 150 and the ring valve 160. The hammer bit 30 is supplied with high- When the hammer bit 30 is supplied, the hammer bit 30 is made up and down.

Since the space between the valve rod 150 and the ring valve 160 is continuously opened during the perforation, the hammer material is prevented from being pinched by the hammer bit 30, Since the space between the valve rod 150 and the ring valve 160 is wide at this time, a large amount of compressed air can be delivered to the hammer bit 30 at a high pressure while being delivered at a high pressure As a result, the hammer quality can be increased as well as the hammer quality can be increased, thereby increasing the batting efficiency.

On the other hand, if the hammer bit 30 is slightly lifted after the punching operation, the hammer bit 30 does not touch the ground, so that the hammer holder 120 can not push the valve rod 150, Pressure water or compressed air is blocked from being transferred to the hammer bit 30 by the spring force of the spring 140, so that the high-pressure water or compressed air is supplied to the nozzle 15 In this case, when the mortar is used, the mortar introduced into the fluid passage 12 is discharged from the discharge port 11, and the milk is sprayed by the nozzle 15 to discharge the mortar. do.

Since the hammer holder 120 receives a downward force due to its own weight, the hammer holder 120 does not push the valve rod 150 while moving down the spline 123, but the hammer holder 120 120 are supported by the connection unit 110 so that the hammer holder 120 can not move below a predetermined position.

When the hammer bit 30 is pressed on the floor, the hammer bit 30 is hammed. When the hammer bit 30 is released from the floor, the hammer is stopped and the discharge from the nozzle 15 is stopped It is possible to increase the strength of the speed of the hammer material and to increase the tension of the spring 50 by the amount of compressed air or water The inconvenience of adjusting the pressure in proportion is eliminated.

The present invention is also applicable to a case where a hammer bit 30 is connected to a distal end device 20 so that even if a general drilling operation is used by connecting general bits without hammer work, Air will be vented and venting will be blocked if the bit leaves the ground.

In the excavation method of the present invention, the high pressure water or air is transferred to the hammer bit (30) by pressing the hammer bit (30) on the floor, the hammer bit (30) Pressure water or air is supplied to the hammer bit 30 according to whether the hammer bit 30 is compressed or not, So that it is possible to supply a large amount of high-pressure water or air, so that the hammer quality can be carried out strongly and quickly.

The hammer bit 30 is attached to the bottom of the top end device 20 and the hammer bit 30 is pressed against the bottom so that the hammer holder 120 moves upward The valve rod 150 is lifted by lifting the valve rod 150 by pressing the hammer bit 30 by the compression of the hammer bit 30, Pressure water or compressed air flowing through the pressurizing passage of the excavation rod 10 is transferred to the hammer bit 30 in a large amount. In this process, The valve rod 150 is brought into close contact with the ring valve 160 by the elastic force of the spring 140 so that the high pressure water or compressed air flowing through the pressure passage of the excavator rod 10 The nozzle is not transferred to the hammer bit 30 The present invention solves the problem of adjusting the pressure of the spring as in the prior art because it can supply a large amount of the pressurized material to be delivered to the hammer bit 30, The hammer quality of the hammer bit 30 can be quickly and strongly hit.

10: excavation rod 20: tip device
30: hammer bit 110: connection unit
120: hammer holder 121: moving hole
130: guide cap 140: spring
150: valve rod 160: ring valve

Claims (7)

The hammer holder 120 is vertically coupled to the connection unit 110 by coupling the distal end device 20 to the lower side of the drilling rod 10 and coupling the connection unit 110 to the lower side of the distal end device 20, And coupling the hammer bit 30 to the underside of the hammer holder 120,
The guide cap 130 is fixed to an upper side of the distal end device 20 and a valve rod 150 is installed on the lower side of the guide rod 140. The valve rod 150 is formed on the guide cap 130 The lower end of the valve rod 150 is brought into close contact with the upper portion of the ring valve 160 fixed to the inside of the distal end device 20, The hammer holder 120 is coupled with the hammer holder 120 to the inside of the coupling unit 110 coupled to the lower side so that the hammer holder 120 supports the fixing ring 125 to the connection unit 110, The holder 120 moves upward along the spline 123 when the hammer bit 30 coupled to the lower portion is brought into close contact with the ground surface and pushes the valve rod 150 to move the valve rod 150 between the valve rod 150 and the ring valve 160 Pressure water or compressed air discharged from the excavation rod 10 is introduced into the moving hole 132 of the guide cap 130, Is transmitted to the hammer bit (30) through the inside of the ring valve (160) and the moving hole (121) of the valve holder (120). delete The valve rod according to claim 1, wherein the valve rod (150) is brought into close contact with the ring valve (160) by the elastic force of the spring (140) to block high pressure water or compressed air, Wherein the valve rod (150) is moved upward while the spring (140) is pushed upward so that high pressure water or compressed air is transmitted to the hammer bit (30) while pressing the spring (140). delete delete delete delete

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