KR200437200Y1 - Under Ground Drill Machine - Google Patents

Abstract

The present invention is a well-known rotating machine, a feeder which is installed in the lower part of the rotor to inject water and air, a screw shaft which is installed in the lower part of the feeder and discharges the excavated soil or slime to the ground, and is installed at the bottom of the screw shaft It relates to an underground perforator comprising an air-operated downhammer to excavate the ground, more specifically, to form a hand from the center to the top of the bottom of the hemming body of the bottom of the downhammer, hemming body from the radial position from the water Water supply pipe is formed from the bottom of the water supply pipe so that any one of water, mortar, and concrete to be supplied to the supply body is discharged only through the point where the water and mortar or concrete intersect the hand and air ball from the bottom surface. It connects and installs the down hammer of the hammer, and the air supplied to the supply is the outer diameter of the water injection pipe. Hammer causes the air in the ball jilche discharged along.

Therefore, it is possible to stop the injection of water at the time of underground drilling, and discharge the slime and soil of the lower down hammer into the water injection pipe.After drilling, the down hammer and the screw shaft are removed from the perforated hole according to the purpose and through the water injection pipe. Since it can inject mortar, concrete, or cement for foundation compaction, it provides underground perforator that can solve the problem that the depth is reduced due to the cavitation by excavation soil in the process of removing down hammer and screw shaft from perforated hole. .

Description

Under Ground Drill Machine

1 is a view showing a conventional underground drilling facility.

Figure 2 is a view showing the structure of the supply and downhammer of the conventional underground perforator.

Figure 3 is a view showing the structure of the feeder and the downhammer of the underground perforator according to the present invention.

<Description of the symbols for the main parts of the drawings>

101: rotating machine 102: supply

103: screw shaft 104: down hammer

105: hemer sieve 106: handmade

107: air ball 108: water injection pipe

109: air flow path 110: hollow portion

111: water injection hole 112: branch pipe

The present invention is a well-known rotating machine, a feeder which is installed in the lower part of the rotor to inject water and air, a screw shaft which is installed in the lower part of the feeder and discharges the excavated soil or slime to the ground, and is installed at the bottom of the screw shaft It relates to an underground perforator including an air-operated downhammer to excavate the ground, in particular, stop the injection of water during underground drilling, and discharge the slime and soil of the lower downhammer to the water injection pipe, and after drilling, Depending on the purpose, the downhammer and screw shaft can be removed from the drilled hole and the mortar, concrete or cement for the foundation can be injected through the water injection pipe. Therefore, the excavated soil is removed in the process of removing the down hammer and screw shaft from the drilled hole. It relates to an underground perforator that can solve the problem of the depth decrease due to the sinking phenomenon.

As shown in FIG. 1, the underground boring machine is a device for drilling holes in the ground to a certain depth during construction of foundation pile construction or ground compaction construction of temporary construction on a solid ground such as a rock, a stone bed, or general land. A rotating part 1 for generating rotational force, a supply body 2 for supplying water and compressed air, a screw shaft 3 for discharging the excavated soil and slime to the ground, and substantially for digging rock or land. It is equipped with the downhammer 4 and all the usual equipment for driving these components.

The supply passage of the above-mentioned underground perforation air is provided with an air flow path 9 through which compressed air for driving the down hammer 4 is supplied to the down hammer. The down hammer (4) is applied as in Utility Model Registration No. 193-0009415. The water injection pipe 8 for supplying water to prevent overheating in the process of drilling the ground is installed to the bottom of the hemming body 5 of the down hammer 4.

Therefore, as shown in FIG. 2, the compressed air is driven into the air hole 7 at the bottom of the hammer body 5 after driving the down hammer 4, and the lower end of the water injection pipe 8 is hammered. By allowing the air passage 9 of the body 5 to be installed, the water supplied to the water injection pipe 8 is mixed with the compressed air in the air passage 9 and discharged into the air hole 7.

As a result, the water supplied to the water injection pipe 8 is mixed with compressed air in the air flow path 9 formed in the hemming body 5 and sprayed into the air hole 7 at the lower end of the hemming body 5, thereby generating at the time of drilling. While cooling the heat of the bit, it increases not only the wear resistance to the bit but also greatly reduces the dust generated during underground excavation and the noise generated during underground drilling. As it is discharged, the excavation speed can be doubled, and cement dough can be injected through the water injection passage, thereby preventing the depression of the hole.

However, the conventional underground perforator is a mixture of the compressed air and water supplied from the feeder in the hemming body (5) of the downhammer (8) in one spraying mortar, cement or concrete for the solidification in the perforated hole Since it is impossible to inject, the screw shaft 3 and the downhammer 4 are removed from the perforated hole, and then the concrete has to be poured.

In addition, as described above, in the process of removing the screw shaft 3 and the downhammer 4 from the perforated holes, the slime fractured into the perforated holes is recessed, thereby causing a problem in that the depth cannot be maintained accurately. .

The present invention devised to solve the above problems is to ground the ground and to inject concrete, mortar, cement milk and the like into the perforated hole without removing the screw shaft and down hammer after drilling the ground. The purpose is to provide underground perforation to allow the slime generated in the city to flow back through the water injection pipe to be discharged to the outside.

In the following, reference numerals of the rotor, the feeder, the screw shaft, the downhammer according to the present invention will be referred to the drawings and reference numerals shown in FIG.

The above object is a well-known rotor 1, a supply body 2 installed in the lower part of the rotor 1 to inject water and air, and earth and sludge installed in the lower part of the supply body 2 and excavated. In the underground perforator comprising a screw shaft (3) for discharging to the ground, and an air operated down hammer (4) installed in the lower end of the screw shaft (3) to excavate the ground, the hammer at the bottom of the down hammer (4) A plurality of air holes 107 are formed to form a hole 106 from the center to the top of the bottom of the body 105 and to be connected to the hole 106 of a certain height from the bottom of the hemming body 105 at a radial position from the hole 106. Water injection pipe 108 so that any one of the water, mortar, and concrete supplied to the supply body 2 passes through the intersection of the hand hole 106 and the air hole 107 to be discharged only to the hand hole 106 From the supply (2) to the hemming body (105) of the down hammer (4). , Compressed to be fed into the supply body (2) the air is achieved by an underground boring machine, characterized in that to be discharged to the air holes 107 of the hammer jilche 105 along the outer surface of a pitcher for the admission (108).

Here, the supply body 2 forms a hollow portion 110 so as not to interfere with the air flow passage 109 formed downward from the upper end of the supply body 2, and is supplied from the hollow portion 110. The branched flow path 111 is formed to branch the compressed air to be transported to the lower part of the feeder 2, and the hollow part 110 is connected to the water injection hole 112 having the outer diameter of the feeder 2. It is preferable to insert the installation, the upper end of the water injection pipe 108 is connected to the lower end of the branch pipe (112).

Hereinafter, the configuration and operation of the present invention with reference to the accompanying Figure 3 as follows.

First, the feed shaft 2 and the downhammer 4 shown in FIG. 3 should be shown with a screw shaft 3 as shown in FIG. 1 therebetween, but the screw shaft 3 is a well-known conventional technique. Since the compressed air and the water injection pipe 108 of the present invention are formed to the downhammer 4 through the feed body 2 and the screw shaft 3, the illustration of the specific configuration of the screw shaft 3 will be omitted.

As shown in FIG. 3, the air supply passage 109 is formed downward from the upper end of the supply body 2 so as to inject compressed air into the supply body 2, and the water injection pipe 108 is formed inside the supply body 2. Is built in.

Here, the water injection pipe 108 is molded into a 'T' branch pipe 112 so that the compressed air supplied to the air flow path 109 and the water of the water injection pipe 108 is not mixed with the inside of the supply body 2. It is installed in the hollow portion 110 formed in the space, the air flow path 109 is penetrated through the hollow portion 110 to supply compressed air to the hollow portion 110 and at the bottom of the hollow portion 110 It is discharged to the lower part of the supply body 2 through the plurality of branch flow paths 111 formed.

Here, in FIG. 3, the branch pipe 112 according to the present invention is illustrated as 'T', but the branch pipe 112 of the present invention may be formed as a letter 'A', and is not limited thereto.

However, the branch pipe 112 should be made of a structure that does not interfere or mix with the compressed air supplied from the supply (2).

In addition, the compressed air discharged to the lower portion of the supply body 2 through the branch flow passage 111 is formed at the bottom of the down hammer 4 through the air flow passage 109 formed in the screw shaft 3 and the down hammer 4. It is injected and discharged into the air hole 107 via the air passage 109 of the hemmed body 105 combined.

The air hole 107 is formed so as to penetrate through the air flow path 109 formed from the center of the hemming body 105 to a predetermined position below the hemming body 105 in the radial position, wherein the branch pipe 112 The water injection pipe 108 coupled to the lower end is inserted into the air passage 109 formed in the lower part of the feed body 2, the screw shaft 3, and the down hammer 4, and the hemming member 105 of the down hammer 4 It is connected to the hand 106 formed in the center of the bottom.

Thus, as shown in FIG. 3, the water injection pipe 108 is inserted into the air flow passage 109 and is connected to the hemming body 105, and passes through a branch branched from the air flow passage 109 to the water hole 106. Connect to the top of the handmade 106.

At this time, since the compressed air injected into the water 106 is supplied along the outer diameter surface of the water injection pipe 108 as in the conventional underground drilling machine, water, mortar, concrete, cement milk supplied through the water injection pipe 108 The liquid and the like are not mixed with the compressed air, and can be supplied and sprayed without interfering with each other.

Therefore, the bit (not shown to be protruded at the bottom of the hammerhead) can be easily cooled when the ground is excavated by the water supplied through the water injection pipe 108, and the compressed air supplied is supplied to the supply body 2 Ground boring by being injected into the air hole 107 via the air flow passage 109 of the air passage 109, the branch flow passage 111, the air flow passage 109 of the screw shaft 3, and the air flow passage 109 of the downhammer 4. This will be possible.

As described above, when drilling the ground by the underground drilling machine according to the present invention, if the injection of water through the water injection pipe 108 in some cases, compressed air is injected through the air hole 107 and at the same time by the bit The slime generated by the excavation is flowed back through the hand 106 and the water injection pipe 108 together with the high-pressure compressed air injected into the air hole 107, so that the slime, the earth and sand are grounded through the water injection pipe 108. Can be discharged.

In addition, after drilling the hole to the desired depth by using the underground drilling machine according to the present invention, if you want to pour concrete for ground compaction in the hole, do not remove the screw shaft (3) and the down hammer (4) from the hole When the supply of compressed air is stopped and the mortar or concrete is raised through the water injection pipe 108 and the mortar or concrete is raised, the mortar or concrete for ground firming in the drilled hole Since the screw shaft 3 and the downhammer 4 are removed while being poured (filled), it is possible to prevent the phenomena generated while removing the screw shaft 3 and the downhammer 4.

In particular, since concrete can be poured while removing the screw shaft 3 and the downhammer 4, as described above, after removing the screw shaft 3 and the downhammer 4, the mortar for firming the ground is removed. Construction time can be shortened.

As described above, the present invention,
First, during drilling, water is selectively injected into the water injection pipe according to the type of ground. When compressed air is injected into the air hole of the bit, the compressed air flows back into the manual and water injection pipe together with soil and slime to play an airlift role. It allows the slime discharge to be made through the screw shaft and the water injection pipe in double, and removes the screw shaft and down hammer by pouring mortar and concrete for ground firming through the water injection pipe while removing the down hammer after drilling. It has the effect of preventing the phenomena occurring during the operation.
Second, the screw-type air hammer discharged slime through the screw blades and the outer diameter, was forced to carry the slime after loading the slime on the trailer of the dump truck using a separate excavator, but the air hammer according to the present invention is injected hole Since the slime is discharged through the slime, it can be transported after loading the slime directly onto the trailer of the dump truck, which reduces the construction cost and the slime transport cost, and also simplifies the operation, and shortens the air. To provide the effect.

Claims (2)

Known rotators, a feeder installed in the lower part of the rotator to inject water and air, a screw shaft installed in the lower part of the feeder to discharge excavated soil or slime to the ground, and a screw shaft provided at the bottom of the rig to excavate the ground In an underground drill comprising an air operated downhammer, Water, mortar, and concrete supplied to the feeder are formed by forming a plurality of air holes from the bottom of the hemming body bottom to the top of the hemming body at the bottom of the downhammer, and forming a plurality of air balls from the bottom of the hemming body to the water of a certain height from the bottom of the hemming body The water injection pipe is connected from the supply body to the hemming body of the down-hammer so that any one passes through the intersection point of the air and air holes, and the air supplied to the supply is hammered along the outer diameter surface of the water injection pipe. Underground drill, characterized in that to be discharged into the air ball. The method of claim 1, The feeder, A hollow part is formed so as not to interfere with an air flow path formed downward from an upper end of the supply body, and a branch flow path is formed so that the air supplied from the hollow part branches and is transferred to the lower part of the supply body. Inserting and installing the branch pipe to be connected to the water injection hole of the underground boring machine characterized in that the upper end of the water injection pipe is connected to the bottom of the branch pipe.

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