KR100885286B1 - Earth and sand removing device of auger for crane piercing machin - Google Patents

Abstract

A residue sediment removing apparatus of auger for crane piercing machine is provided to prevent soil from being sprayed to neighboring of construction site by removing effectively the soil through air. A residue sediment removing apparatus of auger for crane piercing machine includes air ejection device(14). The air ejection device comprises a hollow main body(17) of a ring shape containing an air line connection part(15) and a plurality of air outlets(16) and removes the soil remaining in a screw flight.

Description

Earth and sand removing device of auger for crane piercing machin}

The present invention relates to a device for removing residual soil in an auger for crane perforator, and more particularly, to an apparatus for removing residual soil remaining in an auger screw by air.

In general, modern buildings are increasingly high and large in size, and these high-rise buildings are largely affected by vertical load or wind power by their own weight.

Such a building is constructed as a structure supported by a support pile supported by the ground floor through the ground floor.

As such, the pile construction, which can be essential in the construction of high-rise buildings, is a shock type that directly hits the pile in the ground by hitting it with a driving machine, and drills the excavation hole by rotating an auger and then inside the excavation hole. There is a perforation of the stakes.

Impact pile construction is mainly applied to the construction of hard rock foundations, while perforated pile construction is mainly applied to the construction of soft foundations and is known to have the advantage of preventing the occurrence of noise.

As described above, perforated pile construction applied to the soft ground is drilled to the ground layer so that the support pile can be entered by performing underground excavation work as the auger mounted on the excavating equipment, and after drawing the auger from the drilled excavation hole. By installing the support pile in the excavation hole, it is possible to provide an advantage of preventing the generation of noise during the installation of the ready-made pile.

As described above, the auger is a device for drilling the ground, and is mainly used for civil works for installing piles on the ground by a crane drilling machine or the like.

For example, an auger screw of a crane drilling machine is a mechanism that drills a predetermined depth from the ground to the basement for the foundation work of a construction site. As much as perforated.

At this time, a large amount of soil generated during the ground drilling of the auger screw is withdrawn to the outside with the rotation of the screw, the auger screw rises upward and exits from the casing after the ground drilling.

When the auger screw is pulled out, residual earth and sand, which are not partially dropped, remain on the upper part of the screw wing, and the residual earth and sand at this time rises high on the screw wing and falls to the surroundings of the construction site by falling due to impact and wind. .

As a result, the surrounding residents and nearby buildings, which are drilled with auger screws, are blown with dirt or dust, increasing the incidence of neighboring residents, and in severe cases, there is a conflict of opinions between neighboring residents and workers at the construction site. There was a problem such as being.

In order to solve this problem, in recent years, work is done by putting a protective film around the construction site or spraying water, but when working with a protective film, it has not prevented the dust from scattering to nearby areas. If the work is carried out while spraying the water, the construction site becomes too messy and the additional water has to be supplied continuously, resulting in the inconvenience and waste of water.

Therefore, the present invention has been devised in view of such a point, and the earth and sand, etc. attached to the screw blade by adopting a method of blowing the earth and sand remaining in the auger screw at the time of drilling for the foundation work of the construction site by aerosol blow down. It is an object of the present invention to provide a residual earth and sand removal device of the auger for crane perforator that can maintain the cleanliness of the construction site as well as the construction site by not scattering around the construction site.

In order to achieve the above object, the residual earth and sand removal apparatus of the auger device for a crane drilling machine provided by the present invention is disposed around the auger screw and is installed at the upper end of the auger and connected to an airline extending from the outside to the screw blade of the auger screw. Characterized in that it comprises a form containing an air discharging means that can be blown down by remaining air to earth.

Here, the air discharging means preferably has a hollow ring-shaped body having a plurality of air discharging openings arranged at regular intervals along the inner circumference of the inner circumferential surface while having an airline connecting portion for air inflow on one side of the outer circumferential surface. .

Residual earth and sand removal device of the auger device provided in the present invention is installed around the auger screw at the time of drilling for the foundation work of the construction site, and effectively removes the earth and sand remaining on the screw blade, the earth and sand scattered around the construction site It can be prevented, and thus there is an advantage that can maintain the cleanliness of the construction site as well as the surrounding and nearby residential area.

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

1 is a perspective view showing an embodiment of the residual soil removal apparatus according to the present invention, Figure 2 is a perspective view showing another embodiment of the residual soil removal apparatus according to the present invention.

As shown in Fig. 1 and Fig. 2, the residual soil removal device is composed of air discharging means 14 installed on the upper end of the auger, for example, the upper end of the lower auger, and remains on the screw blades of the auger screw. It works by blowing the sand down into the air.

To this end, the air discharging means 14 is composed of a hollow ring-shaped body 17, a plurality of air discharge ports 16 are arranged at regular intervals along the inner circumference of the inner peripheral surface of the main body 17 For example, four air discharge ports 16 are formed at intervals of 90 °, and an air line connection part 15 connected to the air line 12 is formed at one side of the outer circumferential surface thereof.

Here, the ring-shaped main body 17 may be formed in the form that the cut portion is finished after some sections are cut in one intact ring shape.

Accordingly, when the air line 12 extending from the compressed air supply source such as the compressor is connected to the air line connecting portion 15 of the main body 17, and the compressed air is supplied to the inside of the main body 17 together with the compressor operation, At this time, as the compressed air is strongly injected through the air discharge port 16, the earth and sand remaining on the screw blades of the auger screw facing each air discharge port 16 side may be removed while being blown down by air. .

The air discharging means 14 may be used in the form of a single body consisting of only one body 17, and is preferably used in the form of one assembly in which the body 17 composed of several stages is combined.

For example, in a state where the upper and lower ends are blocked, several stage bodies 17 leading to a spiral structure are stacked and arranged side by side in a vertical line, and several stage bodies 17 are in communication with each other through a spiral inner passage. Can be used.

Of course, the air line connecting portion 15 for the air inlet is preferably provided only at the beginning of the body 17 at the bottom.

Accordingly, the air supplied through the air line connecting portion 15 of the lower main body 17 can send a spiral inner passage to the main body 17 of each stage, and the air thus sent is the main body 17 of each stage. As it is injected through the air discharge port 16 having, it is possible to remove the auger screw-side residual soil.

In the case of removing residual soil by combining the main bodies 17 in this manner, an air spray tunnel can be formed in a predetermined section, and thus the time for the auger screw to pass through the air spray tunnel becomes long. Residual soil removal efficiency can be improved.

3 is a front view showing an installation state of the residual soil removal apparatus according to the present invention.

As shown in FIG. 3, the residual soil removal device, that is, the air discharging means 14 surrounds the auger screw 10 composed of the screw rod 18 and the screw vanes 13 in the center and surrounds the periphery thereof. While being arranged in a concentric state of the shape is installed in a structure fastened by the bracket 19 on the auger 11 of the lower.

Accordingly, as shown in FIG. 4, the air injected toward the center from the air discharging means 14 is strongly transmitted to the auger screw 10 side, so that the sand and the like remaining on the screw blade 13 is easily formed. Can be removed.

Therefore, looking at the state of use of the residual soil removal device configured as described above are as follows.

5 is a schematic view showing a state of use of the residual soil removal apparatus according to the present invention.

As shown in FIG. 5, a lower auger includes a main body 17 having an air line connecting portion 15 connected to an air line 12 for supplying compressed air and an air discharge port 16 for ejecting compressed air. When the auger screw 10 is rotated for drilling of the ground in the state of being installed in the (11), the earth and sand generated during the drilling are upper part along the screw blades 13 of the auger screw 10. To be discharged.

When the auger screw 10 is lifted up and taken out after the ground drilling work is completed in this way, compressed air is supplied to the inside of the main body 17 through the air line 12 together with the operation of the compressor or the like. As air is strongly injected to the auger screw 10 side through the air discharge port 16, the residual earth and sand remaining on the screw blade 13 of the auger screw 10 falls off and is removed. As a result, problems such as disturbing the surroundings can be blocked at the source, and thus construction can be performed while maintaining cleanliness around the construction site as well as the surroundings.

1 is a perspective view showing an embodiment of the residual soil removal apparatus according to the present invention

Figure 2 is a perspective view showing another embodiment of the residual soil removal apparatus according to the present invention

Figure 3 is a front view showing the installation state of the residual soil removal device according to the present invention

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a schematic view showing a state of use of the residual soil removal apparatus according to the present invention

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

10: auger screw 11: auger

12 air line 13 screw wing

14 air discharge means 15 air line connection

16 air outlet 17 body

18: screw rod 19: bracket

Claims (3)

The air line 12 installed at the upper end of the auger 11 and extending from the outside while being disposed around the auger screw 10 is connected to the bottom of the auger screw 10 by blowing air from the soil remaining on the screw blades 13 of the auger screw 10. Including air discharge means 14 that can be dropped into, The air discharging means 14 has a hollow ring-shaped shape having a plurality of air discharging openings 16 arranged at regular intervals along the inner circumference of the inner circumferential surface and having an air line connecting portion 15 for air inflow on one side of the outer circumferential surface thereof. Residual soil removal device of the auger for crane perforator, characterized in that the main body (17). delete The method of claim 1, wherein the air discharging means 14 is residual soil removal apparatus of the auger device for a crane perforator, characterized in that formed in the form of a combination of the upper and lower laminated in multiple stages while communicating with each other.

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