KR100937382B1 - Auger apparatus having a soil discharging device - Google Patents

Abstract

PURPOSE: An auger system with a soil barrier is provided to improve durability by blocking soil flowed through a gap between the inner surface of a rotary body and the outer surface of an inner casing. CONSTITUTION: An auger system with a soil barrier(100) comprises an auger(110), an outer casing(120), an inner casing(130), and a soil barrier device(200). The auger excavates the ground(G) by being inserted into the ground by an auger motor(112). The outer casing extended for covering the auger is connected to casing rotating motors(122a,122b) through a rotary body(140) and rotated in an opposite direction with the auger. The inner casing arranged inside of the rotary body for covering the auger guides soil(S) discharged by the auger to the upper side. The soil barrier device arranged in a gap between the inner surface of a rotary body and the outer surface of the inner casing blocks the soil flowed to the gap when the ground is excavated by the auger.

Description

AUGER APPARATUS HAVING A SOIL DISCHARGING DEVICE}

The present invention relates to an auger device for excavating the ground in order to construct a pile on the ground during the foundation construction of the building, and more particularly, when the soil is lifted up and discharged by the operation of the auger during the excavation of the ground, rotating the outer casing An auger device equipped with a soil screen to install a soil screen means in the gap between the rotating body and the inner casing to block the soil flowing through the gap and prevent damage to parts such as gears and bearings mounted therein. It is about.

In general, when constructing high-rise buildings or reinforced concrete structures, the foundation construction is carried out by embedding PHC piles or H-beams in the ground in order to solidify the foundation.

The conventional method used for such a foundation construction is an excavation construction method as shown in Figure 1a and 1b. The conventional auger device 1 used in such an excavation construction method has an auger 10 that is rotationally inserted into the ground, has an auger motor 12 for rotating the auger 10, and the auger 10 The outer side casing 20 is arrange | positioned coaxially at the outer side of the. Further, a plurality of casing rotary motors 22a and 22b for rotating the outer casing 20 are provided separately from the auger motor 12.

In the conventional auger 1 as described above, the screw-shaped auger 10 is rotated by the auger motor 12, and the outer casing 20 is rotated in the opposite direction to excavate the ground G. When the ground (G) is excavated in this way, the earth and sand (S) excavated from the ground (G) is raised along the auger 10 that rotates inside the outer casing 20, as shown in FIG. In this way, a part of the earth and sand (S) rising along the auger 10 is the inner casing 30 is disposed in a fixed state on the upper side of the auger 10, and the rotation for rotating the outer casing 20 There is a problem of penetrating into the gap t between the entirety 40.

That is, in the case of the conventional auger 1, the rotating body 40 for rotating the outer casing 20 has a cylindrical structure, the upper side of the driven pinion inside the body 50, which is a fixed body Gear 52 is connected, and the driven pinion gear 52 is connected to a plurality of drive pinion gears 55a and 55b respectively disposed on both sides of the body 50, and the plurality of drive pinion gears. The 55a and 55b are connected to the drive shafts of the casing rotary motors 22a and 22b to drive the rotating body 40 by the operation of the casing rotary motors 22a and 22b.

In addition, the conventional auger device 1 as described above has an inner casing 30 surrounding the auger 10 at the top of the auger 10 rotating in the center, which is the upper end of the body 50 which is the fixed body. As a structure fixed to this unit, it functions as a passage for guiding the earth and sand (S) raised by the rotating auger 10 to the upper side.

However, the conventional auger device 1 as described above is in the process of drilling and drilling the ground (G) in the opposite direction of the rotation of the auger 10 and the outer casing 20 enclosing it to lift up and discharge the earth and sand (S). Part of the earth and sand (S) is ground to the fine particles of fine particles to be introduced through the annular gap (t) formed between the inner casing 30 and the rotating body (40) occurred.

In this way, when the earth and sand (S) of the fine powder is introduced through the annular gap (t) formed between the inner casing 30 and the rotating body 40, it is continuously introduced into the body 50 of the fixed body It penetrates into the inner space of the body 50 in which the driven pinion gear 52 and the drive pinion gears 55a and 55b are located, and drives the driven pinion gear 52, the drive pinion gears 55a and 55b and the bearing 70. It wears back and hinders smooth rotation.

And the soil S introduced into the inner space of the body 50 as described above is penetrated into the motor along the drive shaft of the casing rotary motors 22a and 22b when the degree of inflow is severe, and the casing rotary motor 22a ( The problem of breaking 22b) occurred.

Therefore, in the related art, the body 50 of such auger device 1 is dismantled once every six months, and a maintenance process for replacing the consumed parts is required to lower the operation rate of the auger device 1, The maintenance cost was excessively consumed due to component damage.

The present invention is to solve the conventional problems as described above, the object is

When the soil is raised and discharged by the auger operation during the drilling of the ground, the gears and parts for rotating the outer casing are extruded to the outside by extruding the soil flowing in through the gap between the inner casing and the rotating body fixed to the body. The present invention provides an auger device equipped with an improved soil screen, which can completely block the inflow of soil into the installed interior space and prevent damage of the internal parts caused by the soil, thereby greatly improving the durability of the entire device.

In order to achieve the above object, the present invention is an auger for excavating the ground in order to construct a pile on the ground during the construction of the building, the auger is rotated by the auger motor is inserted into the ground and excavating the ground; An outer casing extending coaxially to enclose the auger, the outer casing being connected to the casing rotary motor through a rotating body and rotating; An inner casing disposed to enclose an auger inside the rotating body, the upper end being fixedly connected to a body which is a fixed body, and guiding the earth and sand discharged by the auger to an upper side; And an earthwork screening means disposed in a gap between an inner circumferential surface of the rotating body and an outer circumferential surface of an inner casing to prevent soil from entering the gap during ground excavation work by the auger. Provide the device. Therefore, in the present invention, when the earth is discharged and discharged by the operation of the auger at the time of drilling of the ground, it is possible to prevent soil contamination of the internal space equipped with the outer casing rotation gear, and prevent damage to parts to improve durability.

In addition, the present invention is preferably the earth screening means is made of a reverse screw that is fixed to the inner circumferential surface of the rotating body spirally rotated integrally with the rotating body while extruding the earth and sand flowing into the gap to the bottom. Therefore, when the soil is raised and discharged by auger operation during the drilling of the ground, the reverse screw that rotates together with the rotating body extrudes the soil which flows into the gap between the inner circumferential surface of the rotating body and the outer circumferential surface of the inner casing to the lower portion, Block it.

And the present invention is preferably the reverse screw is fixed to the inner circumferential surface of the rotating body in the opposite direction to the rotational direction of the rotating body, the thickness of the cross section corresponding to the gap between the inner circumferential surface of the rotating body and the outer circumferential surface of the inner casing is square It is a flat iron member. Therefore, since the reverse screw is made of a flat iron member that is easy to purchase the material, it is easy to manufacture, and the gap between the inner circumferential surface of the rotating body and the outer circumferential surface of the inner casing can be completely blocked to effectively block the inflow of soil in the gap therebetween.

In addition, the present invention preferably is the earth screening means is a reverse screw fixed in a spiral in the rotational direction of the rotating body to the outer peripheral surface of the inner casing, the rotating body is rotated around the circumference. Through such a structure, the reverse screw performs a function of a stopper to effectively block the inflow of earth and sand into the gap between the inner circumferential surface of the rotating body and the outer circumferential surface of the inner casing.

And the present invention is preferably the reverse screw is a flat iron member whose cross section is square, the thickness of which corresponds to the gap between the inner peripheral surface of the rotating body and the outer peripheral surface of the inner casing. Therefore, the reverse screw can be easily manufactured, and the gap between the inner circumferential surface of the rotating body and the outer circumferential surface of the inner casing can be completely blocked to effectively block the inflow of soil from the gap therebetween.

According to the present invention, when the soil is discharged and discharged during the drilling of the ground by the operation of the auger, it is possible to effectively block the inflow of soil through the soil screen means disposed in the gap between the inner peripheral surface of the rotating body and the outer peripheral surface of the inner casing. Therefore, an excellent effect can be obtained that does not contaminate the internal space of the body on which the gears for rotating the outer casing are disposed with soil, and prevents breakage of components, thereby greatly improving the durability of the entire apparatus.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

As shown in the partial enlarged view in FIG. 3, the auger device 100 having the soil screen according to the present invention is rotated by the auger motor 112 and inserted into the ground G, and the ground G is excavated. And an auger 110, which extends coaxially to enclose the auger 110, and is connected to the casing rotary motors 122a and 122b through the rotating body 140 and is connected to the auger 110. It has an outer casing 120 that rotates in the opposite direction.

In addition, the inside of the rotating body 140 is arranged to surround the auger 110, the upper end is fixed and connected to the body 150, which is a fixed body, the earth and sand (S) discharged by the auger 110 Inner casing 130 is guided to the upper side, such an inner casing 130 is made of a structure in which the upper end is integrally fixed to the body 150, which is a fixed body, the earth and sand raised by the rotating auger 110 It serves as a passage for guiding (S) to the upper side.

As described above, the driven pinion gear 152 and the drive pinion gears 155a and 155b are built in the body 150 to which the inner casing 130 is fixed.

In addition, the auger device 100 is provided with a soil screen according to the present invention is disposed in the gap (T) between the inner circumferential surface of the rotating body 140 and the outer circumferential surface of the inner casing 130, the ground by the auger 110 ( G) When the excavation work, and includes the soil screen means 200 for preventing the inflow of the soil (S) into the gap (T).

As shown in FIG. 4, the earth screening means 200 is helically fixed to the inner circumferential surface of the rotating body 140 and is introduced into the gap T while being integrally rotated together with the rotating body 140. It is made of a reverse screw 210 for extruding the earth and sand (S) to the bottom.

As shown in FIGS. 5A and 5B, the reverse screw 210 is formed of a flat iron member 212 having a square cross section. The reverse screw 210 of the flat iron member 212 is formed by the rotating body ( The inner peripheral surface of the rotating body 140 is fixed by welding or the like in the opposite direction to the rotational direction of the rotating body 140, and the thickness D thereof is a gap T between the inner peripheral surface of the rotating body 140 and the outer peripheral surface of the inner casing 130. Is a matching structure.

In this case, when the rotating body 140 rotates around the outer circumferential surface of the inner casing 130, the reverse screw 210 also rotates simultaneously with the rotation of the rotating body 140 while the inner casing 130 and the rotating body ( 140 and pushes the soil (S) flowing into the gap (T) to the bottom. That is, as shown in FIG. 4, the reverse screw 210 is fixed to the inner circumferential surface of the rotating body 140 in a helical direction opposite to the rotation direction of the rotating body 140, as shown in FIG. 4. As the 210 rotates, the earth and sand S flowing into the gap T between the inner circumferential surface of the rotating body 140 and the outer circumferential surface of the inner casing 130 is extruded downward to block the inflow of the earth and sand S.

In addition, since the material of the reverse screw 210 is made of a flat iron member 212 having a rectangular cross section, it is easy to purchase the material, and is easy to manufacture. As shown in FIG. 6A, the inside of the rotating body 140 It can be easily fixed by welding on the surface.

In addition, since the thickness D of the reverse screw 210 corresponds to the gap T between the inner circumferential surface of the rotating body 140 and the outer circumferential surface of the inner casing 130, the inner casing 130 is disposed on the inner circumferential surface of the rotating body 140. ) Is inserted and coupled, it is possible to completely block the gap (T) therebetween to completely block the inflow of soil (S) through the gap (T).

As described above, in the present invention, when the soil S is lifted up and discharged during the drilling of the ground G by the operation of the auger 110, the gap T between the inner circumferential surface of the rotating body 140 and the outer circumferential surface of the inner casing 130 is provided. Is disposed in, through the earth screening means 200 of the reverse screw 210 structure that is integrally rotated together in accordance with the rotation of the rotating body 140 can completely block the inflow of the soil (S).

Accordingly, the internal space of the body 150 including the driven pinion gear 152, the driving pinion gears 155a, 155b, the bearing 170, and the like, for rotating the outer casing 120 may be deposited. Durability can be greatly improved by preventing component damage without contaminating with S).

In addition, the present invention, as shown in Figure 6b, the earth screening means 200 is a reverse screw 220 is fixed in a spiral along the rotational direction of the rotating body 140 on the outer peripheral surface of the inner casing 130, It may have a structure in which the rotating body 140 rotates along its circumference. Through such a structure, the reverse screw 220 performs a function of a stopper to effectively block the inflow of the earth and sand S into the gap T between the inner circumferential surface of the rotating body 140 and the outer circumferential surface of the inner casing 130. have.

As described above, the reverse screw 220 fixed to the outer circumferential surface of the inner casing 130 has a thickness D corresponding to a gap T between the inner circumferential surface of the rotating body 140 and the outer circumferential surface of the inner casing 130. This square is made of a flat iron member 222.

Accordingly, when the reverse screw 220 is manufactured, the flat iron member 222, which is easy to purchase material, is wound around the outer circumferential surface of the inner casing 130 in a spiral manner and fixed by welding, so that the inner circumferential surface and the inner casing of the rotating body 140 ( The gap T between the outer circumferential surfaces of the 130 may be completely blocked.

As described above, in the present invention, when the soil S is lifted up and discharged during the drilling of the ground G by the operation of the auger 110, the gap T between the inner circumferential surface of the rotating body 140 and the outer circumferential surface of the inner casing 130 is provided. Through the structure of the stationary reverse screw 220 is disposed in the stopper to operate as a stopper can completely block the inflow of soil (S) (S). Accordingly, the internal space of the body 150 including the driven pinion gear 152, the driving pinion gears 155a, 155b, the bearing 170, and the like, for rotating the outer casing 120 may be deposited. It does not contaminate with S) and prevents damage to parts, which greatly improves durability.

Although the present invention has been described in detail with reference to the accompanying drawings, the present invention is not limited to such a specific structure. Those skilled in the art will be able to variously modify or change the embodiments of the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Nevertheless, it will be apparent that all such modifications or design modifications to such simple embodiments will clearly fall within the scope of the present invention.

Figure 1a is a front view showing the overall auger device according to the prior art.

Figure 1b is an enlarged front view of the main part of the auger device according to the prior art.

2 is a partially enlarged cross-sectional view illustrating a state in which soil is introduced between a rotating body and an inner casing and breaks main components in the auger device according to the related art.

3 is a partial cutaway cross-sectional view showing the auger device equipped with a soil screen according to the present invention.

Figure 4 is a partially enlarged cross-sectional view showing a structure in which the reverse screw to block the inflow of the earth and sand between the rotor and the inner casing in the auger device provided with a soil screen according to the present invention.

5 is a view showing in detail the reverse screw provided in the auger device provided with a soil screen according to the present invention, a) is a perspective view, b) is a side view.

Figure 6a is an exploded view showing a structure in which the reverse screw is fixed in the rotational direction of the rotating body on the inner peripheral surface of the rotating body in the auger device provided with a soil screen according to the present invention.

Figure 6b is an exploded view showing a structure in which the reverse screw is fixed in the rotational direction of the rotating body on the outer circumferential surface of the inner casing in the auger device provided with a soil screen according to the present invention.

<Description of Symbols for Major Parts of Drawings>

1 ...... Conventional Auger

10,110 ..... Auger

12,112 ..... Auger Motor

20,120 ..... outer casing

22a, 22b, 122a, 122b ... Casing Rotary Motor

30,130 ..... inner casing

40,140 ..... Rotating Body

50,150 ..... Bodybuilder

52,152 ..... driven pinion gear

55a, 55b, 155a, 155b .... Drive pinion gear

70,170 ..... Bearing

100 .... Auger with earth screen

200 ..... soil screening means

210,220 ..... screws

212,222 .... Flat iron member

D ..... Thickness of flat iron member G ..... Soil

S ... sediment t, T ... gap

Claims (5)

In the auger device for excavating the ground in order to construct a pile on the ground during the foundation construction of the building, Auger 110 is rotated by the auger motor 112 is inserted into the ground (G) and excavating the ground (G); An outer casing 120 extending coaxially to enclose the auger 110 and connected to the casing rotary motors 122a and 122b through a rotating body 140 to rotate; It is arranged to surround the auger 110 from the inside of the rotating body 140, the upper end is fixed and connected to the body 150, which is a fixed body, the top of the soil (S) discharged by the auger 110 Inner casing 130 to guide to the side; And It is disposed in the gap T between the inner circumferential surface of the rotating body 140 and the outer circumferential surface of the inner casing 130, and when the excavation work of the ground G by the auger 110 is carried out, Includes a soil shield means for preventing the inflow (200), The soil screening means 200 is fixed to the inner circumferential surface of the rotating body 140 is spirally rotated integrally with the rotating body 140 to extrude the soil (S) flowing into the gap (T) to the bottom. Auger device 100 having a soil screen, characterized in that consisting of a reverse screw (210). delete According to claim 1, The reverse screw 210 is fixed to the inner circumferential surface of the rotating body 140 in the opposite direction to the rotation direction of the rotating body 140, the thickness (D) of the rotating body 140 An auger device 100 having a soil cover, characterized in that the cross section corresponding to the gap T between the inner circumferential surface and the outer circumferential surface of the inner casing 130 is a flat iron member 212 having a rectangular shape. According to claim 1, wherein the earth screening means 200 is a reverse screw 220 is fixed to the outer circumferential surface of the inner casing 130 in a spiral along the rotational direction of the rotating body 140, the rotation around Auger device 100 is provided with a soil screen, characterized in that the entire 140 is rotated. The flat screw member of claim 4, wherein the reverse screw 220 has a rectangular cross section whose thickness D coincides with the gap T between the inner circumferential surface of the rotating body 140 and the outer circumferential surface of the inner casing 130. 212) auger device 100 is provided with a soil screen, characterized in that.

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