KR20150070807A - Auger tail and apparatus for construction of compound cross-section foundation structure - Google Patents

Abstract

The present invention relates to an auger tail. According to the present invention, the auger tail comprises: a rod (10) having a hollow part (12); a plurality of rotary vanes (20) arranged on the outer circumference of the rod (10) at intervals in a longitudinal direction; and a head (30) which is joined to the front end of the rod (10), is formed with an outlet (32), and has a plurality of bit parts (34). A soil flow hole (22) is formed on each rotary vane (20), wherein the soil flow hole allows soil to flow in a vertical direction when the rotary vanes (20) rotate. Therefore, the auger tail forms a solid and stable foundation by sufficiently stirring soil and filler in the ground in vertical and horizontal directions to harden them.

Description

TECHNICAL FIELD [0001] The present invention relates to an Auger tail and a construction apparatus for a composite cross-

The present invention relates to an augertail and an apparatus for constructing a composite cross-section basic structure including the same, and more particularly, to an augertail capable of stirring and grouting of a ground and a construction apparatus for a composite cross-

Generally, when construction of a building is carried out, foundation work (foundation work) precedes. Basic construction is the construction of foundation structure to support the weight of structure and various loads acting on the structure in a stable manner.

The ground is supported by different depths (supporting layer such as soft layer and rock layer) depending on the depth. In the ground where the bearing capacity is weak like the soft layer, the supporting force is secured by forming a base having a different sectional area size like a cross section base. The cross section foundation has improved stability and workability of the foundation by varying the sectional area of the bulb portion and the tail portion according to the hardness of the ground.

A double auger device is used in combination with a different type of auger at the time of construction of the composite section foundation, and each auger is connected to the apparatus for constructing a cross section basic structure, and the filler is injected while being rotationally penetrated to the ground, The foundation is formed by agitating the soil and the filler, wherein the filler is a mixture of solidifying agent, water and cement.

However, in the conventional auger, the means for agitating the ground is insufficient, so that the soil and the filler can not be sufficiently agitated in the ground, so that a base in a homogeneous state can not be formed.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an apparatus for constructing an auger tail and a composite section foundation structure capable of smoothly stirring soil and filler .

According to an aspect of the present invention, there is provided an augertail comprising: a rod having a hollow portion; A plurality of rotating blades spaced from each other in the longitudinal direction on the outer circumferential surface of the rod, and a head coupled to a front end of the rod and having a discharge hole and having a plurality of bit portions, And the earth moving hole is moved upward and downward when the rotary blade rotates.

The apparatus for constructing a composite section foundation structure according to the present invention comprises an auger according to the present invention; And a bulb auger which is composed of a cylindrical casing and a plurality of stirring blades coupled to an outer circumferential surface of the casing, the bulb auger being disposed on the same axis of rotation as the augertail.

The apparatus for constructing an augertail and a composite section foundation structure according to the present invention may be provided with an earth moving hole to smoothly move and agitate soil and filler in the ground when the auger tail is lifted and lowered. Accordingly, it is possible to form a base in a homogeneous state, to prevent cracks and the like of the foundation, and to secure strength.

Also, it is possible to reuse the auger tail and the bulge auger, thereby reducing the air and the construction cost.

1 is an exploded perspective view showing an augertail according to the present invention;
2 is a front view showing an augertail according to the present invention.
3 is a bottom view of a head of an augert according to the present invention;
4 is a front view showing a construction apparatus for a composite section foundation structure according to the present invention;
FIG. 5 is a front view showing a foundation constructed by using the apparatus for constructing a composite section foundation structure according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for constructing an augertail and a composite section foundation structure according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view showing an augertail according to the present invention, and FIG. 2 is a front view showing an augertail according to the present invention.

The augert according to the present invention comprises a rod (10); A rotary vane 20 coupled to the rod 10; And a head (30) coupled to the rod (10).

According to the present invention, the augertail according to the present invention rotates and penetrates into the ground, injects the filler, is lifted and rotated in the longitudinal direction, agitates the earth and the filler, and forms a foundation pile.

The rod 10 serves as a support for the augertail according to the present invention, and is made of a material having high strength, such as steel, and is rotationally penetrated into the ground. A rotary blade 20 is coupled to an outer circumferential surface of the rod 10, a head 30 is coupled to a lower end thereof, and an upper end of the rod 30 is connected to and driven by a cross-sectional basic structure constructing apparatus.

The rod 10 is in the form of a circular pipe which is opened at its both ends and can minimize the frictional resistance during rotation, and the hollow portion 12 is formed therein to enable movement of the filler.

A connecting hole 14 is formed in the upper end of the rod 10 and a fastening hole 15 is formed in the outer circumferential surface of the rod 10. A fastening hole 16 for fastening the pin is formed at the lower end of the rod 10, 10 by a pin. Accordingly, a plurality of rods 10 can be connected and used according to the depth of the design basis. The diameter, length, shape, and material of the rod 10 can be appropriately changed according to the design load or target depth of the installation area.

The rotary vane 20 is coupled to the outer peripheral surface of the rod 10 and interlocked with the rod 10. As the rod 10 is rotationally inserted, the rotary vane 20 is rotated, and the scale of the foundation is changed according to the rotation radius of the rotary vane 20. The width of the rotary vane 20 is adjusted according to the required supporting force.

The rotary vane 20 may be formed in a circular plate shape, and may be formed in a spiral shape. When the rotary vane 20 is formed in a spiral shape, the soil gravel in the ground is moved up and down along the spiral-shaped rotary vane 20, so that the ground 10 is easily penetrated into the ground, and the overall agitation efficiency of the gravel is enhanced.

In the rod 10, a plurality of rotary blades 20 are disposed apart from each other. This is for forming a stirring region between the plurality of rotating blades 20. [ For example, as shown in FIG. 2, when the soil is moved along the rotary vane 20, the gravels are filled between the plurality of rotary vanes 20, and between the rotary vanes 20, 40 are formed so that the stirring in the lateral direction is performed in accordance with the rotational motion of the auger tail.

And agitation in the longitudinal direction can be carried out through the earth moving hole 22. The earth moving hole (22) is provided in each of the plurality of rotating blades (20). The agitail according to the present invention agitates the ground by moving up and down in the longitudinal direction at the same time as the rotation. At this time, the gravel between the plurality of rotary vanes 20 flows upward and downward through the earth moving hole 22, Lt; / RTI > Also, the soil-moving holes 22 are formed at different positions in each of the plurality of rotary blades 20 as in a zigzag shape, so that the gravels can flow upward and downward from the four sides of the rotary blades 20, thereby enhancing the stirring efficiency. When the soil-moving hole 22 is formed linearly on the plurality of rotating blades 20 along the longitudinal direction of the rod 10, the soil and the filling material can be moved downward by gravity without being stirred, So that the soil and the filler are moved after being sufficiently agitated. Thus, the soil and the filler material can freely flow in the longitudinal direction between the plurality of rotary vanes 20, so that more smooth stirring can be performed.

Also, the earth moving hole 22 may be formed in an arc shape on the rim of the rotary vane 20. This is to ensure the size of the earth moving hole 22 and to facilitate the production. For example, when the earth moving hole 22 is formed inside the rotary vane 20, a large part of the rotary vane 20 must be drilled to secure the size of the earth moving hole 22 by the arc shape. When the inside of the rotary vane 20 is pierced, the soil and the filler can not smoothly move along the rotary vane 20, so that the efficiency of penetration, stirring, and the like is lowered, and the coupling force between the rod 10 and the rotary vane 20 is deteriorated And a piercing operation for forming the earth moving hole 22 is added, and air and construction cost are required. Therefore, by forming an arc-shaped soil-moving hole 22 at the rim of the rotary vane 20, the overall efficiency can be increased.

3, the head 30 includes a discharge hole 32, a body 33, a body 33, and the like. The discharge hole 32, the body 33, and the body 33 are formed at the upper end of the head 30, A wing portion 33a coupled to the outer circumferential surface of the wing portion 33a and a plurality of bit portions 34 coupled to the lower end of the wing portion 33a.

The body portion 33 is communicated with the rod 10 to form a receiving portion (not shown) capable of receiving the filling material therein and injects the filling material through the discharge hole 32 formed at the lower end thereof. The reason why the discharge hole 32 is formed at the lower end is to discharge the filling material efficiently by using the pressure acting on the lower end of the rod 10.

The wing portion (33a) has a plurality of bit portions (34) at its lower end to facilitate ground penetration by crushing the ground. The ground ground by the bit portion 34 is stirred while being moved along the wing portion 33a.

The sharpening claw 35 having a sharp shape is provided at the tip of the bit portion 34 to facilitate the crushing of the ground. The excavation claw 35 is detachably coupled to the bit portion 34 to facilitate maintenance.

The augert according to the present invention may further include a stirring vane 40 disposed between the plurality of rotary vanes 20 and coupled to the outer circumferential surface of the rod 10.

The stirring vane (40) is interlocked with the rotation of the rod (10) and serves to stir the soil and the filler in the ground.

The stirring wing 40 is composed of a plate 42 radially coupled to the outer circumferential surface of the rod 10 and a rib 44 vertically coupled to one surface of the plate 42.

The plate 42 is coupled vertically to the rod 10 along the longitudinal direction of the rod 10 to perform lateral stirring of the soil and the filler as the rod 10 is rotated.

The ribs 44 are formed so as to be inclined as they are farther from the engaging portion between the rod 10 and the plate 42 to prevent buckling of the plate 42. When the rod 10 is rotated, the earth pressure acts on the plate 42 in the vertical direction. At this time, the ribs 44 are coupled to one surface of the plate 42 and serve to crush the gravel and the like that have gathered at the front surface of the plate 42. Accordingly, the load acting on the plate 42 is reduced, and stirring can be performed more efficiently.

The use state of the augertail described above will be briefly described with reference to FIGS. 4 and 5. FIG.

The bulb auger 200 is coupled to the upper part of the augertail 100 according to the present invention to constitute a construction apparatus for a complex cross-section foundation structure (hereinafter referred to as a construction apparatus). The bulb auger 200 includes a casing 210, a vane 220 radially coupled to an outer circumferential surface of the casing 210, and a bit 230 coupled to a tip of the vane 220, And a bulb portion B is formed above the tail portion of the pile formed by the auger tail 100.

The casing 210 is formed in the form of a cylindrical pipe and is formed with a soil discharge hole 212. The flange 214 is formed at an upper end of the casing 210 and is bolted to the connection casing 300 of the construction apparatus. And is rotated.

The wing 220 is radially coupled to the outer circumferential surface of the casing 210 to stir the filler with the earth gravel. When the length of the vanes 220 is shortened from the upper part of the casing 210 to the lower part, the upper part of the foundation pile may be formed into a truncated cone shape. By thus extending the upper portion of the foundation pile and securing the support region on the bottom surface of the paper, the structure can be more stably supported.

In the construction process of the augertail 100 and the bulb auger 200 according to the present invention, the auger tail 100 and the bulb auger 200 are mounted on a construction apparatus, The bulb auger 200 is independently operated by the two driving units in the construction apparatus). The augertail 100 is rotated while being vertically moved in the longitudinal direction when injected, and continuously injects the filler to the target depth through the discharge hole 32, or injects water near the ground, Spray filler material to prevent intrusion of floating soil. More specifically, as the auger tail 100 is lifted up and down in the longitudinal direction up to the target depth, the soil is moved through the soil transfer hole 22 to agitate the gravel in the longitudinal direction, . At this time, the soil and the filler are combined to form a clay-shaped clay, which flows into the bulb auger 200. Such clay is discharged through the clayey discharge hole 212 and is agitated again by the stirring vane 220, Can form the basis of one state. Such structure prevents the clay mass or the like from being solidified in the casing 210 and the connection casing 300, thereby facilitating the maintenance of the casing 210 and the connection casing 300.

As described above, the augertail 100 and the bulb auger 200 according to the present invention are rotated and drawn again after reaching the target depth by the construction apparatus, and the augertail 100 forms a columnar base portion A And the bulb auger 200 forms a frustum-shaped bulb portion B and is cured together to form a composite base. By forming the bases having different sectional areas according to the grounding force of the ground like this, it is possible to form a more solid and stable foundation.

10: rod 12: hollow
20: rotating blade 22: earth moving hole
30: head 32: discharge hole
33: body portion 33a: wing portion
34: bit unit 40: stirring wing
42: plate 44: rib
200: bulb auger 210: casing
212: soil discharge hole 220: stirring blade

Claims (8)

A rod 10 having a hollow portion 12 formed therein;
A plurality of rotary vanes 20 spaced along the longitudinal direction on the outer circumferential surface of the rod 10,
A head 30 coupled to a tip of the rod 10 and having a discharge hole 32 and a plurality of bit portions 34,
Wherein each of the plurality of rotating blades (20) is provided with a slurry movement hole (22) for moving the slurry when the rotating blades (20) are rotated up and down.
The method according to claim 1,
Wherein the earth moving holes (22) are formed at different positions in each of the plurality of rotating blades (20).
The method according to claim 1,
Wherein the earth moving hole (22) is formed in an arc shape at the rim of the plurality of rotating blades (20).
The method according to claim 1,
The head (30) has a body (33) communicating with the rod (10) and having the discharge hole (32) formed at its lower end;
A wing 33a coupled to an outer circumferential surface of the body 33;
And a plurality of bit portions (34) coupled to a lower end of the wing portion (33a).
The method according to claim 1,
Further comprising a stirring vane (40) disposed between the plurality of rotary vanes (20) and coupled to an outer circumferential surface of the rod (10).
The method of claim 5,
The stirring vane (40) includes a plate (42) coupled to an outer circumferential surface of the rod (10);
And a rib (44) vertically coupled to one surface of the plate (42).
An augertail (100) according to any one of claims 1 to 6;
And a bulb auger 200 composed of a cylindrical casing 210 and a plurality of stirring vanes 220 coupled to an outer circumferential surface of the casing 210 and disposed on the same axis of rotation as the auger tail 100, And the second cross-sectional basic structure construction apparatus.
The method of claim 7,
And a soil discharge hole (212) through which the gravel is discharged to the casing (210) is formed.

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