KR20140111792A - Column Integrated Footing - Google Patents

Abstract

The present invention relates to a column-integrated foundation to effectively transmit an upper load to the ground by extending a concrete column into a pre-excavated boring hole. A column-integrated foundation according to the present invention comprises: a column formed into a concrete tube of which the cross section is circular; multiple full thread bolts coupled to the bottom of the column and extended downwards; and multiple anchor plates coupled to the bodies of the respective full thread bolts and separated from each other at regular intervals, wherein each of the anchor plates is thread-coupled to the body of the full thread bolt by having a coupling hole of which the center has female threads. According to the present invention, a column load can be safely transmitted to the ground when the column formed into the concrete tube of which the cross section is circular is extended into the pre-excavated boring hole, and can be integrated with the foundation without damage to or deformation in a column main body. In addition, a prefabricated concrete structure having the column and the foundation, which are integrated with each other, can be constructed only by a process of placing concrete after inserted into the pre-excavated boring hole, thereby simplifying an installation process, minimizing construction errors, and reducing construction periods and construction costs.

Description

Column Integrated Footing

The present invention relates to a column-integrated foundation for effectively extending an upper load to a ground by extending a concrete column into a boring hole preliminarily drilled.

PHC pile (pile) is a general construction method, such as diesel hammer, hydraulic hammer, etc., which is typed by striking equipment. However, the application method has been reduced due to construction pollution such as ground vibration and noise generated during the pile driving process. As an alternative method, the method of inserting pile after excavation of the ground is the main method.

The strength when inserting a pile or pillar (hereinafter referred to as "pillar") into a hole drilled through a pre-drilled hole is to be designed in consideration of the holding strength of the pillar itself, the installation method of the pillar and the soil condition.

However, the column, especially the PHC pile, and the high-strength centrifugal-molded concrete column in which the centrifugal concrete is placed in the reinforcing bar pre-assembled instead of the steel wire and the steel bar are inserted into the pre-drilled hole It is not possible to fully utilize the holding capacity because of the method and the failure of the soil.

In order to solve this problem, as shown in FIG. 1 (a), the end enlarging steel plate 110 having a large diameter may be attached to the tip of the pile 100 to increase the supporting force. Alternatively, as shown in FIG. 1 (b) And a method of positioning the enlarged leading end portion 120 in which the diameter of the leading end is enlarged.

The methods shown in FIGS. 1 (a) to 1 (b) have a common point in raising the cross-sectional area of the tip of the pile 100 and expecting an increase in the bearing capacity.

On the other hand, it is natural that the ground with a large bearing capacity has a large frictional resistance. Therefore, it is also a method to increase the cross-sectional area of the tip of the pile. However, improving the frictional resistance by extending the length of the pile to hard ground can also be a method of increasing the overall strength.

However, if the length of the pile is extended, the coefficient of friction between the pile surface and the soil foundation is not large enough to obtain the effect of the increase in the strength.

This is because the frictional resistance of the pile is usually determined by the friction and adhesion between the pile sheath surface and the concrete injected into the boring hole and the frictional force between the concrete and the boring wall, The pore of the PHC pile is smooth, and it is difficult to secure the friction force with the concrete, and the size of the pierced hole is limited. This is because it is impossible to use a method such as attaching a shear joint to the column side.

In addition, even when the concrete is filled in the boring hole pre-drilled and the column is press-fitted, the above-mentioned problems still exist because the bond strength between the column and the concrete laid in the field is not large.

In order to solve the above-mentioned problems, the present invention provides a column-type foundation which can extend the column into a boring hole preliminarily drilled to obtain an effect of increasing the strength.

In order to solve the above problems, according to a preferred embodiment of the present invention, there is provided a pillar formed by a concrete pipe having a circular cross-sectional shape; A plurality of bolts connected to the lower end of the column and extending downward; And a plurality of anchor plates coupled to the respective bolts of the plurality of bolts so as to be spaced apart from each other by a predetermined distance, wherein coupling holes having a female screw hole formed at the center thereof are screwed to the bolts of the bolts. And the base is provided with a columnar base.

According to another preferred embodiment of the present invention, an end plate steel plate is coupled to the end portions of the plurality of bolts.

According to another preferred embodiment of the present invention, the end steel plate is provided with a plurality of bolt coupling holes into which the end portions of the bolts are inserted and coupled, a through hole is formed at the center of the end steel plate, And is joined to the end steel plate with a nut at a lower portion thereof.

According to another preferred embodiment of the present invention, there is provided a column-integrated foundation, characterized by further comprising a lateral reinforcing bar surrounding the plurality of bolts.

According to the present invention as described above, the following effects can be obtained.

First, the column is extended into the excavated boring hole, and the diameter of the base, which is the concrete column placed on the spot, has the same effect as the boring ball, so that the column load can be safely transmitted to the ground.

Second, by attaching a metal member constituting a base portion by a method of fastening a bolt to a bolt coupling hole formed at a lower end of the column, the column and the base portion can be reliably integrated without damaging or deforming the column main body .

Third, it does not damage the portholes when inserting the foundations into pre-drilled boring holes.

Fourth, since the foundation of the lower part of the column is integrated with concrete, there is no problem of reduction of bearing capacity due to insufficient frictional force between the pile surface and concrete, and concrete is filled in the concave- .

Fifth, since the body of the computer bolt connecting the column and the base portion is not exposed to the ground, the end of the computer bolt can be prevented from being corroded.

Sixth, it is possible to insert the factory-made concrete structure with the column and foundation part in the pre-drilled boring hole, and then to place the concrete to complete the construction. Therefore, the installation process is simple and the construction error can be minimized. Can be saved.

Seventh, the anchor plate is tightened to the base concrete, and the effect as a tensile pile is excellent.

FIG. 1 is a side view showing an embodiment of a pile having a tip cross-sectional area expanded to increase the bearing capacity.
Fig. 2 is a perspective view showing the column-integrated base of the present invention. Fig.
3 is an exploded perspective view showing the column-integrated base of the present invention.
4 is a side cross-sectional view showing a stepwise construction process of the column-integrated foundation of the present invention.
5 is a side cross-sectional view showing the column-integrated base of the present invention with its lower end extended.
6 is a perspective view showing the anchor plate used in the present invention.

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

Fig. 2 is a perspective view showing the column-integrated base of the present invention, and Fig. 3 is an exploded perspective view showing the column-base base of the present invention.

2 to 3, the column-integrated base of the present invention comprises: a column 1 formed of a concrete tube having a circular cross-sectional shape; A plurality of bolts 3 connected to a lower end of the column 1 and extending downward; And a plurality of anchor plates (4) coupled to the body of each of the computer bolts (3) so as to be spaced apart from each other by a predetermined distance, and having an engaging hole formed at the center thereof with a female thread and screwed into the body of the computer bolt .

The column 1 has a circular cross section and is a concrete example of the column 1 in which a steel wire and a steel rod of a PHC pile or a PHC pile are replaced by a reinforcing steel concentrate and a centrifugal force concrete is installed. Concrete columns (CRC columns) are available.

A plurality of bolt coupling holes 21 are formed at the lower end of the column 1 for coupling the upper ends of the bolts 3.

As shown in FIG. 3, if there is a roughness steel plate 2 below the column 1, the bolt fitting hole 21 may be formed in the roughness steel plate 2. A column main body is welded to a corrugated steel plate 2 at the time of manufacturing the column 1 and a bolt extending by a predetermined length is fastened to the upper surface of the corrugated steel plate 2 from the lower portion of the bolt coupling hole 21 of the corrugated steel plate, And by removing the bolts, it is possible to prevent the bolt coupling holes of the crowned steel plate from being clogged by the column concrete.

If there is no corrugated steel plate 2 under the column 1, a buried coupler having a female thread formed therein may be embedded in the lower end of the column to form a bolt coupling hole.

A through hole (22) is formed at the center of the steel plate (2) so that the concrete can be filled into the hollow of the column.

The bolts 3 constitute the base portion of the lower portion of the column 1 and serve to extend the main roots of the column 1 to the base. The upper end of the computer bolt 3 is coupled to the bolt coupling hole 21 of the column, and the lower end of the bolt 3 extends to the lower portion of the column 1. [

A plurality of anchor plates 4 are coupled to the respective bolts 3 so as to be spaced apart from each other by a predetermined distance.

The anchor plate 4 effectively transmits the axial load of the bolt 3 to the base concrete and is tightened to the concrete to be backed so that the column base of the present invention can effectively resist both compression and tension .

6, a female thread 41 is formed on the inner circumferential surface of the anchor plate 4 so as to be movable along the axial direction of the bolt 3 along the thread formed on the outer circumferential surface of the bolt 3 do.

In Fig. 6, the anchor plate 4 is shown as a circular shape, but it is also possible to form a polygonal shape as well as a circular shape.

In addition, in the present invention, the end steel plate 5 is coupled to the ends of the plurality of bolts 3.

The end steel plate 5 prevents the bolts 3 from bending or expanding due to an external force so as to restrain the distance between the bolts 3 and increase the tip end holding force of the bolts 3, Concrete.

The end steel plate 5 is weldable to the bolts 3 but is formed with a plurality of bolt holes 51 into which the ends of the bolts 3 are inserted and joined to the end steel plate 5, It is also possible to combine the bolts 3 and the end plates 5 with the nuts 53 at the upper and lower portions of the steel sheet 5.

At this time, a through hole 52 may be formed at the center of the end plate 5 so that the concrete can be smoothly filled in the internal space formed by the adjacent bolts 3.

In addition, the present invention may further include a lateral reinforcing bar 6 surrounding the plurality of bolts 3.

The transverse reinforcement 6 fixes the position of the bolt 3, restrains the transverse strain, and improves the bond strength.

Next, Fig. 4 is a side sectional view showing the step-by-step construction step of the column-integrated foundation of the present invention, and Fig. 5 is a side sectional view showing the column-integrated foundation of the present invention with the lower end extended.

The construction of the column-integrated foundation of the present invention starts in the order of excavating the boring hole 8 to the ground with a predetermined size as shown in Fig. 4 (a). The diameter of the boring hole 8 may be equal to or slightly larger than the diameter of the column 1, and when it is necessary to increase the supporting force as in soft ground or the like, the diameter of the lower end of the boring hole 8 It can also be extended.

As shown in Fig. 4 (b), the column-integrated foundation 10 of the present invention previously prepared in the boring hole 8 is inserted, and the concrete 9 is placed in the lower part as shown in Fig. 4 (c) .

At this time, since the hollow having the predetermined diameter is formed in the column-integrated base 10, the procedure of steps (b) and (c) is reversed and the concrete 9 is firstly inserted into the boring hole 8 It is also possible to perform the installation in the order of inserting the column-integrated base 10 after the installation.

4 (c) is not hollow like a column but has a cross-sectional area larger than that of the column, so that it is possible to use less than the concrete strength of the column body. The portion of the concrete 9 constituting the foundation portion is capable of receiving the direct pressure of the column since it has a larger cross-sectional area than the column having the hollow portion formed therein, and the concrete 9 is surely attached to the uneven portion of the inner wall of the boring hole 8 , It is expected that the frictional resistance can be surely expected by increasing the foundation length, and the compressive strength of the tip end of the concrete (9) can be secured in the same manner as that of a general pile foundation.

4 (a) to 4 (c), when the column-integrated foundation of the present invention is used as a general pile, it is possible to construct the foundation on the top of the foundation as shown in FIG. 4 (d) To form a ground pillar.

That is, the column-integrated base of the present invention can be widely used as a column used as a general pile or a column used as a tower-down construction.

1: Column 2: Corrugated steel plate
3: Numerical bolt 4: Anchor plate
5: end plate 6: transverse reinforcement
8: Boring ball 9: Concrete
10: Column integral base 21: Bolt coupling ball
22: through hole 41: female thread
51: bolt coupling hole 52: through hole
53: nut 100: pile
110: end portion expansion steel plate 120:

Claims (4)

A column (1) formed of a concrete pipe having a circular cross-sectional shape;
A plurality of bolts 3 connected to a lower end of the column 1 and extending downward; And
A plurality of anchor plates (4) coupled to the body of each of the computer bolts (3) so as to be spaced apart from each other by a predetermined distance and having a coupling hole having a female thread (41) formed at the center thereof and screwed to the body of the computer bolt; Wherein the column-shaped base is made of a metal.
The method according to claim 1,
And an end steel plate (5) is joined to the ends of the plurality of bolts (3).
3. The method of claim 2,
A plurality of bolt coupling holes 51 are formed in the end steel plate 5 to receive and connect the ends of the bolts 3. A through hole 52 is formed at the center of the end steel plate 5, Wherein the bolt (3) is joined to the end steel plate (5) with a nut (53) at the top and bottom of the end steel plate (5).
3. The method of claim 2,
And a lateral reinforcing bar (6) surrounding the plurality of bolts (3).

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