KR20100097533A - Base plate and rc(reinforce concrete) construction method - Google Patents

Abstract

PURPOSE: A base plate and a construction method for a reinforced concrete column using the same are provided to reduce construction costs and reinforcing bar consumption by dispersing a load transferred to footing concrete. CONSTITUTION: A base plate comprises a hollow part and multiple joint holes. The base plate is formed in the bottom of a reinforced concrete column and disperses stress concentration by dispersing a load transferred to footing concrete. The base plate reduces bending force and shearing force. The hollow part is formed at the center of a footing concrete layer(100) to be inserted into column reinforcing bars(130). The joint holes are arranged on the top of coupling rods(110) embedded in the footing concrete layer.

Description

Base plate and reinforced concrete pillar construction method using the same {base plate and RC (reinforce concrete) construction method}

The present invention relates to a base plate and a method of constructing a reinforced concrete pillar using the same, comprising a base plate in the lower portion of the reinforced concrete pillar to distribute the load transmitted to the foundation concrete to mitigate stress concentration, risk design of bending and shear design The present invention relates to a base plate and a method of constructing a reinforced concrete column using the same to reduce the consumption of rebar, the construction cost of the foundation concrete, the excavation cost (excavation), and shorten the construction stage by reducing the bending and shear cross-sectional force by expanding the.

In general, in order to construct a building, a pillar construction is used as a foundation of a building, and the pillar includes a reinforced concrete (RC) or a precast concrete (PC) reinforced concrete structure.

RC (reinforce concrete) or PC (precast concrete) reinforced concrete structures can be seen to be appropriately used as pillars of buildings because they are inexpensive and have excellent compressive stress, but the shear and bending stress are not excellent If used as the volume can be seen that the problem is large.

In addition, in order to support the column according to the size of the pillar, the floor construction must be deep and warned, so that the construction cost increases.

The present invention has been invented to solve the conventional problems as described above has the following object.

The present invention has a base plate in the lower portion of the reinforced concrete pillar to distribute the load transmitted to the foundation concrete to alleviate the stress concentration, and to increase the consumption of the reinforcement by reducing the bending and shear cross-sectional force by expanding the risk and shear design risk cross section, The purpose of the present invention is to provide a base plate and a method of constructing reinforced concrete pillars using the same to reduce the construction cost, earthwork cost (excavation) of foundation concrete and shorten the construction stage.

The present invention for achieving the above object is implemented by an embodiment having the following configuration.

According to the first embodiment of the present invention, the base plate of the present invention is to reduce the stress concentration by distributing the load transmitted to the foundation concrete to reduce the bending and shear cross-sectional force by expanding the risk design of the bending and shear design, A hollow part 111 formed in the center to be inserted in the process of pouring the foundation concrete layer 100 and being inserted into the column reinforcement 130 forming a frame of the pillar 500;

Characterized in that it comprises a plurality of fastening holes 313 are formed to be seated and fastened to the base plate fastening rods 110 embedded in the base concrete layer (100).

According to the second embodiment of the present invention, the base plate of the present invention when the pillars 500 are constructed around the hollow portion 311 formed in the center, the corner member which supports the pillar 500 for the construction of the pillars 500 construction. The long groove 315 is formed to fasten the 150 to the basic concrete layer 100 through the anchor bolt, but longer than the width of the angular material 150 to confirm the position of the long groove 315 when fastening with the anchor bolt. It is characterized by that it was possible to.

According to the third embodiment of the present invention, the reinforced concrete pillar construction method using the base plate of the present invention comprises the steps of allowing the construction of the foundation concrete layer (100) by excavating the ground;

Construct the base concrete layer 100 in the excavated space, the base plate fastening rod for fastening the base plate 300 around the column reinforcement 130 and the column reinforcement 130 for placing the column 500 ( Embedding 110 together to construct the base concrete layer 100 (S2);

Base plate fastening rods buried in the base concrete layer 100 the fastening hole 313 formed in the base plate 300 in the step of seating the base plate 300 on top of the foundation concrete layer 100 constructed as described above Step (S3) to finish the installation of the base plate 300 to be inserted into the 110 and then fixed with a nut;

And finishing the construction of the reinforced concrete column by constructing the column 500 through the column reinforcement 130 embedded in the base concrete layer 100 on the base plate 300 (S4). do.

The present invention has the following effects by the above configuration.

In the present invention, the reinforced concrete column construction method has a base plate at the bottom of the reinforced concrete column to reduce the stress concentration by distributing the load transmitted to the foundation concrete, thereby reducing the bending and shear cross-sectional force by expanding the risk and shear design risk sections. It has the effect of reducing the consumption of rebar, construction cost of foundation concrete, earthwork cost (excavation) and shortening the construction stage.

Applicants will now be described in detail the configuration of the present embodiments with reference to the accompanying drawings.

2 is a perspective view showing a base plate according to the present invention.

The base plate 300 according to the present invention is divided into an opening type 310 and a closed type 330.

The opening base plate 310 is intended for use in the field construction when constructed in accordance with the present invention, the hollow portion 311 is formed in the center pillars 500 during the process of pouring the foundation concrete layer 100 ) Will be inserted into the reinforcing bar 130 forming the frame of the pillar (500) when construction in the field.

And the closed type 330 is to be able to pour the pillar 500 on top of the base concrete layer 100 in the pre-fabricated state of the pillar 500 and the base plate 300 integrally.

A plurality of fastening holes 313 and 333 are formed in the base plate 300 to be seated on the base plate fastening rods 110 embedded in the base concrete layer 100 to be fastened.

The base concrete layer 100 has a base plate fastening rod 110 for fastening the base plate 300 around the column reinforcement 130 and the column reinforcement 130 for placing the pillar 500.

6 is an exemplary view showing another embodiment of a base plate according to the present invention.

Forming a plurality of long grooves 315 around the hollow portion 311 formed in the center of the base plate, the long grooves 315 is the construction of the pillar 500 when the construction of the pillar 500 in the field It is intended for fastening the concrete member 150 supporting the 170 to the base concrete layer 100 through concrete nails.

The long groove 315 is formed to be longer than the width of the angular material 150 to ensure the position of the long groove 315 when fastening with concrete nails.

Hereinafter, with reference to the accompanying drawings look at the construction process of the present invention.

Figure 3 is a perspective view showing the construction process for constructing the pillar through the open base plate, Figure 4 is a perspective view showing the construction process for constructing the pillar through the closed base plate, Figure 5 is a block showing the construction process according to the present invention It is also.

First, the ground is excavated so that the foundation concrete layer 100 can be constructed.

The base concrete layer 100 is constructed in the excavated space, wherein the base plate 300 is disposed around the column reinforcement 130 and the column reinforcement 130 for placing the pillar 500 on the foundation concrete layer 100. The base plate fastening rods 110 for fastening the buried construction.

After the construction of the foundation concrete layer 100 as described above, the base plate 300 is seated on the upper portion of the foundation concrete layer 100.

At this time, the fastening hole 313 formed in the base plate 300 is inserted into the base plate fastening rod 110 embedded in the base concrete layer 100 and then fixed with a nut to finish the installation of the base plate 300. .

In this state, the column 500 is constructed through the column reinforcement 130 embedded in the base concrete layer 100 on the base plate 300 to finish the construction of the reinforced concrete column.

The base plate 300 used in the process of explaining the construction process is an open base plate 310.

The pillar construction process through the closed base plate 330 is prefabricated in advance to the base plate 300 in the lower portion of the pillar 500, and then the base through the base plate fastening rod 110 on the top of the chicho concrete layer 100 By fixing the plate 300 is to finish the construction of the column 500.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

1 is a cross-sectional view showing a conventional reinforced concrete pillar construction state

Figure 2 is a perspective view showing a base plate according to the present invention

Figure 3 is a perspective view showing the construction process for constructing the pillar through the opening base plate

Figure 4 is a perspective view showing the construction process for constructing the pillar through the closed base plate

5 is an exemplary view showing another embodiment of a base plate according to the present invention

6 is a block diagram showing a construction process according to the present invention.

Explanation of symbols on the main parts of the drawings

100: Kichon concrete layer 110: base plate fastening rod

130: column reinforcement 300: base plate

310: open base plate 330: closed base plate

Claims (3)

It is used to construct the column in the field to distribute the load transmitted to the foundation concrete to alleviate the stress concentration, so as to reduce the bending and shear cross-sectional force by expanding the risk design of the bending and shear design, the foundation concrete layer (100) A hollow part 311 formed at the center thereof so as to be inserted in the process of pouring the rod and inserted into the column reinforcement 130 forming the frame of the column 500; Base plate, characterized in that it comprises a plurality of fastening holes 313 are formed to be seated and fastened to the base plate fastening rods 110 embedded in the base concrete layer (100). The method of claim 1 When the pillars 500 are constructed around the hollow part 311 formed at the center, the anchor members 150 are supported on the foundation concrete layer 100 by the anchor members 150 that support the pillars 500 and the construction giraffe 170. Base plate, characterized in that to form a long groove 315 to be fastened but formed longer than the width of the angular material 150 to check the position of the long groove 315 when fastening with concrete nails Excavating the ground to allow construction of the foundation concrete layer 100 (S1); Construct the base concrete layer 100 in the excavated space, the base plate fastening rod for fastening the base plate 300 around the column reinforcement 130 and the column reinforcement 130 for placing the column 500 ( Embedding 110 together to construct the base concrete layer 100 (S2); Base plate fastening rods buried in the base concrete layer 100 the fastening hole 313 formed in the base plate 300 in the step of seating the base plate 300 on top of the foundation concrete layer 100 constructed as described above Step (S3) to finish the installation of the base plate 300 to be inserted into the 110 and then fixed with a nut; And finishing the construction of the reinforced concrete column by constructing the column 500 through the column reinforcement 130 embedded in the base concrete layer 100 on the base plate 300 (S4). Reinforced concrete pillar construction method using base plate

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