KR100650017B1 - SBI construction method - Google Patents

Abstract

A method for constructing a high-rise building, the method of excavating the foundation area for the construction of the high-rise building, and after laying rubble concrete for leveling the foundation area after crushing rubble, After the first process and the basic construction of the first process, the first step and the second step of the basic construction work for the general construction of bricks, and the building blocks after the basic construction work of the second process by lattice-inserting Block mesh 27 formed at predetermined intervals by an inner wall portion formed of an 'S' type 22 and / or an 'I' type formed by front and rear terminals connected left and right. The interlayer slab part after the block mesh 27 of the third process and the third process is finished with an 'I' type block and the block mesh of the third process. concrete in mesh 27 The frame connection is connected between the 'S' type 22 block by using the 'T'type block 35, and then the' T 'type block. outside the block 35, the fifth step of the block mesh 27 for placing the 'I' type block and the concrete frame of the fifth step After connecting using a 'T'type block (Block) 35, the reinforcing bar 24 and the block mesh (Block mesh) 27 is connected and the outside is connected to the concrete formwork 26 After the connection between the sixth process and the sixth process, the seventh process includes installing the long iron material every four stages of the block mesh 27.

Building blocks, T-shaped structures, high-rise

Description

Stone Insulation Block building works method

1 is a perspective view showing the masonry construction method.

Figure 2 is a perspective view of the SIB method using a T-type structure according to the present invention.

3 is a cross-sectional view of the SIB method using a T-type structure according to the present invention.

4 is a plan view of the SIB method using a T-type structure according to the present invention.

※ Explanation of code about main part of drawing ※

10: 'I' type 21: 'I' type connection pin

22: 'S' type 23: concrete wall

24: rebar 26: concrete formwork

27: block mesh 30: leveling mortar

35: 'T'type Block

36: Reinforcing bar and block mesh connection

The present invention relates to a construction method using a SIB (Stone Insulation Block) method. More specifically, the present invention relates to a method of constructing a SIB method for constructing a high-rise building by making a T-shaped structure using a concrete frame to secure a connection between a building block and concrete.

In general, the building construction method has a method of stacking bricks (1) in the masonry as shown in Figure 1 after the foundation work (3).

In addition, in the above formula, there are a method in which the position of the alignment bird is not continuous up and down, and there is a method continuous up and down. Dynamically, the previous method was better in terms of the dispersion of forces, and resisted inequality and lateral forces acting from the outside.

After the foundation work 3, the foundation work is to crush rubble and pour the discarded concrete. Refers to the basic concrete pouring after the discarded concrete pouring.

Stacking bricks (1) to the top of the foundation (3), the mortar (5) between the bricks (1).

However, the masonry construction method is suitable for a single-story building, there is a problem in that the combination of brick masonry and concrete floors is weak and not suitable for three-story high-rise buildings.

The present invention relates to a construction method using a SIB (Stone Insulation Block) method. More specifically, by making a structure of the 'T'type block (35) block (35) using the concrete frame to secure the connection between the building block and the concrete, SIB (Stone Insulation) for high-rise building construction Block) It is to provide construction method.

In order to achieve the above technical problem, the present invention provides a method for constructing a high-rise building, the digging work in the foundation area for the construction of the high-rise building, and rubble concrete pours for leveling the foundation area after rubble Building blocks after the first step of foundation construction for foundation concrete pouring and the second step of foundation construction for laying one or two stages of general brick after foundation construction of the first process and the foundation construction of the second process (B) is an inner wall consisting of an 'S' type 22 and / or an 'I' type 10 formed by connecting the front and rear sides to the left and right in a lattice insertion manner at predetermined intervals. The interlayer slab portion after the third process of the block mesh 27 to be disposed and the block mesh 27 of the third process is an 'I' type 10 block. 4th process to finish with The concrete frame connection of the block mesh 27 of the third process is performed by using a 'T'type block 35 to block an' S 'type 22 block. After connecting between the blocks, a block mesh for arranging an 'I' type 10 block on the outside of the 'T'type block 35 is provided. After the fifth process of step (27) and the concrete frame of the fifth process are connected using a 'T'type block (Block) 35, the reinforcing bar 24 and the block mesh (Block mesh) The seventh process of connecting the 27 and connecting the outside to the concrete formwork 26 and the seventh process of installing the long iron material every four stages of the block mesh 27 after the connection of the sixth process. Is made of.

In addition, after the block is placed in the seventh process, the mold part and the outer wall part are spaced apart from each other, and the block filling for filling and filling the foamed resin material configured to block cold air, noise, moisture, and the like transmitted to the inside and outside of the building. A ninth process constituting a protruding portion on one side that protrudes more than the inner wall portion and an outer wall portion and an inserting portion on the opposite side of the inner wall portion and the outer wall portion which is further inserted into the foamable resin material after the filling of the eighth process and the eighth process And a lattice method of the tenth step and the tenth step of laminating a block having a reinforced adhesive strength in a lattice manner after the protrusion and the insert portion of the expandable resin material of the ninth step are wrapped by the expandable resin material. After the step 11 and after the injection of the silicon of the eleventh process and the eleventh process of injecting the waterproof silicone to block the inflow of moisture and cold air between the blocks (Block) 12th step of forming the studded joints for appearance and finish treatment and after forming the studded joints of the twelfth process, repeating the block formation in a lattice manner and inserting flat iron at every four stages of the block. It includes a thirteenth process.

Hereinafter, with reference to the accompanying drawings to describe the present invention in detail.

2 is a perspective view of a Stone Insulation Block (SIB) method using a T-type structure according to the present invention.

The first process of foundation work and the foundation work of the first process of digging the foundation area to build high-rise buildings, and after laying rubble concrete casting after laying rubble After the second step of the basic construction work to assemble the general brick 1 to 2 stages and the S-shape formed by connecting the front and rear sides to the left and right by lattice insertion method of the building blocks after the basic construction work of the second process (' The third process of the block mesh 27 and the third process, which are arranged at predetermined intervals with an inner wall portion composed of an S 'type 22 and / or an' I 'type 10, respectively. The interlayer slab portion after the block mesh 27 is the fourth process of finishing with an 'I' type 10 block and a block mesh 27 of the third process. The concrete frame connection is a 'T'type block (35) After the connection between the 'S' type (22) block (B), the 'T' type block (B) 35 (outside of the 35) 'I' type ( 10) The fifth step of the block mesh (27) for placing the block and the concrete frame of the fifth step using a 'T'type block (Block 35) After the connection, the block mesh after connecting the sixth process and the sixth process of connecting the reinforcing bar 24 and the block mesh (27) and connecting the outside to the concrete formwork (26) (27) It consists of a 7th process which installs a long iron metal every four steps.

In the fourth process, the interlayer slab portion is finished with a block of 'I' type 10, and the block of the 'I' type 10 block is 'I'. 'type) further comprises fixing with a connection pin (21).

The discarded concrete placing level the foundation floor, prevent the separation of moisture and aggregate during concrete placement, and strengthen the durability by accurately marking the foundation section line and foundation for the foundation reinforcement 24 and formwork.

Figure 3 is a cross-sectional view of the SIB (Stone Insulation Block) method using a T-type structure according to the present invention, Figure 4 is a plan view of the SIB method using a T-type structure according to the present invention.

An inner wall portion composed of an 'S' type 22 and / or an 'I' type 10 formed by forming a building block in a grid-fitting manner in which the front and rear sides are connected left and right. The interlayer slab portion after the third process of the block meshes 27 arranged at intervals and the block mesh 27 of the third process is an 'I' type 10 block ( The concrete frame connection between the fourth process of finishing the block and the block mesh 27 of the third process is carried out using the S-type ('T'type) block (35). After connecting between the 'S' type 22 blocks, the outer side of the 'T'type block 35 is an' I 'type 10 block. After the fifth process of the block mesh (27) to arrange the concrete frame of the fifth process using a 'T' type block (Block) 35, the reinforcing bars (24) and Block mesh (27) And the outside is connected to the concrete formwork (26).

In the cross-sectional view of the Stone Insulation Block (SIB) method using the T-shaped structure of FIG. 3, the lower part is characterized in that the first # 8 block mesh 27 (# 8) is laid.

Between the 'S' type 22 block, the 'T'type block 35, and the I type 10 block. Each mortar (45).

The above embodiments are intended to illustrate the present invention, and the scope of the present invention is not limited to the embodiments, and may be modified or modified by those skilled in the art within the scope of the present invention defined by the appended claims. For example, the shape and structure of the elements of each component specifically shown in the embodiment of the present invention can be modified.

As we have seen above. The present invention can be applied to the construction of high-rise building by making the connection of the building blocks and concrete by making a T-shaped structure using the concrete frame.

Claims (2)

In the method for building a high-rise building, A first step of foundation work for digging work in the base area for constructing the high-rise building, placing concrete for concrete after placing rubble concrete for leveling the base area after rubble; A second step of foundation construction for structuring 1 to 2 stages of general bricks after the foundation work of the first process; 'S' type 22 and / or 'I' type formed by forming a building block in a front-to-rear direction after the basic construction of the second process by lattice-inserting A third step of a block mesh 27 arranged at predetermined intervals with an inner wall portion composed of (10); A fourth process of finishing the interlayer slab portion after the block mesh 27 of the third process with an 'I' type 10 block; The concrete frame connection of the block mesh 27 of the third process is performed by using a 'T'type block 35 to block an' S 'type 22 block. After connecting between the blocks, a block mesh for arranging an 'I' type 10 block on the outside of the 'T'type block 35 is provided. A fifth process of (27); After connecting the concrete frame of the fifth process using a 'T' type block (Block) 35, the reinforcing bar 24 and the block mesh (27) are connected and the outside is connected. A sixth step of connecting to the concrete formwork 26; A seventh process of installing the long iron material every four stages of the block mesh 27 after the connection of the sixth process; SM construction method building method characterized in that consisting of. The method of claim 1, After filling the block of the seventh step (block) and the mold portion and the outer wall portion spaced apart from each other after the block (block injection) filling injection of the foaming resin material configured to block the cold air, noise, moisture, etc. delivered to the inside and outside the building 8 processes; A ninth step of forming a protruding portion on one side that protrudes more than an inner wall portion and an outer wall portion and an inserting portion on the opposite side of which the inner wall portion and an outer wall portion are further inserted into the foamable resin material after the filling of the eighth process; A tenth step of laminating a block in which the circumference is surrounded by the expandable resin material and then reinforced with adhesive strength in a lattice manner after forming the protrusion and the insert of the expandable resin material in the ninth step; An eleventh step of injecting waterproof silicone to block water and cold air inflow between the blocks after the lamination in the lattice manner of the tenth step; A twelfth step of forming a stucco for the appearance and finishing treatment after the silicon injection of the eleventh step; A thirteenth step of repeating the block formation in a lattice manner after inserting the stucco joint in the twelfth step and inserting flat iron every four stages of the block; SM construction method building construction comprising a.

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