KR101542717B1 - construction method of concrete structure house - Google Patents

Abstract

According to the present invention, disclosed is a construction method for a unit concrete structure house, which comprises: (S1) a first process of respectively bending a first iron plate (30) to be mounted on a first protrusion portion (12) and a second protrusion portion (14) of a floor body concrete structure (10); (S2) a second process of welding the first iron plate (30) and a first rebar (16); (S3) a third process of respectively bending a second iron plate (40) to be in close to a first groove portion (22) and a second groove portion (24) of a ceiling body concrete structure (10); (S4) a fourth process of welding the second iron plate (40) and a second rebar (46); (S5) a fifth process of putting a foundation bed (50) on the ground wherein a house or a building is installed; (S6) a sixth process of mounting the first rebar (16) and the floor body concrete structure (10); (S7) a seventh process of applying an index material (60); and (S8) a eighth process of respectively mounting the first groove portion (22) and the second groove portion (24) to be inserted into the first protrusion portion (12) and the second protrusion portion (14).

Description

Construction method of concrete structure house

The present invention relates to a method of constructing a unit concrete structure, and more particularly, to a method of constructing a unit concrete concrete structure, and more particularly, to a method of constructing a unit concrete concrete structure using a PC (Precast Concrete) It is possible to improve the efficiency of the house construction, the construction time and the work efficiency as well as to improve the efficiency of the housing construction by supporting the unit floor concrete structure with the floor part and the ceiling part by stacking each other. And a method of constructing a unit concrete structure housing to greatly improve durability.

Generally, in construction of houses and buildings, first of all, the ground to be constructed is dug up and the construction work is carried out. Then, after constructing the ground using concrete in the space where the construction work is done, Depending on the structure of the building, an inner and outer formwork with reinforcement inside is installed.

When the inner and outer molds are installed, the concrete wall is installed by inserting the concrete into the inner and outer molds. After the wall is constructed, the cured concrete is cured for a sufficient time. When the concrete is cured, The construction work for constructing the ceiling slab of the rebuilt wall is performed, and the concrete is laid and cured in the ceiling slab form, and the structure of the basic house or building is completed.

In addition, when the basic structure of the building is completed, interior and exterior walls of the building are closed using bricks and other internal and external materials, and other electrical wiring and water pipes are constructed, and then the house is completed.

The construction of a house or a building made by such a construction method must be carried out, for example, by installing an inner or outer formwork or placing reinforcing bars in the inner and outer formwork, pouring concrete, or curing the poured concrete The construction period of the house is long.

In recent years, in order to solve the problems caused by such conventional housing construction, a wall and a ceiling slab, which form the basic structure of a house, are constructed by using a concrete structure formed by a single structure. Each unit is mass-produced first in the factory, and each unit is transported to the site and assembled to construct a prefabricated house.

In this way, when a house is constructed using a concrete structure mass-produced in the factory, construction work on the site, placement of reinforcing bars, placement of concrete, and curing of the poured concrete are omitted, There is a problem in that the construction time can not be shortened due to the delay in assembling and assembling the concrete structures made up of the respective unit bodies.

As a conventional technique, a method for manufacturing a wall frame of a house for air shortening, which is a registered trademark 10-1356781, and a construction method using the wall frame have been disclosed. In the method for manufacturing a wall frame of a multi- A first step of assembling the formwork and the outer formwork and installing reinforcement materials in the lateral / longitudinal direction at regular intervals on the inner / outer formwork outer surface, a second step of forming an opening in the inner formwork and the outer formwork, A third step of installing a gap material, and a step of installing a connecting steel having a form of a U-shape, which is open at one side as a whole, and which is covered with the opened portion at the top of the inner / outer formwork so as to surround the inner / outer formwork And the fourth step of the connecting steel is constituted by including a head portion having a cross-shaped cross-section instead of the one-side cross- A pair of members coupled to a body portion extending orthogonally at an end of the head portion are symmetrically opposed to each other with a predetermined spacing therebetween, wherein the head portion has a pair of bolt holes and a plurality of first bolt grooves successively formed in the vertical portion from above, A second bolt groove is formed in the upper portion and a plurality of hooking rings in the form of hooks are formed on the inner side in the downward direction of the second bolt groove.

This prior art technique can easily lift the inner / outer formwork into a planned position by reinforcing the inner / outer formwork with a reinforcing plate and reinforcing plate and using a connecting steel that is enclosed with the inner / outer formwork so as to enclose the inner / outer formwork. The house is being constructed by casting.

However, in the case of the prior art, since the inner / outer formwork is installed first and the concrete is laid between the inner and outer formwork, the house is constructed. Therefore, the burden of the labor cost due to the formwork installation is added, In order to construct the multi-layered house as well as the delay of the construction period according to the curing time of the concrete, it is necessary to repeatedly perform the process of re-installing the inner / outer formwork on the upper part of the cured concrete structure and pouring the concrete again There is a problem that the construction period of the housing is long.

Korean Registered Patent No. 10-1356781 (Registered on 2014.01.20) Korean Patent Laid-Open No. 10-2008-0062627 (published on July 23, 2008)

The present invention can significantly reduce the construction time of a house or a building by constructing a house by laminating a unit concrete structure at the time of constructing a house, and at the same time, when constructing a concrete house with multiple layers, It is possible to greatly shorten the construction period by simply assembling the concrete structure made of the unit and installing the culvert house by firmly combining it and installing the formwork on the site and installing the concrete without placing the concrete on the site. And to provide a method of constructing a unit concrete concrete structure so as to greatly improve it.

The present invention provides a method of constructing a unit concrete structure housing comprising a bottom part and a first left part extending vertically to the left of the bottom part and having a first protrusion part and a first left part vertically extending to the right of the bottom part, A bottom concrete structure formed of a first right side portion having a second projecting portion and a first reinforcing steel reinforcement; A second left portion having a ceiling portion and a first groove portion extending vertically to the left lower side of the ceiling portion and corresponding to the first projection portion and a second groove portion extending perpendicularly to the right lower side of the ceiling portion and corresponding to the second projection portion A first step of bending and mounting a first iron plate on a first protrusion and a second protrusion of a bottom concrete structure, respectively; A second step of welding a first steel plate seated on the first and second projections by a first process and a steel bar laid on a first left side and a first right side of the bottom concrete structure; A third step of bending and adhering a second steel plate to the first groove portion and the second groove portion of the steel structure concrete structure, respectively; A fourth step of welding a second steel plate seated on the first groove part and the second groove part by a third step and a reinforcing bar stuck to the second left side part and the second right side part of the sheath type concrete structure; A fifth step of placing the foundation floor on a floor where a house or a building is to be installed; A sixth step of placing a bottom concrete structure secured to the first and second projections on the upper surface of the foundation floor by a fifth step; A seventh step of applying an index material to the upper surface of the first steel plate and the second steel plate of the bottom concrete structure seated on the upper surface of the foundation by the sixth step; The method of claim 1 or 2, further comprising: depositing and depositing a sheathed concrete structure on the top of the bottom concrete structure, the expansive material being applied to the upper surface of the first steel plate by a seventh step, The steel plate and the first iron plate provided on the first and second projections of the bottom body concrete structure are positioned so as to correspond to each other so that the first groove and the second groove are fitted into the first and second projections, Wherein the first fixing plate is further bent at both sides of the first steel plate of the bottom body concrete structure, and the second fixing plate is further bent at the both sides of the second steel plate of the concrete structure, The first and second projections of the bottom concrete structure are engaged with each other. The first and second projections extend from both sides of the first steel plate, And a ninth step of welding and fixing the second fixing pieces extending from both sides of the second steel plate, which are respectively provided in the first groove portion and the second groove portion of the ceiling concretion concrete structure, by welding work.

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The present invention relates to a method of constructing a concrete house by laminating a bottom concrete structure and a heavenly body concrete structure made of a unitary unit to construct a concrete house so that a concrete structure composed of a unit body is directly assembled without placing concrete on a building, The construction period can be greatly shortened and the work efficiency can be greatly improved by simplifying the construction of the house and shortening the construction period as well as making the connection work by the lamination of the concrete structures made of the unit bodies simple have.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a process diagram showing a process of a method of constructing a unit concrete structure of the present invention.
FIG. 2 is a view showing a state in which a concrete structure is laminated by a process of a method of constructing a unit concrete structure of the present invention.
3 is an exploded view showing a state in which a concrete structure is laminated by a process of a method of constructing a unit concrete structure house according to the present invention.
FIG. 4 is an enlarged view of the construction of a unit concrete structure construction method according to the present invention.
5 is an enlarged view showing another embodiment of a method of constructing a unit concrete structure housing according to the present invention.
FIG. 6 is a block diagram showing another embodiment of a method of constructing a unit concrete structure housing according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

As shown in the drawings, the method for constructing a unit concrete structure structure according to the present invention includes a first step S1, a second step S2, a third step S3, a fourth step S4, a fifth step S5, 6 step (S6), seventh step (S7), and eighth step (S8).

In addition, the present invention is constructed by a concrete structure including a unit body of a bottom concrete structure 10 and a sheath concrete structure 20.

A first left side portion 13 extending vertically to the upper left side of the bottom portion 11 and having a first protrusion 12 and a second left side portion 13 extending from the right side of the bottom portion 11, And a ceiling portion 21 and a ceiling portion 21 which are formed of a first right portion 15 extending perpendicularly to the first reinforcing portion 16 and having a first reinforcing portion 16, A second left portion 23 extending perpendicularly to the lower left direction of the ceiling portion 21 and having a first groove portion 22 corresponding to the first projection portion 12 and a second left portion 23 extending perpendicularly to the right lower direction of the ceiling portion 21, And a second right side portion 25 having a second groove portion 24 corresponding to the protruding portion 14. The second reinforcing portion 26 includes a heel-concrete concrete structure 20 in which the second reinforcing bar 26 is embedded.

The bottom body concrete structure 10 and the sheathing concrete structure 20 are each formed of a unitary body. The bottom body concrete structure 10 and the sheathing concrete structure 20, which are unit concrete structures, The concrete body is constructed by transporting a bottom concrete structure (10) and a heavenly body concrete structure (20), which are manufactured and manufactured unit concrete structures, to a housing construction site and laminating them by the method of housing construction of a unit concrete structure of the present invention.

The first step (S1) of the present invention is a step of folding and placing the first iron plate (30) on the first projecting portion (12) and the second projecting portion (14) of the bottom concrete structure (10).

At this time, the first and second projections 12 and 14 of the bottom body concrete structure 10 are connected to the first left side portion 13 and the first right side portion 15 of the bottom concrete structure 10, The first iron plate 30 is bent and seated so as to conform to the shapes of the first protrusion 12 and the second protrusion 14.

In the second step S2, the first steel plate 30 and the second steel plate 30, which are respectively seated on the first and second projections 12 and 14 by the first step S1, And welding the first reinforcing bars 16 laid on the first left side portion 13 and the first right side portion 15 to each other.

The first reinforcing bars 16 are disposed inside the bottom concrete structure 10 for the rigidity and supportability of the bottom concrete structure 10, The first reinforcing bars 16 positioned on the first left side portion 13 and the first right side portion 15 are positioned on the first right side portion 13 and the first right side portion 15, And the first iron plate 30 is welded to the first and second projections 12 and 14 so that the first iron plate 30 is welded to the first and second projections 12 and 14 Make sure it is firmly fixed.

The third step S3 is a step of bending and adhering the second steel plate 40 to the first groove portion 22 and the second groove portion 24 of the helix concrete structure 10, respectively.

The first groove portion 22 and the second groove portion 24 of the sheathing concrete structure 20 correspond to the first and second projecting portions 12 and 14 of the bottom concrete structure 10, The first and second grooves 22 and 24 of the second steel plate 40 which are in close contact with the first groove portion 22 and the second groove portion 24 are also bent according to the shape of the first groove portion 22 and the second groove portion 24.

At this time, the bent shape of the second steel plate 40 corresponds to the bent shape of the first steel plate 30.

The fourth step S4 includes the second steel plate 40 placed in the first groove portion 22 and the second groove portion 24 in the third step S3 and the second steel plate 40 And welding the second reinforcing bars 26 laid on the second left side portion 23 and the second right side portion 25.

The second reinforcing bars 26 are disposed in the interior of the sheathing concrete structure 20 for the rigidity and supportability of the sheathing concrete structure 20, The second reinforcing bars 26 located at the second left side portion 23 and the second right side portion 25 are located in the second right side portion 23 and the second right side portion 25, The second steel plate 40 is welded to the first groove portion 22 and the second groove portion 24 so that the second steel plate 40 is welded to the first groove portion 22 and the second groove portion 24, Make sure it is firmly fixed.

The fifth step S5 is a step of placing a foundation floor 50 on a floor where a house or a building is to be installed. After the smoothing work is performed on the floor of the house, the foundation floor 50 is placed on the floor The base floor 50 may be made of a concrete material.

The sixth step S6 is a step in which the first steel plate 30 is placed on the upper surface of the foundation floor 50 raised on the ground by the fifth step S5 to the first projecting portion 12 and the second projecting portion 14 And placing the bottom body concrete structure 10 which is seated and fixed by the welding operation with the first reinforcing bar 16.

At this time, the upper surface of the foundation floor 50 may further include a display unit for indicating a position where the lower body concrete structure 10 is seated, and the lower body concrete structure 10 is installed using a device such as a crane And then placed on the display portion displayed on the upper surface of the foundation floor 50 to be mounted thereon.

The seventh step S7 is performed by applying the index material 60 to the upper surface of the first steel plate 30 of the bottom concrete structure 10 which is placed on the upper surface of the foundation floor 50 by the sixth step S6 .

The index material 60 is a part of the bottom steel body concrete 10 that is contacted between the bottom body concrete structure 10 and the sheath structure concrete structure 20 that is mass- And the second steel plate 40 of the sheath-and-tungsten concrete structure 20, as well as to improve the jointability and waterproof property, and is made of a rubber material using butyl rubber.

The expansive material 60 is applied to the upper surface of the first steel plate 30 of the bottom concrete structure 10 so that the ceiling concretion structure 20 is placed on the upper portion of the bottom concrete structure 10 in a subsequent process Durability, bonding property and waterproofing property are greatly improved.

In the eighth step S8, the expansive material 60 is applied on the upper surface of the first steel plate 30 by the seventh step (S7), and the sheathed concrete structure 20 is formed on the upper part of the bottom concrete structure 10, A second steel plate 40 provided in each of the first groove portion 22 and the second groove portion 24 of the sheath concrete structure 20 and a second steel plate 40 provided in the first groove portion 22 of the bottom concrete structure 10, The first iron plate 30 provided on the protruding portion 12 and the second protruding portion 14 are positioned so as to correspond to each other so that the first groove portion 22 and the second groove portion 24 are connected to the first protruding portion 12 And is seated on the second projecting portion 14 so as to be engaged with each other.

The crushed concrete structure 20 is lifted using a device such as a crane and the second steel plate 40 of the crushed concrete structure 20 is supported on the first steel plate 30 of the bottomed concrete structure 10 So that the sheath concrete structure 20 is put on the upper end of the bottom concrete structure 10 and is seated.

The helix concrete structure 20 that is seated on the upper end of the bottom body concrete structure 10 has the first groove portion 22 and the second groove portion 24 of the helix concrete structure 20, The index member 60 is sandwiched between the first and second projections 12 and 14 of the first steel plate 30 and the second steel plate 40, And firmly fixed and supported with the concrete structure 10.

The present invention is characterized in that the first fixing pieces 31 are further bent on both sides of the first steel plate 30 of the bottom body concrete structure 10 and the second steel plates 40 And the second fixing piece 41 may be further bent on both sides.

After the eighth step (S8), the first and second fixing pieces 31 and 41 of the bottom concrete structure 10, which engage with each other in a corresponding manner, A first fixing piece 31 extending from both sides of the first iron plate 30 provided at the first and second projections 14 and 14 and a first groove portion 22 and a second groove portion 24 of the sheathed concrete structure 20, And a ninth step (S9) of welding and fixing the second fixing pieces 41 extending from both sides of the second steel plate 40, which are respectively provided on the first steel plate 40 and the second steel plate 40, by a welding operation.

As described above, the first fixing piece 31 of the first steel plate 30 and the second fixing piece 41 of the second steel plate 40 are welded and welded to each other by the ninth step (S9) The bottom body concrete structure 10 and the sheath frame concrete structure 20 can be firmly supported and fixed to each other.

In addition, the present invention can be applied to the lamination of the laminated bottom concrete structure 10 and the sheath concrete structure 20, that is, the first steel plate 30 and the second steel plate 40, The first grooves 22 and the first projections 12 and the second grooves 24 and the outer sides of the second projections 14 are subjected to a finishing process to form a bottom concrete structure It is possible to prevent the laminated portion of the ceiling-mounted concrete structure 20 and the ceiling-mounted concrete structure 20 from being exposed to the outside.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

10: bottom body concrete structure 11: bottom part
12: first protrusion 13: first left side
14: second projection 15: first right side
16: First reinforcing steel 20: Thin-walled concrete structure
21: ceiling portion 22: first groove portion
23: second left side portion 24: second groove portion
25: second right side 26: second reinforcing bar
30: first iron plate 31: first fixing piece
40: second steel plate 41: second fixing piece
50: foundation floor 60: index material
S1: first process S2: second process
S3: Third step S4: Fourth step
S5: fifth step S6: sixth step
S7: Seventh step S8: Eighth step
S9: Step 9

Claims (2)

A first left portion 13 extending vertically to the left of the bottom portion 11 and having a first protrusion 12 and a second left portion 13 extending perpendicularly to the right of the bottom portion 11, A bottom concrete structure 10 comprising a first right side portion 15 having two projections 14 and having a first reinforcing core 16 laid thereon; A second left side portion 23 having a ceiling portion 21 and a first groove portion 22 extending perpendicularly to the left lower side of the ceiling portion 21 and corresponding to the first projected portion 12, And a second right side portion 25 having a second groove portion 24 extending vertically downward and corresponding to the second projecting portion 14 and being connected to the second reinforcing bars 26. The concrete structure 20, / RTI >
A first step (S1) of folding and placing the first steel plate (30) on the first and second projections (12, 14) of the bottom body concrete structure (10); The first steel plate 30 and the first left side portion 13 of the bottom concrete structure 10 are placed on the first and second projections 12 and 14 in the first step S1, A second step (S2) of welding the first reinforcing bars (16) laid on the right side (15); A third step (S3) of bending and adhering the second steel plate (40) to the first groove portion (22) and the second groove portion (24) of the ceiling concretion concrete structure (10); The second steel plate 40 seated in the first groove portion 22 and the second groove portion 24 by the third step S3 and the second left side portion 23 and the second left side portion 23 of the sheathing concrete structure 20, A fourth step S4 of welding the second reinforcing bars 26 laid on the right side portion 25; A fifth step (S5) of placing the foundation floor (50) on a floor where a house or a building is to be installed; The first steel plate 30 is seated on the first and second projections 12 and 14 on the upper surface of the foundation floor 50 placed on the ground by the fifth step S5, And a sixth step (S6) of placing a bottom body concrete structure (10) fixed by a welding operation; A seventh step (S7) of applying an index material (60) to the upper surface of the first steel plate (30) of the bottom body concrete structure (10) seated on the upper surface of the foundation floor (50) by a sixth step (S6); The ceiling concretion concrete structure 20 is stacked on the upper end of the bottom body concrete structure 10 coated with the index material 60 on the upper surface of the first steel plate 30 by the seventh step S7, A second steel plate 40 provided in each of the first groove portion 22 and the second groove portion 24 of the concrete structure 20 and a first protrusion 12 and a second protrusion 12 of the bottom concrete structure 10, The first iron plate 30 and the second iron plate 30 are disposed so as to correspond to each other so that the first groove portion 22 and the second groove portion 24 are fitted to the first and second projections 12 and 14, (S8), wherein the step (S8)
A first fixing piece 31 is further bent on both sides of the first steel plate 30 of the bottom body concrete structure 10,
The second fixing pieces 41 are further bent at both sides of the second steel plate 40 of the sheathing concrete structure 20,
After the eighth step (S8), the first and second projections 12 and 14 of the bottom body concrete structure 10, which are engaged with each other in correspondence with each other, A second fixing piece 41 extending from both sides of the second steel plate 40 provided in the first groove portion 22 and the second groove portion 24 of the first fixing piece 31 and the ceiling concretion concrete structure 20 And a ninth step (S9) of welding and fixing by a welding operation. delete

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