KR20220157159A - Manufacturing method of concrete structure of prefabricated super concrete house - Google Patents

Abstract

The present invention relates to a method for manufacturing the concrete structure of a prefabricated plain super concrete house and, more specifically, to a method for manufacturing the concrete structure of a prefabricated plain super concrete house. The method comprises: a first step of arranging a mold so that the end face of a wall for forming a prefabricated house structure is positioned in a vertical direction; a second step of setting the positions of a door and a window on the mold and installing a door mold and a window mold at the corresponding positions; a third step of pouring and curing plain super concrete inside the mold; and a fourth step of forming a door installation space and a window installation space by removing the door mold and the window mold of the second step after removing the mold. Therefore, the method can minimize the load during curing.

Description

Manufacturing method of concrete structure of prefabricated unreinforced super concrete house

The present invention relates to a method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house, and more particularly, by arranging a mold so that the end surface of a wall for forming a prefabricated house structure is positioned in a vertical direction, and producing unreinforced superconcrete. It relates to a method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house that minimizes the load during curing by pouring and can directly pour a multi-layer inner wall slab.

In general, in the construction of houses or buildings, the ground to be built is first dug up, foundation construction is carried out, and the ground is built using concrete in the space where the foundation construction has been performed. In addition, according to the structure of the house or building to be built on the constructed ground, inside and outside formwork with reinforcing bars are installed.

In this way, concrete is poured inside the installed inner and outer formwork to construct a basic wall. And after sufficient curing time of the poured concrete, proceed with the formwork installation work for constructing the ceiling slab of the re-constructed wall.

After that, concrete is poured into the ceiling slab formwork and cured to complete the basic structure of the house or building.

In addition, when the basic structure of the building is completed, the inner and outer walls of the building are finished using interior and exterior materials such as bricks, and other electrical wiring or water pipes are constructed, and then the house is completed.

In the construction of a house or building made by this construction method, the inner and outer forms are installed or reinforcing bars are placed inside the inner and outer forms. In addition, there is a problem in that it takes a long time to construct a house because it must go through the process of pouring concrete or curing the poured concrete.

However, in order to improve the problems of the conventional housing construction, a house or building is constructed in a prefabricated manner using a concrete structure in which a wall and a ceiling slab forming the basis of a house are molded into a single structure.

In general, a prefabricated house is constructed by first mass-producing each unit unit in a factory and then transporting and assembling each unit unit unit.

In this way, when a house is constructed using a concrete structure mass-produced in a factory, formwork installation work, reinforcing bar placement work, concrete pouring work, or curing work of the poured concrete are omitted.

therefore. On the other hand, there is an advantage that the construction period of a concrete house or building can be greatly shortened, but in order to install the door or window necessary for the house in a state in which the concrete structures composed of each unit are connected to each other, Hole drilling to secure the space to be installed must be carried out.

Due to this, it is necessary to have a large drilling machine according to the hole drilling work in the field as well as the delay in working time. In addition, there is a problem in that the construction period cannot be greatly shortened because the additional cost of the equipment and the additional cost of the drilling worker's labor cost are inevitably generated.

On the other hand, the conventional prefabricated concrete house structure uses a connecting steel that is firmly configured by reinforcing the inner and outer formwork with reinforcing materials and reinforcing plates, and is combined in a form surrounding the inner and outer formwork.

For this reason, after lifting it with a crane and moving it to a planned location, the house is constructed by reinforcing bars and pouring concrete.

However, in the case of the prior art, since the inner and outer forms are first installed and then the concrete is poured between the inner and outer forms to construct the house, there is a problem in that labor costs and work time are added according to the formwork installation work.

In addition, in order to construct a multi-story house as well as delay the construction period according to the curing time of the poured concrete, it is necessary to reinstall the inner and outer formwork on the upper part of the cured concrete structure. In addition, there is a problem in that the housing construction period is inevitably prolonged due to the process of repeatedly pouring concrete.

Accordingly, while constructing a prefabricated concrete house easily and simply using a unit concrete structure, a technology for securing a space in which doors and windows can be installed is urgently required.

Republic of Korea Patent Registration No. 10-1356781 (registered on January 20, 2014) Republic of Korea Patent Publication No. 10-2008-0062627 (published on July 3, 2008)

In order to solve the above problems of the prior art, the present invention arranges a mold so that the end surface of the wall for forming a prefabricated house structure is positioned in a vertical direction, and pours unreinforced superconcrete to minimize the load during curing. To provide a method for manufacturing a concrete structure for a prefabricated unreinforced super concrete house of a new structure in which a double-layer inner wall slab can also be directly poured.

In addition, the position of the door and window is set on the molding frame, the door molding frame and the window molding frame are installed at the corresponding location, and the unreinforced super concrete is poured to install the door and window on the site. It is to provide a method for manufacturing a concrete structure.

In addition, to provide a method of manufacturing a concrete structure of a prefabricated unreinforced superconcrete house without separate finishing work on site by integrally installing finishing materials and insulation materials on both sides of the unreinforced superconcrete cast inside the mold.

The present invention to solve the above problems

A first step of arranging a mold so that an end surface of a wall for forming a prefabricated house structure is positioned in a vertical direction;

a second step of setting the positions of the doors and windows on the molding frame, and installing the door molding frame and the window molding frame at the corresponding positions;

A third step of pouring and curing unreinforced super concrete inside the mold; and

A fourth process of forming a door installation space and a window installation space by removing the molding mold and then removing the door molding mold and the window molding mold of the second process.

Provided is a method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house.

In the method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention, the first step includes a slab mold process of disposing a slab mold for forming a multi-story mold inside the mold; and an inner wall mold process of disposing an inner wall mold forming an inner wall inside the molding mold to partition a space.

In the method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention, the second step is to form an opening penetrating one side of the mold to form the door installation space, and An opening process may be further included to bring the door molding frame in close contact with the frame having the inside penetrating therein.

In the method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention, in the third step, plywood or gypsum board is placed on one side of the inside of the mold before pouring unreinforced superconcrete into the mold. An inner finishing process of forming the primary finishing material provided; Insulation process of forming an insulator provided with a thickness of 48mm to 52mm on one side of the primary finishing material; an external finishing process of forming a secondary finishing material having plywood or gypsum board on the other inner side of the upper mold; And a vacuum insulation process of forming a vacuum insulation material having a thickness of 13 mm to 17 mm on one side of the secondary finishing material may be further included.

In the method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention, the third process may be characterized in that, after the vacuum insulation process, the unreinforced superconcrete is poured and cured to form an integral wall. have.

In the method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to the present invention, a mold is arranged so that the end face of a wall for forming a prefabricated house structure is positioned in a vertical direction, and molding for the load when pouring unreinforced superconcrete is performed. The wall can be made flat by preventing distortion and sagging of the frame.

In addition, it is lighter in weight than the conventional molding mold, and prevents irregular finishing of the upper slab, so that there is no need to perform flattening work with equipment, so manufacturing costs can be saved.

In addition, irregular finishes prevent the formation of slopes, leaks, and gaps when laminating PC blocks, so that construction is convenient and the construction period is shortened.

In addition, the method for manufacturing a concrete structure of a prefabricated rootless super concrete house according to the present invention forms a partition and a slab frame for a multi-layer inside the mold, so that the outer wall, the inner wall, and the multi-layer slab can be simultaneously poured and worked, It has the advantage of being able to create various difficult and deformed buildings.

In addition, the method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to the present invention forms a PC block by integrally installing a finishing material and an insulation material on both sides of the unreinforced superconcrete placed on the inside of the mold, so that a separate finish is applied at the site. It has the advantage of significantly reducing the operator's working time because there is no construction.

1 is a flowchart illustrating a method of manufacturing a concrete structure of a prefabricated unrooted super concrete house according to an embodiment of the present invention.
2 is a perspective view showing an exploded mold of a method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention.
3 is an exemplary view showing a slab frame process and an inner wall frame process of a method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention.
4 is a cross-sectional view showing a third step of a method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention.
FIG. 5 is an exemplary view showing that an opening is formed in a wall in order to install a door frame and a window frame on the molding frame of FIG. 2 .
6 is a perspective view showing a unit concrete structure manufactured by the method for manufacturing a concrete structure for a prefabricated unreinforced super concrete house according to an embodiment of the present invention.

Hereinafter, preferred embodiments in which a person skilled in the art can easily practice the present invention will be described in detail with reference to the accompanying drawings. However, in the detailed description of the operating principle of the preferred embodiment of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, the same reference numerals are used for parts having similar functions and actions throughout the drawings.

In addition, when a part is said to be 'connected' to another part in the entire specification, this includes not only the case where it is directly connected but also the case where it is indirectly connected with other components intervening therebetween. In addition, 'including' a certain component means that other components may be further included without excluding other components unless otherwise stated.

Hereinafter, a method for manufacturing a concrete structure of a prefabricated unrooted super concrete house according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a flow chart showing a method of manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention, and FIG. 2 is a mold of the method of manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention 3 is an exploded perspective view showing a slab frame process and an inner wall frame process of a method for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention, and FIG. 4 is an exemplary view showing an embodiment of the present invention. A cross-sectional view showing the third step of the method of manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to the cross section, and FIG. 6 is a perspective view showing a unit concrete structure manufactured by the method of manufacturing a concrete structure for a prefabricated unreinforced super concrete house according to an embodiment of the present invention.

As shown in FIG. 1, the method 10 for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention includes a first step (S100), a second step (S200), and a third step (S300). and a fourth process (S400).

More specifically, as shown in FIGS. 1 and 5, in the method 10 for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention, the end surface of the wall for forming the prefabricated house structure is A first process of arranging the mold 100 to be positioned in a vertical direction (S100), a second process of setting the positions of doors and windows on the mold, and installing the door mold and window mold at the corresponding positions (S200), the third process of pouring and curing unreinforced super concrete inside the mold (S300) and removing the mold, then removing the door mold and window mold of the second process to install door installation space and windows A fourth process (S400) of forming a space is included.

Here, the wall body includes supporting the outer wall and the inner wall forming the concrete structure, and a wall having a thickness thinner than that of general reinforced concrete can be formed using unreinforced super concrete.

Referring to FIG. 2 , the first process ( S100 ) is a process of arranging the mold 100 .

Here, the mold 100 further includes a main mold 110 , an upper mold 120 and a lower mold 130 .

The main frame 110 is for manufacturing a unit that forms a house, and the inside is formed as a square frame of an empty space, and a space for pouring superconcrete is formed inside the frame of the square frame.

To this end, the main frame 110 is arranged so that the end surface of the wall for forming the prefabricated house structure is positioned in a vertical direction. And the end face is penetrated in the vertical direction.

In addition, although the main frame 110 is shown as an integrated square frame in the drawings herein, it may be formed in a structure that can be separately coupled in a long direction and a single direction.

The upper mold 120 is formed of a panel laminated on the open upper end surface of the main mold 110 . In addition, a plurality of grooves through which one side is penetrated are formed so that unreinforced super concrete can be poured.

The lower mold 130 is formed of a panel coupled to seal the open lower end surface of the main mold 110 .

In particular, the lower mold 130 serves as a formwork to prevent the unreinforced super concrete poured into the main mold 110 from leaking to the outside when moving to the lower part of the main mold 110 .

In this way, in the first step (S100), the mold 100 is placed so that the end surfaces of the walls are positioned vertically in the vertical direction, thereby vertically positioning the long-directional wall and the one-way wall.

As a result, when concrete is poured by arranging the conventional longitudinal walls in the vertical direction, the concrete is irregularly poured over a large area and the problem of sagging due to the load of the mold located in the longitudinal direction is prevented.

On the other hand, as shown in FIG. 3, the first step (S100) of the method 10 for manufacturing a concrete structure of a prefabricated unreinforced super concrete house according to an embodiment of the present invention includes a slab frame process (S110) and an inner wall frame process (S120). ) is further included.

The slab mold process (S110) is a process of arranging the slab mold 140 for forming a multi-layer mold inside the mold 100.

The slab molding mold 140 is disposed inside the molding mold 100 and is formed as a mold capable of pouring unreinforced super concrete together with the molding mold 100 at the same time.

In particular, since the slab molding mold 140 can be cast simultaneously with the molding mold 100 forming the wall, a slab of a desired shape can be implemented.

In the inner wall frame process (S120), an inner wall is formed on the inside of the mold 100 to form an inner wall mold 150 for partitioning a space.

The inner wall forming mold 150 may form a mold connecting the longitudinal walls of the slab forming mold 140 and the forming mold 100 to each other.

In addition, as shown in (b) of FIG. 3 , spaces of various shapes may be formed by connecting the longitudinal walls and the unidirectional walls of the mold 100 to each other.

In particular, when the longitudinal walls are disposed vertically, the ceiling or floor may be formed in various ways.

1 and 5, in the second process (S200), the positions of the doors and windows are set on the mold 100, and the door mold 200 and the window mold 300 are installed at the corresponding positions. It is a process to

This second process (S200) further includes an opening process (S210).

In the opening step (S210), an opening penetrating one surface of the molding mold 100 is formed to form a door installation space, and the door molding mold 200 having the frame penetrating the inside is formed in close contact with the inside of the opening. .

Here, the door forming frame 200 may be formed as a frame having a shape corresponding to the opening or corresponding to the shape of the door frame.

In the opening process (S210), the window molding frame 300 having the same shape as the door molding frame 200 may be provided.

The window molding frame 300 is formed to correspond to the size of the window and may be formed in the same shape as the door molding frame 200 .

Referring to FIGS. 4 and 6 , the third process (S300) is a process of placing unreinforced super concrete inside the mold 100 and curing it.

To this end, the third process (S300) further includes an inner finishing process (S310), an insulation process (S320), an outer finishing process (S330), and a vacuum insulation process (S340).

The inner finishing process (S310) is a process of forming a primary finishing material having plywood or gypsum board on one side of the inside of the mold 100 before pouring unreinforced super concrete into the mold 100.

Insulation process (S320) is a process of forming an insulator provided with a thickness of 48mm to 52mm on one side of the primary finishing material.

Here, this is to optimize heating and cooling by minimizing thermal change in the room by setting the thickness of the insulator to 48 mm to 52 mm.

The outer finishing process (S330) is a process of forming a secondary finishing material having plywood or gypsum board on the other inner side of the upper mold 100.

The vacuum insulation process (S340) is a process of forming a vacuum insulation material provided with a thickness of 13mm to 17mm on one side of the secondary finishing material.

The vacuum insulation material is located on the outer wall of the concrete structure and can minimize the inflow of heat from the outside to the inside. And it can be formed as a thick vacuum insulation material, but it is preferable to form a thickness of 13mm to 17mm in order to save manufacturing cost.

As such, the third process (S300) is a process of pouring and curing unreinforced super concrete after the vacuum insulation process (S340) to form an integral wall.

That is, unreinforced super concrete is poured between the insulation material and the secondary finishing material and cured to form a concrete structure unit in which the finishing material is integrally formed on both sides of the concrete.

5 and 6, in the fourth process (S400), after removing the molding frame 100, the door and window molding frames of the second process (S200) are removed to create a door installation space and a window installation space. It is a process of forming

Due to this, it is possible to complete the concrete structure of the prefabricated house and construct it in a desired arrangement at the site.

At this time, the longitudinal wall can be arranged vertically so that the lower part can be used as the floor and the upper part can be used as the ceiling.

As described above, the detailed description of the present invention has been described with respect to the preferred embodiments of the present invention, but this is the best embodiment of the present invention described by way of example, but does not limit the present invention. In addition, it is of course possible for anyone having ordinary knowledge in the technical field to which the present invention belongs to various modifications and imitations without departing from the scope of the technical idea of the present invention.

Therefore, the scope of the present invention is not limited to the above-described embodiments, but may be implemented in various forms of embodiments within the scope of the appended claims. And without departing from the subject matter of the present invention claimed in the claims, anyone with ordinary knowledge in the art to which the invention pertains is considered to be within the scope of the claims of the present invention to various extents that can be modified.

S10: Manufacturing method of concrete structure of prefabricated unreinforced super concrete house
100: molding mold 110: main molding mold
120: upper mold 130: lower mold
140: slab forming frame 150: inner wall forming frame
200: door frame 300: window frame
S100: First process S110: Slab frame process
S120: Inner wall frame process S200: Second process
S210: Opening process S300: 3rd process
S310: Inner finishing process S320: Insulation process
S330: External finishing process S340: Vacuum insulation process
S400: 4th process S500: 5th process

Claims (5)

A first step of arranging a mold so that an end surface of a wall for forming a prefabricated house structure is positioned in a vertical direction;
a second step of setting the positions of the doors and windows on the molding frame, and installing the door molding frame and the window molding frame at the corresponding positions;
A third step of pouring and curing unreinforced super concrete inside the mold; and
A fourth process of forming a door installation space and a window installation space by removing the molding mold and then removing the door molding mold and the window molding mold of the second process.
Manufacturing method of concrete structure of prefabricated unreinforced super concrete house.
According to claim 1,
The first step is
A slab mold step of disposing a slab mold for forming a multi-layer mold inside the mold; and
Further comprising an inner wall mold step of disposing an inner wall mold forming an inner wall inside the mold to partition the space
Manufacturing method of concrete structure of prefabricated unreinforced super concrete house.
According to claim 1,
The second step is
Further comprising an opening step of forming an opening penetrating one surface of the molding mold to form the door installation space and bringing the door molding mold in close contact with the inside of the opening to form a frame through which the inside is penetrated.
Manufacturing method of concrete structure of prefabricated unreinforced super concrete house.
According to claim 1,
The third step is
An inner finishing step of forming a primary finishing material having plywood or gypsum board on one side of the inside of the mold before pouring the super concrete into the mold;
Insulation process of forming an insulator provided with a thickness of 48mm to 52mm on one side of the primary finishing material;
an external finishing process of forming a secondary finishing material having plywood or gypsum board on the other inner side of the upper mold; and
Further comprising a vacuum insulation process of forming a vacuum insulation material having a thickness of 13 mm to 17 mm on one side of the secondary finishing material
Manufacturing method of concrete structure of prefabricated unreinforced super concrete house.
According to claim 4,
The third step is
After the vacuum insulation process, the unrooted super concrete is poured and cured to form an integral wall, characterized in that
Manufacturing method of concrete structure of prefabricated unreinforced super concrete house.

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