KR102500964B1 - Construction method with modular coordination design using discontinuous double-track gratings - Google Patents

Abstract

A construction method to which a modular coordination design using a discontinuous double-wire grid is applied according to the present invention may include the steps of: setting a part where a stud is located with a discontinuous double-wire grid; designing the size of the discontinuous double-wire grid as a manufacturing size of the stud; positioning a standard-produced panel between the plurality of studs; and forming a wall while closing the top of the stud with a cap. Therefore, the present invention can provide the construction method to which a modular coordination design is applied using a discontinuous double-wire grid that can standardize the type of panel used in a panel type house by utilizing a discontinuous double-wire grid.

Description

Construction method with modular coordination design using discontinuous double-track gratings}

The present invention relates to a construction method to which a modular coordination design is applied using a discontinuous double-line grid, and more particularly, to a discontinuous double-line grid capable of setting the positions of studs and panels by utilizing the discontinuous double-line grid in the process of designing a complex type house. It is about the construction method to which the modular coordination design using

Recently, interest in OSC (Off Side Construction) has been increasing, and steel and concrete box-type modular houses and hanok wooden houses using GLT (high-rise wooden structures) are being developed one after another through national R&D.

At this time, the OSC model for steel panel housing is relatively rare, but movements for export and development of apartment houses using steel modules as an overseas housing development model are beginning.

Here, in the case of a steel panel house, studs responsible for some axial force are applied together to ensure structural safety, but due to the studs supporting the exterior wall panel and the studs supporting the interior panel, the floor panel, exterior panel, and interior panel There is a problem that standardization is difficult.

In addition, if the design of the steel panel house is designed and derived with the same centerline dimensions as in a general conventional house, the dimensions are very complicated and the types of panels are divided into several types, making it difficult to use standard panels.

Korean Registered Patent Publication No. 10-0676070 (2007.01.30)

An object of the present invention is to provide a construction method applied with a modular coordination design using a discontinuous double wire grid that can standardize the type of panel used in a panel type house by utilizing a discontinuous double wire grid.

Another object of the present invention is to provide a construction method to which a modular coordination design is applied using a discontinuous double wire grid that can check the location of a junction between a stud and a panel by using a discontinuous double wire grid.

In order to achieve the above object, a construction method applying a modular coordination design using a discontinuous double-wire grid according to an aspect of the present invention includes setting a portion where a stud is located to a discontinuous double-wire grid; designing the size of the discontinuous double wire grid as the manufacturing size of the stud; positioning a standard-produced panel between the plurality of studs; and forming a wall while closing the top of the stud with a cap.

Electrical wiring and facility piping may be installed inside the stud before being closed with the cap.

The cap where the wall is not formed is designated as a potential location where the wall is installed in the future, and the cap may have a joint formed in a dry manner to facilitate maintenance.

The junction can clearly visualize the junction position for easy maintenance and securing durability.

The panel may be manufactured and installed in multiples of 30 cm or 10 cm in space excluding the discontinuous double wire grid.

The space excluding the discontinuous double-line grid is designed with an incremental dimension of 30 cm, and prefabricated bathrooms, system kitchens, and windows can be manufactured and produced with a constant nominal module size and standardized construction.

Modular matching is achieved while installing and constructing houses in accordance with the horizontal planning module and vertical planning module, so replacement and compatibility can be secured in the future.

According to the construction method to which the modular coordination design using the discontinuous double-line grid according to the present invention is applied, standardized construction is possible by standardizing the panel with a multiple of 30 cm or 10 cm in the space excluding the discontinuous double-line grid where the stud is located.

In addition, in the process of closing the studs forming the wall with a cap, the joint is dry treated to clearly visualize the location of the joint, thereby ensuring easy maintenance and durability.

1 is a block diagram sequentially showing a construction method to which a modular coordination design using a discontinuous double-line grid according to the present invention is applied.
Figure 2 is a plan view of a building showing a construction method to which a modular coordination design using a discontinuous double-line grid according to the present invention is applied.
Figure 3 is a horizontal module plan showing the overall plan view of the stud, cap, wall and panel construction in Figure 2;
Figure 4 is a cross-sectional view showing the construction of the stud, cap, wall and panel in Figure 2;
5 is a cross-sectional view showing the position of a potential wall in a region where studs and caps are constructed in FIG. 2;
Figure 6 is a vertical module plan showing the overall cross-sectional view of the stud, cap, wall and panel construction in Figure 2;
Figure 7 is a cross-sectional view showing a cross-sectional view of the prefabricated bathroom floor of the building constructed in Figure 6;
8 is a cross-sectional view showing a cross-section of a system kitchen ceiling among the buildings constructed in FIG. 6;

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, it goes without saying that the present invention is not limited to these embodiments and can be modified in various forms.

In the drawings, in order to clearly and concisely describe the present invention, parts not related to the description are omitted, and the same reference numerals are used for the same or extremely similar parts throughout the specification. In addition, in the drawings, the thickness, width, etc. are enlarged or reduced in order to make the description more clear, and the thickness, width, etc. of the present invention are not limited to those shown in the drawings.

And when a part in the entire specification is said to "include" another part, it does not exclude other parts unless otherwise stated, and may further include other parts.

1 is a block diagram sequentially showing a construction method to which a modular coordination design using a discontinuous double-line grid according to the present invention is applied.

As shown in FIG. 1, the construction method to which the modular coordination design using the discontinuous double-wire grid according to the present invention is applied sets the part where the stud 100 constituting the wall 300 is located to the discontinuous double-wire grid (S100 ); Designing the dimensions of the discontinuous double wire grid to the manufacturing dimensions of the stud 100 (S200); Positioning the standard-produced panel 200 between the plurality of studs 100 (S300); and forming the wall 300 while closing the top of the stud 100 with the cap 110 (S400).

2 is a plan view of a building showing a construction method to which a modular coordination design using a discontinuous double-wire grid according to the present invention is applied, and FIG. 3 is a horizontal module showing the overall plan view of studs, caps, walls and panels in FIG. 2 it's a plan

Referring to FIGS. 2 and 3, in the step of setting the discontinuous double-line grid (S100), when the building is viewed as a plane, when the stud 100 is first placed on the line where the wall 300 of the building is formed, the plane is discontinuous. It can be divided in the form of a double grid.

In the step of designing the dimensions of the discontinuous double wire grid to the manufacturing dimensions of the stud 100 (S200), when designing the manufacturing dimensions of the stud 100 disposed on the plane of the building, the dimensions of the plane divided by the discontinuous double wire grid are taken into consideration. Thus, it is possible to design the dimensions of the discontinuous double wire lattice in which the studs 100 are disposed and the double wire lattice provided between the plurality of studs 100.

In the step (S300) of positioning the standard-produced panel 200 between the plurality of studs 100, the double-wire grid formed between the plurality of studs 100, excluding the discontinuous double-wire grid designed in step S200, is placed on the panel 200. ) can be provided.

At this time, the panel 200 is manufactured in the form of a standard-produced panel 200 tailored to the space between the studs 100, so that the ease of construction can be increased. The panel 200 may be manufactured and constructed in multiples of 30 cm or 10 cm in the remaining space except for the discontinuous double-line grid set as the stud 100.

In the step of positioning the panel 200 (S300), the space excluding the discontinuous double-line grid is designed with an incremental dimension of 30 cm, and the prefabricated bathroom 21, system kitchen 22, and window 23 are manufactured and produced with a constant nominal module size. and can be standardized.

The panel 200 can form a building by assembling the prefabricated bathroom 21 and the system kitchen 22 in a space designed with incremental dimensions and providing the windows 23 along the opening of the outer wall.

Finally, in the step of forming the wall 300 while closing the top of the stud 100 with the cap 110 (S400), the stud 100 of the discontinuous double grid formed on the plane of the building and the plurality of studs 100 After constructing the panel 200 disposed therebetween, one side of the stud 100 may be closed with a cap in order to construct the wall 300 on top of the stud 100.

Before the final finishing of the stud 100 having a space inside the cap 110 with the cap 110, the electrical wiring and facility piping used in the building are placed inside the stud 100, and then the cap 110 ) to facilitate complex wiring and piping structures within the building.

The exposed cap 110a on which the wall 300 is not formed can be designated as a potential wall location 300a where the wall 300 will be installed in the future, and the exposed cap 110a will remain on the top later. A junction 120 formed in a dry manner may be provided to facilitate maintenance so that the wall 300 may be provided.

Therefore, the junction 120 is an adhesive means for closing the stud 100 and the cap 110, and the junction position can be clearly visualized to ensure easy maintenance and durability of the cap 110.

Through this, the construction method to which the modular coordination design using the discontinuous double-wire grid according to the present invention is applied can form a panel-type house using the discontinuous double-wire grid, and the ease of construction and assembly is improved by standardizing the type of panel. can be maximized.

In addition, when the wall 300 of a building is moved later while the upper part of the stud 100 is closed with the cap 110, the upper part equipped with the cap 110 can be used as a potential wall position 300a. .

In addition, since the junction 120 for joining the stud 100 and the cap 110 is provided in a dry manner, it is possible to easily manage the electrical wiring and facility piping provided inside the stud 100, and the junction 120 position can be clearly visualized, so maintenance is easy and durability can be secured.

Next, the stud 100, cap 110, and junction 120 of the construction method to which the modular coordination design using the discontinuous double wire grid according to the present invention is applied will be described in more detail.

FIG. 4 is a cross-sectional view showing a cross-sectional view of the studs, caps, walls, and panels in FIG. 2, and FIG. 5 is a cross-sectional view showing the positions of potential walls in the area where the studs and caps are constructed in FIG. 2.

Referring to FIG. 4 , since the stud 100 has a space therein and has an open top, a wall 300 may be additionally provided after finishing the top using the cap 110.

At this time, a bonding portion 120 is provided as a means for bonding the stud 100 and the cap 110, and the bonding portion 120 is dry bonded so that the stud 100 and the cap 110 can be easily maintained. .

Referring to FIG. 5 , a wall 300 may be provided at a site finished with the stud 100 and the cap 110, but the space where the wall 300 is not required is the stud 100 and the cap 110. It is joined by this junction 120 and can be provided with a panel or reinforced floor on the upper part.

Accordingly, the exposed cap 110a and the upper portion of the panel 200 may be closed by placing a panel or laminate flooring on the upper portion of the exposed cap 110a.

Here, the exposed cap 110a, which is finished with the stud 100 and the cap 110 and does not have the wall 300 on the top, will be used as a potential wall location 300a in the future repair work or structural change of the building. can Due to the potential wall position 300a, the wall 300 can be provided at any time.

Next, the vertical planning module of the construction method to which the modular coordination design using the discontinuous double-line grid according to the present invention is applied will be described in more detail.

Figure 6 is a vertical module plan showing the overall cross-sectional view of the stud, cap, wall and panel construction in Figure 2.

Referring to FIG. 6, the construction method to which the modular coordination design using the discontinuous double wire grid according to the present invention is applied installs and constructs the parts of the house according to the horizontal planning module and the vertical planning module to achieve modular matching, and future parts replacement and parts compatibility can be ensured.

7 is a cross-sectional view showing a cross-sectional view of a prefabricated bathroom floor among the buildings constructed in FIG. 6;

Referring to FIG. 7 , in the process of forming the wall 300, the prefabricated bathroom 21 may be finished with a heat insulating material, sheet waterproofing, and waterproof gypsum board or porcelain tile to design a junction of a general wall.

And, in the process of forming the floor, it is possible to design the junction of the general floor by finishing with sheet waterproofing and porcelain tile (non-slip type).

8 is a cross-sectional view showing a cross-section of a system kitchen ceiling among the buildings constructed in FIG. 6;

Referring to FIG. 8 , in the process of forming the wall 300 in the system kitchen 22 , it is possible to design the joint of the general wall by finishing with an insulation material, two layers of gypsum board, and interior wallpaper. At this time, the gypsum board may also be formed in one layer.

And, in the process of forming the ceiling, it is finished with EPS insulation, two layers of gypsum board, and ceiling paper, and the joint of the general ceiling can be designed.

The exposed cap 110a, which is the potential wall location 300a, may correspond to a potential location where the partition wall is installed when the interior partition wall is moved, and the potential wall location 300a is maintained by the junction 120. For this, it can be managed by treating it in a dry way.

In addition, the exposed cap 110a, which is the potential wall position 300a, can clearly visualize the position of the joint 120, so maintenance is easy and durability can be secured.

Through this, the construction method to which the modular coordination design using the discontinuous double-wire grid is applied can simplify the type of panel used in the panel type house due to the discontinuous double-wire grid and standardize the production.

In addition, it may be possible to utilize the space by installing electrical wiring or some facility piping in the inner space of the stud 100 and closing it with the cap 110.

In addition, the wall 300 and the discontinuous double wire lattice part of the flooring are finished using the cap 110, and the cap 110a exposed to the potential wall location 300a where the wall 300 is not installed is dry finished. It can be easily utilized in future space changes.

In the above, the construction method to which the modular coordination design using the discontinuous double wire grid according to the embodiment of the present invention has been applied has been described, but the spirit of the present invention is not limited to the embodiment presented herein. In addition, those skilled in the art who understand the spirit of the present invention may easily suggest other embodiments by adding, changing, deleting, adding, etc., components within the scope of the same spirit, but this is also within the spirit of the present invention. will say that

21: prefabricated bathroom 22: system kitchen
23: window 100: stud
110: cap 110a: exposed cap
120: junction 200: panel
300: wall 300a: potential wall location

Claims (7)

Setting a part where the stud is located as a discontinuous double wire grid;
designing the size of the discontinuous double wire grid as the manufacturing size of the stud;
positioning a standard-produced panel between the plurality of studs; and
Forming a wall while closing the top of the stud with a cap;
Before the stud is finished with the cap, electrical wiring and facility piping are installed inside,
The cap on which the wall is not formed is provided as an exposed cap designated as a potential location where the wall is installed in the future repair work or structural change of the building,
The exposed cap bears the load by providing the wall at the top at any time as the potential wall position,
The cap has a joint formed in a dry manner to facilitate maintenance,
The junction clearly visualizes the junction position for easy maintenance and securing durability,
The panel is manufactured and constructed in multiples of 30 cm or 10 cm in space excluding the discontinuous double-line grid,
In the step of locating the panel, the space excluding the discontinuous double-line grid is designed with incremental dimensions of 30 cm, and prefabricated bathrooms, system kitchens, and windows are manufactured and produced with a constant nominal module size, and standardized construction,
In the step of forming the wall, the module is matched while installing and constructing the house according to the horizontal planning module and the vertical planning module, so that future replacement and compatibility are secured,
The horizontal planning module and the vertical planning module apply the discontinuous double-line grid to the outer wall, inner wall, and floor slab of the house so that the operator checks the layout of the prefabricated bathroom and the system kitchen while working, thereby improving manufacturability and constructability. improve,
In the prefabricated bathroom, in the process of forming the wall, the joint in the form of a general wall is designed by finishing with insulation, sheet waterproof and waterproof gypsum board, and porcelain tile, and in the process of forming the floor, the sheet waterproof and non-slip type of porcelain Finishing with tiles to design the joint of the general floor,
The system kitchen is a modular coordination design using a discontinuous double-line grid, characterized in that in the process of forming the wall, the joint of the general wall is designed by finishing with the insulation material, one or more layers of the gypsum board and interior wallpaper Construction method. delete delete delete delete delete delete

Images