KR102031675B1 - A method of setting connection between unit modules for standardizing design of modular housing - Google Patents

Abstract

According to an aspect of the present invention, a method of setting a joint between unit modules for design standardization of a modular housing includes a first step of setting an assembly reference plane in an internal space of a unit module, and spaced apart from the set reference plane by adding a predetermined dimension A second step of setting a pillar center line at an intersection point of an imaginary line, a third step of setting a docking line at a center line of another unit module joined to the unit module, and a first dimension between the assembly reference plane and the pillar center line A fourth step of setting, a fifth step of making a second dimension between the pillar center line and the docking line, and a sixth step of setting a joint between the unit modules by adding the first dimension and the second dimension. have.

Description

A method of setting connection between unit modules for standardizing design of modular housing

The present invention relates to a method for setting the joints between the unit modules for standardization of the design of the modular housing, and more particularly to a method for setting the joints between the unit modules for standardizing the design of the modular housing that can maintain the joints between the unit modules at a constant module dimensions. It is about.

At present, there is a problem in that the dimensions of the modular housing are always changed in each project due to the lack of design standardization standards.

And even if it is determined as a certain dimension, the technical dimension of each company is different, and the dimension of the module is changed according to the project and the designer.

In particular, since the dimension of the column junction where the module meets the module is the technical dimension, when the actual plan is to include the column junction inside the chamber, that is, the effective effective dimension composed of a plurality of modules is the module dimension (30 cm or 10 cm). The problem arises that it is difficult to maintain.

Therefore, it is necessary to design a technology that can maintain the dimensions of the column joints, which must be different for each technology and project, with a constant module dimension, and maintain the dimensions of the space with a drainage system of constant dimensions.

Republic of Korea Patent No. 10-0676070 (2007.01.30)

The present invention has been made to solve the above problems, an object of the present invention is to provide a method for setting the joints between the unit modules for the standardization of the design of the modular housing that can maintain the dimensions of the column joints to a constant module dimensions. .

In addition, the present invention provides a method for setting joints between unit modules for design standardization of a modular house that can maintain a dimension of a space in a drainage system having a constant dimension.

In addition, the present invention provides a method for setting joints between unit modules for design standardization of modular houses that can maintain overall dimensions in multiples of a constant dimension.

According to an embodiment of the present invention, a method of setting a junction between unit modules for design standardization of a modular housing according to an embodiment of the present invention includes a first step of setting an assembly reference plane in an internal space of a unit module, and the assembly reference plane set. A second step of setting a pillar center line at an intersection point of the imaginary line and the pillar center line spaced apart from the dimension by a predetermined dimension from the third step; and a third step of setting a docking line at the center line of another unit module joined to the unit module A fourth step of setting a first dimension between the assembly reference plane and the pillar center line, a fifth step of performing a second dimension between the pillar center line and the docking line, and adding the first dimension and the second dimension to the unit A sixth step of setting the junction between the modules may be provided.

The first dimension may be a dimension obtained by adding a half of the column cross-sectional dimension, the fireproof finish dimension and the adjustment dimension.

The second dimension may be a dimension obtained by adding a half of a gap between a joint portion between a pair of unit modules joined to one half of a column cross-sectional dimension.

The assembly reference surface may increase in increments of 300 mm.

After the sixth step, it may further comprise the step of setting the interior of the junction between the unit module to an increment of 100mm.

An auxiliary assembly reference plane may be formed inside the junction between the unit modules.

According to the method of setting the joints between the unit modules for the standardization of the design of the modular housing according to the present invention, it is possible to maintain the dimensions of the column joints at a constant module dimension.

In addition, the dimensions of the space can be maintained in a drainage system of a constant dimension.

It is also possible to maintain the overall dimensions in multiples of a constant dimension.

1 is a flow chart of a method for establishing a joint between unit modules for standardizing the design of a modular housing according to an embodiment of the present invention.
Figure 2 is a plan view for explaining a method for setting the junction between the unit module for the standardization of the design of the modular housing according to an embodiment of the present invention.
3 and 4 are enlarged plan views of portion A shown in FIG.
5 is a plan view when the joint between the unit modules is set to 400 mm.

Hereinafter, with reference to the accompanying drawings will be described in detail a method of setting the junction between the unit module for standardizing the design of the modular housing according to an embodiment of the present invention.

1 is a flowchart of a method for setting a junction between unit modules for design standardization of a modular housing according to an embodiment of the present invention, and FIG. 2 is a junction between unit modules for design standardization of a modular housing according to an embodiment of the present invention. 3 and 4 are enlarged plan views of portion A shown in FIG. 2.

As shown in Figure 1 to 4, the method for setting the joint 100 between the unit module for standardizing the design of the modular housing according to an embodiment of the present invention, the incremental dimension of the joint 100 between the unit module, that is, 100mm This is to maintain the dimensions of the junction portion 100 between the unit modules that must be different by technology and project by setting to be a multiple of 100mm to a certain module dimensions.

To this end, the method of setting the joints 100 between the unit modules for the standardization of the design of the modular housing according to an embodiment of the present invention comprises the first step (S110) of setting the assembly reference plane 11 in the internal space of the unit module 10. ) May be provided.

The assembly reference plane 11 is a reference line expressing the position and area of the structure, the material, and the parts constituting the building on the plane and the cross-section. The size of the assembly reference plane 11 is increased by an increment of 300 mm to fit a constant drainage system. Is set.

In the case of the short side of the assembly reference surface 11, it is to be increased in increments of 900mm to 300mm in principle, and the maximum is 3000mm. In the case of long side, it should be increased by 2,100mm to 300mm incremental dimension.

In this way, by increasing the assembly reference surface 11 in increments of 300 mm, it is possible to provide a foundation for constructing a standard product while maintaining the priority dimensions of various materials and parts to be constructed in the effective dimension of the seal.

On the other hand, after the first step (S110) of setting the assembly reference surface 11 in the inner space of the unit module 10 at the intersection of the virtual line and the column center spaced apart from the set assembly reference surface 11 plus a certain dimension. The second step (S120) of setting the pillar center line 200 and the third step (S130) of setting the docking line 300 on the center line of another unit module 10 to be bonded to the unit module 10 Can be.

The second step S120 and the third step S130 may be performed in a state where the plurality of unit modules 10 are horizontally bonded and the pillars 20 of the plurality of unit modules 10 are in contact with each other. have.

After setting the pillar center line 200 and the docking line 300 through the second step (S120) and the third step (S130), the first dimension 400 between the assembly reference plane 11 and the pillar center line 200. Step 4 of setting the step S140, step 5 of the second dimension 500 between the pillar center line 200 and the docking line 300, step S150, the first dimension 400 and the second dimension 500 In addition, a sixth step S160 of establishing a junction 100 between the unit modules may be provided.

The first dimension 400 in the fourth step S140 is a dimension obtained by adding a predetermined dimension from the assembly reference plane 11 in the second step S120, and the equation for obtaining the first dimension 400 is as follows.

1st dimension 400 = 1/2 of columnar cross section dimension (L1) + fireproof finish dimension (L2) + adjustment dimension (L3)

Herein, the adjustment dimension L3 refers to a dimension for making an incremental dimension of 100 mm. The equation for obtaining the second dimension 500 between the pillar center line 200 and the docking line 300 is as follows.

Second dimension 500 = 1/2 of column cross-sectional dimension L1 + 1/2 of junction gap value L4 between the pair of unit modules 10 to be joined

As such, by designing the docking line 300 at the design stage and configuring a dimension between the docking line 300 and the unit module 100 and the assembly reference plane 11, the design standardization can be established. .

In addition, by standardizing the joints 100 between the unit modules, when the generation is formed by the combination of the unit modules 10, the joints 100 between the unit modules included in the internal space may be incrementally dimensioned to 100 mm.

Therefore, as the effective effective width dimension can be set to an incremental dimension of 300 mm, it becomes possible to apply the material priority dimension of the interior material to be constructed thereon.

Accordingly, it is possible to design the dimensions of the joint 100 between the internal view dimensions of each unit module 10 constituting the modular housing and the variable unit module to 300mm or 100mm, so that even if the project is different from any other company, Constant standardization is possible.

In addition, it is possible to provide a technical foundation for producing and constructing interior parts as well as exterior materials to a certain dimension, so that the structure, interior materials, and exterior materials can be designed to a certain module dimension.

5 is a top view when the junction part between unit modules is set to 400 mm.

As shown in FIG. 5, an auxiliary assembly reference plane 110 may be formed inside the junction 100 between the unit modules.

In particular, when the joint 100 between the unit modules is set to 400mm, the interior of the joint 100 between the unit modules may be divided into four 100mm incremental dimensions.

Therefore, three auxiliary assembly reference planes 110 may be formed in the interior of the joint 100 between the unit modules divided by an incremental dimension of 100 mm.

As such, three auxiliary assembly reference planes 110 divided by 100 mm increments are formed at the junctions 100 between the unit modules, and thus, the main components of the modular house, that is, dimensions of each side of the living room, bedroom, kitchen, toilet, and the like. Even if it is difficult to apply with an incremental dimension of 300mm, the size of each side of the main configuration of the modular housing can be easily applied by using the 100mm incremental dimension of the auxiliary assembly reference plane (100).

For example, when a main configuration of a modular house such as a living room or a bedroom is installed on the left side of the junction 100 between the unit modules in a plane, as shown in FIG. It is possible to easily install the inner wall of 200mm in accordance with the auxiliary assembly reference plane 110 formed on the left side of 100).

And when the main configuration of the modular housing such as living room, bedroom is installed on the left and right sides of the center of the junction portion 100 between the unit modules on the plane, as shown in Figure 5 (b), of the junction portion 100 between the unit modules The inner wall of 200 mm can be easily installed in accordance with the auxiliary assembly reference surface 100 formed in the center.

In addition, when the main configuration of the modular house, such as living room, bedroom is installed on the right side around the junction portion 100 between the unit modules in the plane, as shown in Fig. 5 (c), the junction portion between the unit modules relatively (100) In accordance with the auxiliary assembly reference surface 110 formed on the right side of the 200mm can be easily installed.

In the present embodiment, the junction part 100 between the unit modules has been set to 400mm, but the junction part 100 between the unit modules may be set to a size other than 400mm, accordingly, the number of the auxiliary assembly reference plane 100 May increase or decrease.

In the above described the method of setting the junction between the unit module for the standardization of the design of the modular housing according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiment presented herein. And those skilled in the art to understand the spirit of the present invention can easily suggest other embodiments by the addition, modification, deletion, addition, etc. within the scope of the same idea, but this also falls within the scope of the invention will be.

10: unit module 11: assembly reference plane
20: pillar 30: inner wall
100: connection between the unit module 200: pillar center line
300: docking line 400: first dimension
500: second dimension

Claims (6)

A first step of setting an assembly reference plane in the inner space of the unit module,
A second step of setting a pillar center line at an intersection point between the imaginary line and the pillar center spaced apart from the set assembly reference plane by adding a predetermined dimension;
A third step of setting a docking line on a center line of another unit module joined to the unit module;
A fourth step of setting a first dimension between the assembly reference plane and the pillar center line;
A fifth step of setting a second dimension between the pillar center line and the docking line;
A sixth step of establishing a joint between the unit modules by adding the first dimension and the second dimension;
The first dimension is a dimension plus one half of the column cross-sectional dimension, the fire-resistant finish dimension and the adjustment dimension,
The second dimension is a dimension obtained by adding a half of the gap between the joint portions of the pair of unit modules joined to one half of the column cross-sectional dimension,
The assembly reference surface is increased in increments of 300 mm,
After the sixth step, further comprising the step of setting the interior of the junction between the unit module to an increment of 100mm,
A method of setting a joint between unit modules for design standardization of a modular house, characterized in that the auxiliary assembly reference plane is formed inside the joint between the unit modules. delete delete delete delete delete