KR20230079564A - Structure for assembling module of modular building - Google Patents

Abstract

Disclosed is a module assembly structure for a modular building. The module assembly structure for a modular building may comprise: a space module in which an indoor space is formed, and a coupling space is installed at one side surface; an MEP module which is coupled by being inserted into the space module, includes mechanic devices, electric devices or facilities used in the indoor space, and includes an inner pipe connected to the mechanic devices, electric devices or facilities; a site module which is installed by being buried underground, and of which one side has a first connecting socket installed thereat, and the other side has a second connecting socket installed thereat, wherein one end of the first connecting socket and one end of the second connecting socket are connected by an external pipe, and a main pipe is connected to the other end of the second connecting socket; and an MEP connecting module in which an MEP socket is formed at one side surface to outwardly protrude, the MEP socket being coupled by being inserted into the coupling space of the space module, and which has a connecting pipe connected between one end of the MEP socket and the other end of the first connecting socket, the other end of the MEP socket being connected to the inner pipe. Therefore, a space module may be freely designed and fabricated.

Description

Modular assembly structure of modular building {Structure for assembling module of modular building}

The present invention relates to a module assembly structure of a modular building, and in particular, by connecting a space module and a field module using an MEP connection module, in manufacturing a modular building, the space module can be freely designed and manufactured regardless of the connection structure such as facilities. It relates to a modular assembly structure of a modular building.

In general, modular construction is a method of transporting and assembling a three-dimensional box-shaped module unit manufactured and assembled in a factory to a site. The module unit includes electrical and mechanical equipment, interior and exterior materials including windows and doors, flooring materials, ceiling materials, bathroom and kitchen equipment, and the like. Accordingly, more than 90% of buildings are completed in factories.

Modular buildings using the modular construction method are completed by assembling each module unit manufactured in the factory up and down, front and rear, and left and right at the site. The modular building is widely applied to various types of buildings in recent years because it has the effect of reducing costs through shortening the construction period during on-site construction due to the improvement of quality through factory production and easy assembly and disassembly.

These modular buildings mainly produce indoor spaces where people live or live. In manufacturing modules including indoor spaces, facilities and piping must be removed to a predetermined location, so you can freely create modules including indoor spaces. There are problems that are difficult to design and manufacture. In addition, since facilities and piping, etc. are manufactured and delivered at the factory in a fixed state to the module including the indoor space, the user wants to move the facility, piping, etc. However, when connecting pipes, etc., there is a problem in that it is difficult to connect at a desired location. In addition, in order for people to live in the indoor space by delivering the module including the indoor space, there is a hassle that a separate expert must come and work for the installation of piping, electric lines, communication lines, and the like. For example, in the case of fabricating and assembling a one-story or two-story house as a modular building, the sewage and water pipes of the house must be connected to the sewage and water pipes buried in the surrounding ground, and electric and communication lines must also be connected separately from the surroundings. Since it is necessary to follow and connect with electric lines and communication lines in the house, there is a problem that separate facility construction must be done in order for people to actually live even if the module is manufactured and transported.

The problem to be solved by the present invention is module assembly of a modular building that can freely design and manufacture a space module regardless of the connection structure of facilities in manufacturing a modular building by connecting a space module and a field module using an MEP connection module. to provide structure.

A module assembly structure of a modular building according to an embodiment of the present invention for achieving the above object is a space module in which an indoor space is formed and a coupling space is installed on one side, and is inserted into the interior of the space module. MEP module, which is combined and includes mechanical devices, electrical devices, or facilities used in the indoor space, and has internal piping connected to the mechanical devices, electrical devices, or facilities, is installed and buried in the basement, and is installed on one side. A first connection socket is installed and a second connection socket is installed on the other side, one end of the first connection socket and one end of the second connection socket are connected by an external pipe, and a main pipe is connected to the other end of the second connection socket. A connected field module and an MEP socket protruding outward are formed on one side thereof, the MEP socket is inserted into and coupled to the coupling space of the space module, and between one end of the MEP socket and the other end of the first connection socket and a connection pipe connected to the MEP socket, and an MEP connection module to which the inner pipe is connected may be provided at the other end of the MEP socket.

The other end of the MEP socket may have a structure in which the inner pipe can be assembled or separated, and the other end of the first connection socket may have a structure in which the connection pipe can be assembled or separated.

One end of the MEP socket has a structure in which the connection pipe can be assembled or separated, one end of the first connection socket has a structure in which the external pipe can be assembled or separated, and one end of the second connection socket has a structure in which the external pipe can be assembled or separated. The external pipe may have a structure that can be assembled or separated, and the other end of the second connection socket may have a structure that can be assembled or separated in connection with the main pipe.

The coupling space is a through hole formed on one side of the space module, and the MEP socket of the MEP connection module is inserted into the coupling space so that the other end of the MEP socket can protrude inside the space module.

The field module is formed by protruding the first connection socket to the ground, and a connection pipe connected to the MEP socket may be coupled to the first connection socket protruding to the ground.

Each of the internal pipe, the external pipe, and the connection pipe may include at least one of a water supply pipe, a sewage pipe, a sewage pipe, a cooling/heating pipe, an electric pipe, and a communication pipe.

The module assembly structure of a modular building according to an embodiment according to the technical idea of the present invention can combine a space module including a space where people live or live and a field module installed underground using an MEP connection module. It has the advantage of being able to easily connect and use the piping between the space module and the field module (for example, water supply piping, sewage piping, sewage piping, heating/cooling piping, electrical piping, communication piping, etc.). For example, if a field module including water and sewage, electric lines, and communication lines is installed underground, and a space module including a space where people live or live is manufactured and delivered in a factory, there is a gap between the space module and the field module at the site. By connecting only the MEP connection module, you can easily connect and use pipes, electric lines, and communication lines. Furthermore, since the MEP connection module has a socket-type MEP socket, and the MEP socket is inserted into the coupling space of the space module and combined, simply inserting the internal piping connected to the MEP module in the space module into the MEP socket provides water, electricity, communication, etc. It can be connected directly, so it is easy to connect. In addition, even if you want to move the location of the space module, separate the internal piping connected to the MEP socket, separate the space module and the MEP connection module, move it, combine the MEP connection module with the space module again, and connect the MEP connection module to the MEP socket. Since it can be used immediately after connecting the pipe, there is also an advantage that the space module can be easily moved to the desired location and used. Similarly, since the first connection socket of the field module also has a socket structure, the connection pipe connected to the MEP socket has the advantage of being easily assembled and disassembled to the first connection socket of the field module. In addition, even when the location of the space module is moved, if the connection pipe connected to the MEP socket is inserted into the first connection socket of another nearby field module, the internal pipe can be directly connected to the external pipe, thereby enabling easy assembly and disassembly. In addition, the MEP module, which includes mechanical devices, electrical devices, and plumbing, can be prefabricated inside the space module, so if you want to change the bathroom or kitchen, simply separate the MEP module and then combine another MEP module to make the bathroom simple. However, there are advantages to changing the kitchen.

In order to more fully understand the drawings cited in the detailed description of the present invention, a brief description of each drawing is provided.
1 is an exploded perspective view of a modular assembly structure of a modular building according to an embodiment according to the technical idea of the present invention.
FIG. 2 is a diagram showing an embodiment of an MEP module among module assembly structures of the modular building of FIG. 1 .
FIG. 3 is a view showing an embodiment of an MEP connection module among module assembly structures of the modular building of FIG. 1 .
FIG. 4 is a view for explaining a case in which an MEP connection module is coupled to a space module among module assembly structures of the modular building of FIG. 1 .
Figure 5 is a view showing an embodiment of a field module of the module assembly structure of the modular building of Figure 1.

In order to fully understand the present invention and its operational advantages and objectives achieved by the practice of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the description in the drawings.

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like elements.

1 is an exploded perspective view of a module assembly structure 100 of a modular building according to an embodiment according to the technical idea of the present invention, and FIG. 2 is an MEP module (of the module assembly structure 100 of the modular building of FIG. 1) 120) is a diagram showing an embodiment. FIG. 3 is a view showing an embodiment of the MEP connection module 130 of the module assembly structure 100 of the modular building of FIG. 1, and FIG. 4 is a view of the module assembly structure 100 of the modular building of FIG. It is a view for explaining the case where the MEP connection module 130 is coupled to the space module 110, and FIG. 5 shows one embodiment of the field module 140 among the module assembly structure 100 of the modular building of FIG. It is an illustrated drawing.

1 to 5, the module assembly structure 100 of the modular building may include a space module 110, an MEP module 120, an MEP connection module 130, and a field module 140.

The space module 110 may have an indoor space formed therein, and a coupling space 410 installed on one side thereof. The indoor space may be a space where people live or live, and may include, for example, a living room and a room in the case of a house, and may be a work space and a coffee space in the case of an office or cafe. The coupling space 410 may have the shape of a through hole penetrating one side surface (wall surface) of the space module 110, or may have the shape of a groove formed on one side surface (wall surface) of the space module 110.

The MEP module 120 may be inserted into and coupled to the space module 110 . The MEP module 120 may include mechanical devices, electrical devices, or facilities, and internal pipes may be connected to the mechanical devices, electrical devices, or facilities. The internal pipe may include at least one of a water supply pipe 210, a sewage pipe 220, a sewage pipe 230, a cooling/heating pipe 240, a communication pipe, and an electric pipe. 2 shows a communication terminal box 250 connected to a communication pipe and an electrical distribution board 260 connected to an electrical pipe. For example, the upper pipe 210 and the sewage pipe 220 are connected to the sink inside the MEP module 120, and the water supply pipe 210 and the sewage pipe 230 are connected to the toilet inside the MEP module 120. This is connected, and the heating and cooling pipe 240 may be connected to the air-conditioning device inside the MEP module 120. In addition, an electrical pipe may be connected to an outlet inside the MEP module 120, and a communication pipe may be connected to an Internet terminal inside the MEP module 120.

The MEP module 120 may include a space used as a toilet, kitchen, or bathroom. For example, as shown in FIG. 2, the MEP module 120 has a toilet (including a shower, sink, toilet, etc.) on one side and kitchen facilities (sink, etc.) on the other side, and supplies water through the pipe. It is supplied and sewage or manure can be discharged to the outside.

The field module 140 may be installed by being buried underground, and a first connection socket 510 may be installed on one side and a second connection socket 520 may be installed on the other side. In addition, one end of the first connection socket 510 and one end of the second connection socket 520 are connected to an external pipe, and the other end of the second connection socket 520 may be connected to a main pipe.

The main pipe may be a pipe buried underground connected to a water purification plant or connected to a sewage treatment plant, an electric line connected to a power transmission line transmitted by KEPCO, etc. to receive electricity, a communication line for telephone, Internet, and the like. The main pipe may be buried underground, or in the case of a transmission line connected to a transmission tower, it may be installed on the ground. The main pipe may include all types of pipes that can be connected to receive water supply, discharge sewage or sewage, or use electricity or the Internet.

Like the internal pipe, the external pipe may include at least one of a water supply pipe, a sewage pipe, a sewage pipe, a cooling/heating pipe, a communication pipe, and an electric pipe. And the external pipe may be connected between the first connection socket 510 and the second connection socket 520 of the field module 140. Also, although not shown in the drawings, the second connection socket 520 may be directly connected to the main pipe or may be connected through a separate pipe.

The first connection socket 510 formed in the field module 140 may be formed to protrude to the ground. However, the first connection socket 510 does not always have to protrude to the ground, and as described below, if it can be connected to the MEP connection module 130 through a connection wire, it may be installed underground. For example, if a lid is formed on the top of the first connection socket 510 of the field module 140, and the lid can be opened and connected to the connection wire of the MEP connection module 130, the first connection socket 510 It is free even if it does not protrude to the ground. The field module 140 may include a sewage receiver and may include various other devices as needed. That is, the field module 140 does not have to have the same shape as shown in FIG. 7 and can supply water, hot water, heating, electricity, internet, telephone, etc. to the space module 110 or sewage, sewage, It can have a different structure if it can receive manure, etc.

The MEP connection module 130 has an MEP socket 420 protruding outward on one side thereof, and the MEP socket 420 can be inserted into the coupling space 410 of the space module 110 and coupled thereto. Also, a connection pipe (not shown) may be connected between one end of the MEP socket 420 and the other end of the first connection socket 510 of the field module 140 . In addition, the inner pipe may be connected to the other end of the MEP socket 420 .

When the coupling space 410 has the shape of a through hole penetrating one side (wall surface) of the space module 110, the MEP socket 420 can be inserted into the coupling space 410 and fitted into the coupling space 410. there is. In this case, the other end of the MEP socket 420 may protrude into the space module 110 . As another example, when the coupling space 410 has the shape of a groove formed on one side (wall surface) of the space module 110, similarly, the MEP socket 420 is inserted into the coupling space 410 to form a coupling space 410. In this case, at least one through-hole is formed inside the coupling space 410, and the terminal part of the MEP socket 420 into which the internal pipe is inserted is the space module 110 through the through-hole. It can protrude on the inside.

By assembling the internal pipe to the terminal portion of the MEP socket 420 protruding from the inside of the space module 110, the internal pipe and the MEP socket 420 can be connected. In addition, since the connection pipe is coupled to the other end of the MEP socket 420, when the inner pipe and the MEP socket 420 are connected, the inner pipe and the connection pipe are connected. Since the connecting pipe is connected to the first connecting socket 510, the inner pipe is connected to the main pipe through the connecting pipe and the outer pipe. The connection pipe may include at least one of a water supply pipe, a sewage pipe, a sewage pipe, a cooling/heating pipe, a communication pipe, and an electric pipe, similarly to the internal pipe or the external pipe.

As the MEP socket 420 is coupled to the coupling space 410 , the MEP connection module 130 may be coupled and fixed while closely adhering to the outer surface of the space module 110 . For example, one side of the MEP connection module 130 may be coupled to one side of the space module 110 and a lower surface of the MEP connection module 130 may be coupled to an upper surface of the field module 140 . The MEP connection module 130 may include at least one of an outdoor unit, an electric outlet, and an electric meter box.

The other end of the MEP socket 420 may have a structure in which the inner pipe may be assembled or separated, and the other end of the first connection socket 510 may have a structure in which the connection pipe may be assembled or separated. Therefore, when moving the space module 110, the internal pipe is separated from the MEP socket 420 and the connection pipe is separated from the first connection socket 510, and the space module 110 and the MEP connection module 130 are separated. It can be easily moved by separating and moving each. In addition, even when reassembling, the MEP socket 420 of the MEP connection module 130 is connected to the coupling space 410 of the space module 110, and the internal pipe is connected to the MEP socket 420 and the connection is made. By connecting the pipe to the first connection socket 510 of the field module in the moved position, it can be easily assembled and used again.

Similarly, one end of the MEP socket 420 has a structure in which the connection pipe can be assembled or separated, one end of the first connection socket 510 has a structure in which the external pipe can be assembled or separated, and the second One end of the connection socket 520 may have a structure in which the external pipe can be assembled or separated, and the other end of the second connection socket 520 may have a structure in which it can be assembled or separated in connection with the main pipe. .

As described above, the optimum embodiment has been disclosed in the drawings and specifications. Although specific terms have been used herein, they are only used for the purpose of describing the present invention and are not used to limit the scope of the present invention described in the claims or defining the meaning. Therefore, those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

Claims (10)

A space module in which an indoor space is formed and a coupling space is installed on one side;
an MEP module inserted into and coupled to the interior of the space module, including mechanical devices, electrical devices, or facilities used in the indoor space, and having internal piping connected to the mechanical devices, electrical devices, or facilities;
It is buried and installed underground, a first connection socket is installed on one side and a second connection socket is installed on the other side, one end of the first connection socket and one end of the second connection socket are connected by an external pipe, and the 2 Field module to which the main pipe is connected to the other end of the connection socket; and
A MEP socket protruding outward is formed on one side, the MEP socket is inserted into and coupled to the coupling space of the space module, and a connection pipe connected between one end of the MEP socket and the other end of the first connection socket and a module assembly structure of a modular building, characterized in that a MEP connection module to which the internal pipe is connected is provided at the other end of the MEP socket. According to claim 1,
The other end of the MEP socket has a structure in which the internal pipe can be assembled or separated, and the other end of the first connection socket has a structure in which the connection pipe can be assembled or separated. assembly structure. According to claim 1,
One end of the MEP socket has a structure in which the connection pipe can be assembled or separated, one end of the first connection socket has a structure in which the external pipe can be assembled or separated, and one end of the second connection socket has a structure in which the external pipe can be assembled or separated. The modular assembly structure of a modular building, characterized in that the external pipe has a structure that can be assembled or separated, and the other end of the second connection socket has a structure that can be assembled or separated in connection with the main pipe. The method of claim 1, wherein the coupling space,
A through hole formed on one side of the space module,
The module assembly structure of a modular building, characterized in that the MEP socket of the MEP connection module is inserted into the coupling space so that the other end of the MEP socket protrudes inside the space module. The method of claim 1, wherein the field module,
The module assembly structure of a modular building, characterized in that the first connection socket is formed protruding to the ground and a connection pipe connected to the MEP socket is coupled to the first connection socket protruding to the ground. The method of claim 1, wherein the inner pipe, the outer pipe and the connection pipe,
A modular assembly structure of a modular building, comprising at least one of water supply piping, sewage piping, sewage piping, heating and cooling piping, electric piping, and communication piping. The method of claim 1, wherein the MEP module,
A modular assembly structure of a modular building, characterized in that it includes the mechanical device, electrical device or equipment in a space used as a toilet, kitchen or bathroom. According to claim 1,
A module assembly structure of a modular building, characterized in that one side of the MEP connection module is coupled to one side of the space module and a lower surface of the MEP connection module is coupled to an upper surface of the field module. According to claim 1,
The module assembly structure of a modular building, characterized in that the space module is coupled to the ground to be movable. The method of claim 1, wherein the MEP connection module,
Including at least one of an outdoor unit, an electric outlet, and an electric meter box,
The field module,
Modular assembly structure of a modular building, characterized in that it comprises a sewage inlet.

Images