KR102600984B1 - Module for construction, module assebly for construction including the same and methof for manufacturing module assebly for construction - Google Patents

Abstract

The present invention relates to an architectural module, an architectural module assembly including the same, and a method of manufacturing the architectural module assembly. Specifically, according to one embodiment of the present invention, a pillar portion including a body extending in the vertical direction and a fireproof member surrounding the body so that the body is fireproofed; A lower beam supporting the lower part of the pillar portion and including a concrete material; and an upper beam extending in a horizontal direction and supported on an upper part of the pillar part, wherein the upper beam supports a load less than that of the pillar part, and does not include the fireproof member. A building module may be provided.

Description

Architectural module, architectural module assembly including the same, and method of manufacturing the architectural module assembly {MODULE FOR CONSTRUCTION, MODULE ASSEBLY FOR CONSTRUCTION INCLUDING THE SAME AND METHOF FOR MANUFACTURING MODULE ASSEBLY FOR CONSTRUCTION}

The present invention relates to an architectural module, an architectural module assembly including the same, and a method of manufacturing the architectural module assembly.

In general, a modular building refers to a building that is constructed by pre-fabricating the building in a factory, transporting it to the construction site, and installing a plurality of transported modules on site, rather than manufacturing the building on site.

In these modular buildings, pre-manufactured building modules have a certain shape and standard, so it is easy to stack and assemble multiple modules on site and maintain a certain quality. In addition, buildings constructed using the modular method can minimize the amount of on-site construction, shortening the construction period and ensuring convenience of construction and work safety.

Meanwhile, all buildings must be designed to have a certain fire resistance performance according to the fire resistance structure standards of building regulations, and this also applies to modular buildings. In the case of conventional modular buildings, the building had fire resistance performance by applying a method of wrapping gypsum board around architectural modules.

However, in conventional modular buildings, as architectural modules are stacked, the upper part of the lower building module and the lower part of the upper building module are wrapped with gypsum board and treated as fireproof. Because of this, some of the architectural modules could not be wrapped with gypsum board in advance at the factory, but had to be wrapped with gypsum board after stacking the architectural modules on site. In addition, the process time required to complete modular buildings on site was delayed, and the cost of materials to secure fire resistance increased.

Therefore, there is a need for an architectural module that can reduce process time and cost by minimizing the on-site construction process while ensuring the fire resistance performance of modular buildings.

One embodiment of the present invention was invented with the above background in mind, and aims to provide an architectural module that can minimize the on-site construction process while ensuring fire resistance performance of modular buildings.

Additionally, an embodiment of the present invention seeks to provide a construction module that can reduce process time and cost.

According to one aspect of the present invention, a pillar portion including a body extending in a vertical direction and a fireproof member surrounding the body so that the body is fireproofed; A lower beam supporting the lower part of the pillar portion and including a concrete material; and an upper beam extending in a horizontal direction and supported on an upper part of the pillar part, wherein the upper beam supports a load less than that of the pillar part, and does not include the fireproof member. A building module may be provided.

In addition, the upper beam may be provided as a building module supported on the side of the body at a position spaced a predetermined distance downward from the upper end of the body.

In addition, a receiving hole is formed in the fireproof member from one end, and the upper beam is supported on the body while being inserted into the receiving hole of the fireproof member. A building module may be provided.

In addition, a construction module may be provided in which the fireproof member is configured to overlap in the horizontal direction with at least a portion surrounding the body.

In addition, it supports the lower beam and further includes a fireproof board coated with fireproofing, wherein the lower beam includes a slab including the concrete material; and a channel surrounding at least a portion of the slab, wherein the fireproof board is provided to surround the bottom of the channel at a lower side of the channel.

Additionally, the side of the channel may be provided with a construction module that is fire-resistant and spray-painted to have fire-resistant performance.

Additionally, the slab may include a slab body engaged with the channel; and a protrusion protruding from the slab body so that the surface is continuous with the upper and lower surfaces of the channel.

In addition, it includes a plurality of building modules, wherein the building modules include a pillar portion including a body extending in a vertical direction and a fireproof member surrounding the body so that the body is fireproofed; A lower beam supporting the lower part of the pillar portion and including a concrete material; and an upper beam extending in a horizontal direction and supported on an upper part of the pillar part, wherein the upper beam supports a load less than that of the pillar part, and does not include the fireproof member. A building module assembly may be provided.

In addition, it supports the lower beam and further includes a fireproof board that has been treated with fireproofing, and the plurality of building modules are spaced apart so that adjacent parts have a predetermined gap in the horizontal direction, and the fireproof board is between the adjacent parts. A building module assembly may be provided, provided to surround the bottom surface of the adjacent portion of the underbeam to seal the gap.

In addition, the lower beam includes a slab containing the concrete material; and a channel surrounding at least a portion of the slab, wherein the fireproof board is provided to surround the bottom of the channel from a lower side of the channel.

Additionally, the slab may include a slab body engaged with the channel; And a construction module assembly may be provided, including a protrusion protruding from the slab body such that the surface is continuous with the upper and lower surfaces of the channel.

In addition, it supports the lower beam and further includes a fireproof board that has been fireproofed, wherein at least some of the plurality of building modules are arranged in a vertical direction, and the fireproof board is located on the bottom of any one of the plurality of building modules. A construction module assembly may be provided, which is provided to surround the upper surface of one of the plurality of construction modules and the upper surface of the other upper beam adjacent to the lower side.

In addition, at least some of the plurality of building modules are arranged horizontally to each other, and the pillar portion is one pillar part of the plurality of building modules, and another pillar part is horizontally adjacent to one of the plurality of building modules. An architectural module assembly may be provided, configured so that one side facing the pillar portion is not fire-resistant.

Additionally, providing a lower beam including a concrete material; Providing a pillar portion including a body extending in the vertical direction and a fireproof member surrounding the body so that the body is fireproofed; And a step of providing an upper beam not including the fireproof member, wherein the step of providing the upper beam connects the upper beam to the column portion so that the upper beam supports less load than the column portion, manufacturing a module assembly for construction. A method may be provided.

In addition, the step of providing the upper beam may include providing the upper beam to be supported on the side of the body at a position spaced a predetermined distance downward from the upper end of the body.

In addition, the step of providing the upper beam may include providing the upper beam to be supported on the body while being inserted into a receiving hole introduced from one end of the fireproof member.

In addition, the step of providing the pillar portion may include providing the pillar portion so that at least a portion of the fireproof member surrounds the body and overlaps in the horizontal direction.

In addition, a method of manufacturing a building module assembly may be provided, further comprising providing a fire-resistant board coated with fire spray to surround the bottom surface of the lower beam on the lower side of the lower beam.

One embodiment of the present invention has the effect of minimizing the on-site construction process while improving the fire resistance performance of modular buildings.

Additionally, an embodiment of the present invention has the effect of reducing process time and cost.

1 is a perspective view showing a building module assembly according to an embodiment of the present invention.
Figure 2 is a perspective view of the building module of Figure 1.
Figure 3 is a cross-sectional view taken along line A-A' of Figure 2.
Figure 4 is an enlarged view of B in Figure 3.
Figure 5 is a partial enlarged view of the connection between the upper beam and the column part of Figure 1.
Figure 6 is a longitudinal cross-sectional view of two architectural modules connected in the horizontal direction.
Figure 7 is an enlarged view of C in Figure 6.
Figure 8 is a flowchart sequentially showing a method of manufacturing a building module assembly according to an embodiment of the present invention.
Figure 9 is a flowchart sequentially showing the building module provision steps of Figure 8.

Hereinafter, specific embodiments for implementing the technical idea of the present invention will be described in detail with reference to the drawings.

In addition, when describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

In addition, when a component is mentioned as being 'supported', 'connected', or 'fastened' to another component, it is understood that it may be directly supported, connected, or fastened to the other component, but that other components may exist in the middle. It should be.

The terms used in this specification are merely used to describe specific embodiments and are not intended to limit the invention. Singular expressions include plural expressions unless the context clearly dictates otherwise.

Additionally, terms including ordinal numbers, such as first, second, etc., may be used to describe various components, but the components are not limited by these terms. These terms are used only to distinguish one component from another.

As used in the specification, the meaning of "comprising" is to specify a specific characteristic, area, integer, step, operation, element and/or component, and to specify another specific property, area, integer, step, operation, element, component and/or group. It does not exclude the existence or addition of .

In addition, it should be noted in advance that expressions for directions such as top and bottom in this specification are explained based on the drawings, and may be expressed differently if the direction of the object in question is changed. Meanwhile, the vertical and horizontal directions in this specification may be the vertical and horizontal directions in FIGS. 1 and 2. Additionally, the horizontal direction may be perpendicular to the vertical direction.

Hereinafter, the specific configuration of the building module assembly 1 according to an embodiment of the present invention will be described with reference to the drawings.

Hereinafter, referring to FIG. 1, the architectural module assembly 1 according to an embodiment of the present invention can be used to construct a modular building. This architectural module assembly 1 can be equipped with fire resistance performance in preparation for the occurrence of fire.

In addition, the architectural module assembly 1 includes a plurality of architectural modules 10, and the plurality of architectural modules 10 may be connected to each other to form the architectural module assembly 1. For example, the plurality of building modules 10 may be arranged horizontally from one another, and portions adjacent to each other in the horizontal direction may be spaced apart from each other with a predetermined gap. Additionally, the plurality of building modules 10 may be arranged with each other in the vertical direction, and the building module 10 placed on the lower side may support the other building module 10 placed on the upper side. In this way, the architectural module assembly 1 can be formed by arranging a plurality of building modules 10 in the vertical and horizontal directions.

A plurality of building modules 10 may be provided, and the plurality of building modules 10 may be connected to each other in one or more of the horizontal direction and the vertical direction. Additionally, the architectural modules 10 may be pre-manufactured in a factory and transported to the construction site, and the architectural modules 10 transported to the construction site may be stacked on top of each other to form a modular building.

Referring to FIG. 2, the building module 10 may include a lower beam 100, an upper beam 200, a pillar portion 300, and a fireproof board 400.

The lower beam 100 constitutes the lower part of the building module 10 and can support the pillar portion 300. This lower beam 100 may include a slab 110, a channel 120, and a fastening member 130.

Referring to FIGS. 3 and 4 , the slab 110 constitutes the bottom of the building module 10 and can support the pillar portion 300. This slab 110 can support the main load of the building module 10. For example, the slab 110 may include a concrete material. In this way, by including the concrete material, the slab 110 can have fire resistance performance itself even if it does not include a material with separate fire resistance performance. This slab 110 may include a slab body 111 and a protrusion 112.

The slab body 111 may engage the channel 120 and support the protrusion 112. Additionally, the slab body 111 has a flat plate shape and may have a predetermined thickness in the vertical direction.

The protrusion 112 may protrude from the slab body 111 in the vertical direction. Additionally, the surface of the protrusion 112 may extend to be continuous with the upper and lower surfaces of the channel 120. That is, the upper and lower surfaces of the channel 120 and both surfaces of the protrusion 112 may be aligned with each other in a horizontal direction.

Due to this, the slab 110 is engaged with the channel 120 and does not form a step between the slab 110 and the channel 120, which has the effect of supporting the pillar portion 300 more stably.

Channels 120 may be provided to surround the sides of the slab 110. For example, the channel 120 may have a 'ㄷ' shape and may be provided to surround at least a portion of the top, bottom, and sides of the slab 110. Additionally, the outer portion of the channel 120 may be fire-resistant and sprayed to have fire-resistant performance. The bottom of the channel 120 may be surrounded by a fireproof board 400, and the upper surface of the channel 120 may be surrounded by a pillar portion 300 having fireproof performance.

In this way, the upper and lower portions of the channel 120 are surrounded by the pillar portion 300 and the fireproof board 400, and the outer portion is sprayed with fireproof paint, so that the channel 120 can have fireproof performance.

The fastening member 130 may couple the slab 110 and the channel 120. For example, when the slab 110 and the channel 120 are engaged, the fastening member 130 may couple the slab 110 and the channel 120 while remaining embedded in the slab 110. These fastening members 130 may be bolts.

Referring to FIG. 5, the upper beam 200 may extend in the horizontal direction and may be supported on the upper part of the pillar portion 300. When the column portion 300 supports a load, the upper beam 200 may be supported on the column portion 300 so that the upper beam 200 supports the load to a minimum. For example, the upper beam 200 may support a load less than that of the pillar part 300, or may be supported on the pillar part 300 so as not to support a load. In this case, the upper beam 200 does not contribute to the behavior of the architectural module 10, but may contribute to configuring the external shape for manufacturing and transportation of the architectural module 10. Additionally, the upper beam 200 may be supported on the side of the body 310 at a position spaced a predetermined distance downward from the upper end of the body 310. This upper beam 200 may be supported on the body 310 while being inserted into the receiving hole 321 of the fireproof member 320.

In addition, the upper beam 200 may not include a material having fire resistance performance, such as the fire resistance member 320. For example, the upper beam 200 is not wrapped with gypsum board and is not fire-resistant, so it may not have fire-resistant performance. In this way, since the upper beam 200 does not contribute to the behavior of the architectural module 10, it is not classified as a main structural part, and the architectural module 10 can be configured without fire resistance performance.

The pillar portion 300 is supported on the upper part of the lower beam 100 and may extend in the vertical direction. This pillar portion 300 may be fire-resistant and have a fire-resistant function. Additionally, a plurality of pillar parts 300 may be provided, and a plurality of pillar parts 300 may support the upper beam 200. This pillar portion 300 may include a body 310 and a fireproof member 320.

The body 310 extends in the vertical direction and may be supported on the lower beam 100. In addition, the body 310 can support another building module 10 placed on the upper side, and the load of the other building module 10 placed on the upper side can be applied to the body 310.

The fireproof member 320 may surround the body 310 so that the body 310 is fireproofed. This fireproof member 320 may include a material with fireproof performance, and may be provided as gypsum board, for example. Additionally, the fireproof board 400 may surround the body 310 so as to overlap in the horizontal direction. This fireproof board 400 can be used not only when a plurality of fireproof boards 400 are overlapped to surround the body 310, but also when a single fireproof board 400 is wrapped multiple times to surround the body 310.

Meanwhile, a receiving hole 321 into which the upper beam 200 can be inserted may be formed in the fireproof member 320. These receiving holes 211 may be formed by entering from both ends of the fireproof member 320 in the vertical direction.

At least a portion of the circumferential surface of the pillar portion 300 may be fireproofed. In other words, the circumferential surface of the pillar portion 300 facing another adjacent building module 10 may not be surrounded by the fireproof member 320. For example, one pillar portion 300 of the plurality of building modules 10 may be configured such that one surface facing the other pillar portion 300 adjacent in the horizontal direction is not surrounded by the fireproof member 320. there is.

The fireproof board 400 can support the lower beam 100 and can be attached to the bottom of the channel 120. This fireproof board 400 may surround the non-fireproof bottom of the channel 120. Additionally, the fireproof board 400 may be, for example, a gypsum board with fireproof performance and may extend in the horizontal direction. These fireproof boards 400 may be provided in plural pieces and may be provided to surround the bottom surface of a plurality of lower beams 100.

Meanwhile, the fireproof board 400 may be provided to surround the upper surface of the upper beam 200 of the building module 10 placed on the lower side. In other words, the fireproof board 400 may connect the bottom surface of one lower beam 100 of the plurality of building modules 10 and the upper surface of another upper beam 200 adjacent to the lower side.

In this case, the fireproof board 400 can prevent fire from moving upward from another building module 10 adjacent to the lower side even if the upper beam 200 of the building module 10 placed on the lower side is not fireproofed. It works. In addition, the upper beam 200 of the building module 10 placed on the lower side and the lower beam 100 of the building module 10 placed on the upper side do not need to be fireproofed together, which has the effect of shortening the process time.

Referring to FIGS. 6 and 7, the fireproof board 400 may be provided to surround the bottom of some of the adjacent building modules 10 to seal the gap between the horizontally adjacent parts of the plurality of building modules 10. there is. That is, one side of the fireproof board 400 may surround the bottom of one of the plurality of building modules 10, and the other side of the fireproof board 400 may surround the bottom of another one of the plurality of building modules 10. . In this case, a portion of the fireproof board 400 may seal the horizontal gap between adjacent building modules 10. This has the effect of preventing fire from moving through the gap between the building modules 10.

The architectural module assembly 1 according to an embodiment of the present invention is made by the lower beam 100, the pillar portion 300, and the fireproof board 400 even if the upper beam 200 is not fireproofed. ) It has the effect of having fire resistance in itself.

In addition, the architectural module assembly 1 does not require fireproof treatment of the upper beam 200, thereby shortening the process time when stacking the architectural module 10 and saving material costs for improving fireproof performance. .

Hereinafter, the architectural module assembly manufacturing method (S1) for manufacturing the architectural module assembly (1) according to an embodiment of the present invention will be described with reference to FIGS. 8 and 9.

The architectural module assembly manufacturing method (S1) can manufacture the architectural module assembly (1) by assembling a plurality of architectural modules (10). This architectural module assembly manufacturing method (S1) may include a step of providing an architectural module (S10), a step of connecting modules (S20), and a step of providing a fireproof board (S30).

The architectural module provision step (S10) may provide a plurality of architectural modules (10). This construction module providing step (S10) may include providing a lower beam (S100), providing a column portion (S200), and providing an upper beam (S300).

In the step of providing a lower beam (S100), a lower beam 100 including a concrete material may be provided. For example, in the step of providing the lower beam (S100), the lower beam 100 may be provided while the channel 120 is fixed to the slab 110 so that the channel 120 surrounds the side of the slab 110. .

In the step of providing the pillar portion (S200), the pillar portion 300 may be provided. This pillar portion 300 may include a body 310 extending in the vertical direction and a fireproof member 320 surrounding the body 310 so that the body 310 is fireproofed. Additionally, in the step of providing the pillar portion (S200), the pillar portion 300 may be provided so that at least a portion of the fireproof member 320 surrounds the body 310 and overlaps in the horizontal direction. The step of providing such pillars (S200) may be performed after the step of providing the lower beam (S100).

The step of providing an upper beam (S300) may provide an upper beam 200 that does not include the fireproof member 320. In the step of providing such an upper beam (S300), when the pillar part 300 supports a load, the upper beam 200 can be connected to the pillar part 300 so that the upper beam 200 supports the load to a minimum. For example, in the step of providing an upper beam (S300), the upper beam 200 may be connected to the pillar part 300 so that the upper beam 200 supports less load than the pillar part 300 or does not support the load. .

In addition, the step of providing the upper beam (S300) is to provide the upper beam 200 so that the upper beam 200 is supported on the side of the body 310 at a position spaced a predetermined distance downward from the upper end of the body 310. You can. In the step of providing such an upper beam (S300), the upper beam 200 may be provided so that the upper beam 200 is supported on the body 310 while being inserted into the receiving hole 321 of the fireproof member 320. Meanwhile, the step of providing the upper beam (S300) may be performed after the step of providing the pillar portion (S200).

In addition, in the step of providing the upper beam (S300), the upper beam 200 corresponding to the short side of the circumference of the lower beam 100 is first connected to the pillar portion 300, and the long side of the circumference of the lower beam 100 is The upper beam 200 corresponding to can be connected to the pillar portion 300 later.

In the module connection step (S20), a plurality of construction modules 10 can be connected. This module connection step (S20) may include a first connection step (S21) and a second connection step (S22).

In the first connection step (S21), some of the plurality of building modules 10 may be connected to be aligned in the horizontal direction.

In the second connection step (S22), the construction module 10 can be loaded on top of the construction module 10 connected in the horizontal direction. This secondary connection step (S22) may be performed after the first connection step (S21).

In the step of providing a fireproof board (S30), a fireproof board 400 coated with fireproof paint may be provided. In the step (S30) of providing such a fireproof board, the fireproof board 400 may be provided to surround the bottom of the lower beam 100 from the lower side of the lower beam 100. Additionally, the step of providing a fireproof board (S30) may be performed between the first connection step (S21) and the second connection step (S22). This fireproof board 400 may be arranged to surround the bottom of the building module 10 disposed on the upper side and the upper surface of the building module 10 disposed on the lower side.

Although embodiments of the present invention have been described above as specific embodiments, this is merely an example, and the present invention is not limited thereto, and should be construed as having the widest scope following the technical idea disclosed in this specification. A person skilled in the art may implement a pattern of a shape not specified by combining/substituting the disclosed embodiments, but this also does not depart from the scope of the present invention. In addition, a person skilled in the art can easily change or modify the embodiments disclosed based on the present specification, and it is clear that such changes or modifications also fall within the scope of the present invention.

1: architectural module assembly 10: architectural module
100: lower beam 110: slab
111: slab body 112: protrusion
120: Channel 130: Fastening member
200: upper beam 300: column part
310: Body 320: Fireproof member
321: Receiving hole 400: Fireproof board

Claims (18)

A pillar portion including a body extending in the vertical direction and a fireproof member surrounding the body so that the body is fireproofed;
A lower beam supporting the lower part of the pillar portion and including a concrete material; and
It extends in the horizontal direction and includes an upper beam supported on the upper part of the column portion,
The upper beam supports less load than the column portion and does not include the fireproof member,
A receiving hole is formed in the fireproof member from one end,
The upper beam is supported on the body while being inserted into the receiving hole of the fireproof member,
It is disposed on the lower side of the lower beam to support the lower beam, and further includes a fireproof board coated with fireproof paint,
Architectural module. According to claim 1,
The upper beam is supported on the side of the body at a position spaced a predetermined distance downward from the upper end of the body,
Architectural module. delete According to claim 1,
The fireproof member is configured to overlap in the horizontal direction with at least a portion surrounding the body,
Architectural module. According to claim 1,
The lower beam includes a slab containing the concrete material; and a channel surrounding at least a portion of the slab,
The fireproof board is provided to surround the bottom of the channel on the lower side of the channel,
Architectural module. According to claim 5,
The sides of the channel are fire-resistant and spray-painted to have fire-resistant performance.
Architectural module. According to claim 5,
The slab is,
A slab body engaged with the channel; and
Comprising a protrusion protruding from the slab body such that the surface is continuous with the upper and lower surfaces of the channel,
Architectural module. Contains a plurality of architectural modules,
The architectural module is,
A pillar portion including a body extending in the vertical direction and a fireproof member surrounding the body so that the body is fireproofed;
A lower beam supporting the lower part of the pillar portion and including a concrete material; and
It extends in the horizontal direction and includes an upper beam supported on the upper part of the column portion,
The upper beam supports less load than the column portion and does not include the fireproof member,
A receiving hole is formed in the fireproof member from one end,
The upper beam is supported on the body while being inserted into the receiving hole of the fireproof member,
It is disposed on the lower side of the lower beam to support the lower beam, and further includes a fireproof board coated with fireproof paint,
Architectural modular assembly. According to claim 8,
The plurality of building modules are spaced apart from each other so that adjacent portions have a predetermined gap in the horizontal direction,
The fireproof board is provided to surround the bottom of the lower beam of the adjacent portion to seal the gap between the adjacent portion,
Architectural modular assembly. According to clause 9,
The lower beam includes a slab containing the concrete material; and a channel surrounding at least a portion of the slab,
The fireproof board is provided to surround the bottom of the channel on the lower side of the channel,
Architectural modular assembly. According to claim 10,
The slab is,
A slab body engaged with the channel; and
Comprising a protrusion protruding from the slab body such that the surface is continuous with the upper and lower surfaces of the channel,
Architectural modular assembly. According to claim 8,
At least some of the plurality of building modules are arranged in a vertical direction,
The fireproof board is,
Surrounding the bottom of any one of the plurality of building modules, and surrounding the upper surface of the other upper beam adjacent to the lower side of the one of the plurality of building modules,
Architectural modular assembly. According to claim 8,
At least some of the plurality of building modules are arranged horizontally to each other,
The pillar part,
Configured so that one surface of one of the plurality of building modules facing another pillar part horizontally adjacent to one of the plurality of building modules is not fire-resistant,
Architectural modular assembly. Providing a lower beam including a concrete material;
Providing a pillar portion including a body extending in the vertical direction and a fireproof member surrounding the body so that the body is fireproofed; and
Comprising the step of providing an upper beam that does not include the fireproof member,
The step of providing the upper beam connects the upper beam to the column portion so that the upper beam supports less load than the column portion,
The step of providing the upper beam includes providing the upper beam to be supported on the body while being inserted into a receiving hole introduced from one end of the fireproof member,
Further comprising the step of providing a fire-resistant board coated with fire spray to surround the bottom surface of the lower beam on the lower side of the lower beam,
Method for manufacturing architectural module assemblies. According to claim 14,
The step of providing the upper beam includes providing the upper beam to be supported on the side of the body at a position spaced a predetermined distance downward from the upper end of the body,
Method for manufacturing architectural module assemblies. delete According to claim 14,
The step of providing the pillar portion includes providing the pillar portion so that at least a portion of the fireproof member surrounds the body and overlaps in the horizontal direction.
Method for manufacturing architectural module assemblies. delete

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