KR200478981Y1 - Frame assembly for industrialization house - Google Patents

Abstract

The present invention relates to a wall column unit capable of compactly modularizing a structure assembly of an industrialized house and simplifying transportation and assembly thereof, and an assembly for an industrialized residential structure having the same.
To this end, the industrialized residential structure assembly includes a floor deck unit fixed to the floor base, a ceiling deck unit spaced apart from the floor deck unit according to the floor height, and a wall column unit connecting and fixing the floor deck unit and the ceiling deck unit . Here, the wall column units include a plurality of height members spaced apart from each other in a height direction and a deck contact member for interconnecting the height members. At this time, the deck contact member includes a heat insulating support portion forming a predetermined height and a blade fixing portion extending or bent in a height direction in the heat insulating support portion.

Description

{FRAME ASSEMBLY FOR INDUSTRIALIZATION HOUSE}

More particularly, the present invention relates to an assembly for an industrialized residential structure capable of compactly modularizing a structure assembly of an industrialized house, and facilitating the transportation and assembly thereof.

In general, industrialized houses are designed for mass production through the improvement of productivity, mechanized production, good quality control, minimization of the effects of climate change due to the necessity of curing process, shortening of time, cost reduction, reuse beyond the concept of recycling, It has been developed for the purpose of minimizing (noise, dust, traffic), ease of relocation and mobility, and reduction of waste of construction work.

In the above-mentioned industrial home construction method, a PC (Precast Concrete) method in which a concrete product manufactured in the vicinity of a factory or a site is transported to a site and transported to the site, a combination of a structural module and a non- volumetric units) are built and built.

However, the conventional industrialized housing has difficulty in transportation due to the size of the modular or three-dimensional unit, and the modular or three-dimensional unit is interfered with on the road or on the narrow road.

Korean Registered Patent No. 10-1347337 (Name of the invention: a seamless fiber-reinforced plastic industrial house and its manufacturing method, published on Apr. 201, 2007)

The object of the present invention is to solve the conventional problems, and to provide an industrialized residential structure assembly capable of compactly modularizing a structure assembly of an industrialized house, and simplifying transportation and assembly.

According to a preferred embodiment for achieving the object of the present invention described above, the industrialized residential structure assembly of the present invention comprises a floor deck unit fixed to a floor base; A ceiling deck unit spaced apart from the floor deck unit according to the floor height; And a wall column unit for connecting and fixing the floor deck unit and the ceiling deck unit, wherein the wall column unit includes a plurality of height members spaced apart from each other and extending in a height direction; And a deck contact member for connecting and fixing the height member to each other, wherein the deck contact member comprises: a heat insulating support portion forming a predetermined height; And a blade fixing part extending or being bent in a height direction in the heat insulating support part.

The deck contact member may further include a deck contact portion extending in a height direction from the heat insulating support portion or the blade fixing portion and having a fixing hole through which the coupling member passes.

Here, the deck contact member may include a bottom contact member provided at a lower end of the height member to be coupled to the bottom deck unit; And a ceiling close contact member which is disposed in the bottom close contact member in a height direction to be coupled to the ceiling deck unit according to the floor height.

The wall column unit may further include a fixed blade member that is bent to the deck contact member so as to surround an edge of the deck contact member.

The wall column unit may further include a partition column member coupled to the height member to protrude from the deck contact member.

At least the floor deck unit among the floor deck unit and the ceiling deck unit is formed with a supporting steel member on which the wall column unit is seated and supported.

Here, the bottom deck unit and the ceiling deck unit each have a structural steel member that forms a rim to form an opening space; And a sectional steel member coupled to the structural steel member so as to partition the opening space.

The industrialized residential structure assembly of the present invention has a structure in which the bottom contact member and the bottom deck unit are coupled through a screw connection or the ceiling close contact member and the ceiling deck unit are coupled through a screw connection, A coupling member that couples the plurality of the ceiling deck units to each other through screw connection or coupling of the deck units, and an anchor member that fixes the floor deck unit to the floor base.

According to the present invention, it is possible to modularize the structure assemblies of the industrialized houses, and to simplify the transportation and assembly. Especially, by choosing the transportation method according to installation site condition or installation site condition by knot down method before assembly, it is easy to assemble at the installation site, The configuration can be made freely.

In addition, the present invention separates the structure assembly, the interior and exterior finishing materials, and the facilities, thereby facilitating the repair and expansion of the structure, thereby suppressing the discharge of the construction waste, and reusing the structure assembly.

In addition, this design can increase the efficiency of housing production through industrialization and rationalization of construction, and it is possible to manufacture and mass-produce smoothly through minimum facility investment such as shortening construction period, uniform quality, and manpower saving.

In addition, the design allows the column and wall units to unify the function of the pillars and walls and to locate the floor and ceiling. In particular, the present design specifies the thickness of the floor so that the floor can be easily constructed from the individual floor without additional measurement.

In addition, the present design can improve the cohesion of the finishing materials coupled through the wall column unit, maintain the structural stability of the structure assembly, and secure the connection of the intersecting walls.

In addition, the present design can increase the bonding force between the units through the detailed construction of the structure assembly, and improve the insulation, soundproofing, construction speed and seismic performance.

The present design also allows the wall column unit to be stably supported in the floor deck unit and the installation error of the wall column unit can be prevented through the detailed construction of the structure assembly.

Further, the present invention can improve the heat insulation performance and improve the insulation of the building by forming an air layer over the interlayer floor through the opening space formed by the structure assembly. Particularly, it is possible to prevent the cooling air from rising due to the ground by the opening space provided in the floor deck unit, and to prevent the heating efficiency of the floor from being lowered. Further, the opening space provided in the uppermost ceiling deck unit blocks the rising of the cold air or warmth inside the building to prevent the heat from being transferred to the inside of the building, and the cooling or heating efficiency Can be prevented from being lowered.

1 is a perspective view illustrating an assembly for an industrial home according to an embodiment of the present invention.
2 is a view showing a floor deck unit in an industrial home construction according to an embodiment of the present invention.
3 is a view showing a wall column unit in an industrialized residential structure assembly according to an embodiment of the present invention.
4 is a view showing a first modification of the wall column unit in the industrialized residential structure assembly according to one embodiment of the present invention.
5 is a view showing a second modification of the wall column unit in the industrialized residential structure assembly according to an embodiment of the present invention.
FIG. 6 is a cross-sectional view illustrating a state in which a floor is engaged in an industrialized residential structure assembly according to an embodiment of the present invention.
7 is a cross-sectional view illustrating a state of a ceiling in an assembled structure for an industrial home according to an embodiment of the present invention.

Hereinafter, an embodiment of an industrial home assembly according to the present invention will be described with reference to the accompanying drawings. Here, the present invention is not limited or limited by the examples. In describing the present invention, a detailed description of known functions or configurations may be omitted to clarify the gist of the present invention.

FIG. 1 is a perspective view showing an assembly for an industrial home according to an embodiment of the present invention, FIG. 2 is a view showing a floor deck unit in an industrial home construction according to an embodiment of the present invention, FIG. 4 is a view showing a first modification of the wall column unit in the industrialized residential structure assembly according to one embodiment of the present invention, and FIG. 4 is a view showing a first modified example of the wall column unit in the industrialized residential structure assembly according to one embodiment of the present invention, FIG. 5 is a view showing a second modification of the wall column unit in the industrialized residential structure assembly according to an embodiment of the present invention. FIG. 6 is a perspective view showing the assembly of the floor in the industrialized residential structure assembly according to an embodiment of the present invention. And FIG. 7 is a cross-sectional view illustrating the state of the ceiling in the assembled structure for industrial home according to an embodiment of the present invention. Degrees.

Referring to FIGS. 1 to 7, an industrial home construction assembly according to an embodiment of the present invention includes a floor deck unit 10, a ceiling deck unit 20, and a wall column unit 30.

The floor deck unit 10 is fixed to the floor foundation C. A plurality of the floor deck units 10 are connected to each other through a fastening member 40 to be described later to form the floor of the building.

The bottom deck unit 10 is formed with an opening space 12 in which the bottom base C is exposed. When the interlayer insulating member 210 is laminated on the bottom deck unit 10, an air layer is formed below the interlayer insulating member 210, thereby improving the heat insulating performance and improving the insulation of the building. Particularly, the opening space 12 provided in the bottom deck unit 10 prevents the rise of the cold air caused by the ground, and the heating efficiency of the floor can be prevented from being lowered.

Here, the bottom foundation (C) flattenes the ground through a reinforced concrete structure. The floor foundation (C) reinforces and strengthens the ground so that the building is stably supported on the ground.

The bottom deck unit 10 is formed with a through hole 17 through which a fastening member 40 described later can be passed or screwed. The coupling between the bottom deck units 10 through the fastening member 40 described later can be simplified as the coupling holes 17 are mutually aligned.

The bottom deck unit 10 includes a structural steel member 11 and a section steel member 13 as shown in Fig.

The structural steel member 11 forms a rim to form the opening space 12. The structural steel member 11 may have various shapes such as a polygonal shape, a whole or a part of a circle, or a part or whole of an elliptical shape depending on the shape of the bottom. The structural steel member 11 may be composed of a "C" shape steel or a "C" shape steel. Further, the structural steel member 11 may be composed of an "I" -shaped steel or an "H" -shaped steel.

The section steel member 13 is coupled to the structural steel member 11 so as to partition the opening space 12. The partition steel member 13 reinforces the strength of the bottom deck unit 10 and maintains the level of the bottom deck unit 10 while the floor deck unit 10 is being moved, It is possible to prevent deformation. The section steel member 13 may be composed of a "C" section steel or a "C" section steel. Further, the section steel member 13 may be composed of an "I" -shaped steel or an "H" -shaped steel.

At this time, the bottom deck unit 10 is formed with a bearing steel member 15 on which the wall column unit 30 is seated and supported. The bearing steel member 15 may protrude from at least one of the structural steel member 11 and the partition steel member 13. The bearing steel member 15 may be provided in the ceiling deck unit 20. As a result, it is sufficient that at least the bottom deck unit 10 among the bottom deck unit 10 and the ceiling deck unit 20 is provided.

The ceiling deck unit 20 is spaced apart from the floor deck unit 10 according to the bedding height. The ceiling deck unit 20 is connected to each other through a fastening member 40 to be described later to form a ceiling of a building or to form a floor of a two-story floor or an upper floor of the building.

The ceiling deck unit 20 also has an opening space 12 through which the bottom foundation C is exposed. When the interlayer insulating member 210 is stacked on the ceiling deck unit 20, an air layer is formed below the interlayer insulating member 210, thereby improving the heat insulating performance and improving the insulation of the building. Particularly, the opening space (12) provided in the uppermost ceiling deck unit (20) prevents the cold air or the warm air inside the building from rising above the roof, , It is possible to prevent the cooling or heating efficiency inside the building from being lowered.

The ceiling deck unit 20 is formed with a through hole 17 through which a fastening member 40 described later can be passed or screwed. As the joints 17 are mutually aligned in the connection between the ceiling deck units 20, coupling through the fastening member 40 described later can be simplified.

The ceiling deck unit 20 includes a structural steel member 11 and a section steel member 13 like the floor deck unit 10.

The structural steel member 11 forms a rim to form the opening space 12. [ The structural steel member 11 may have various shapes such as a polygonal shape, a whole or a part of a circle, or a part or whole of an elliptical shape depending on the shape of the bottom. The structural steel member 11 may be composed of a "C" shape steel or a "C" shape steel. Further, the structural steel member 11 may be composed of an "I" -shaped steel or an "H" -shaped steel.

The section steel member 13 is coupled to the structural steel member 11 so as to partition the opening space 12. The partition steel member 13 reinforces the strength of the ceiling deck unit 20 and maintains the level of the bottom deck unit 10 while the ceiling deck unit 20 is being moved, It is possible to prevent deformation. The section steel member 13 may be composed of a "C" section steel or a "C" section steel. Further, the section steel member 13 may be composed of an "I" -shaped steel or an "H" -shaped steel.

The wall column unit 30 is connected and fixed to the bottom deck unit 10 and the ceiling deck unit 20. A plurality of the wall column units 30 are spaced apart from each other and are coupled to the bottom deck unit 10 and the ceiling deck unit 20 to form side walls of the building.

The wall column unit 30 includes a height member 31 and a deck contact member 35 as shown in Figs.

A plurality of the height members 31 are spaced apart from each other and are formed long in the height direction. The deck contact member (35) fixes the height members (31) to each other.

The deck contact member 35 can be divided into a bottom contact member 36 and a ceiling close contact member 38. The bottom contact member 36 is provided at the lower end of the height member 31. The bottom contact member 36 may be coupled to the bottom deck unit 10. The ceiling contact member 38 is spaced apart from the bottom contact member 36 in the height direction according to the height of the floor. The ceiling close contact member 38 may be coupled to the ceiling deck unit 20.

For example, the deck contact member 35 may include a heat insulating support portion 353 and a blade fixing portion 354. The deck contact member 35 according to an embodiment can be applied to the wall column unit 30 that forms side walls for partitioning the inside of the building. The deck contact member 35 may be applied to at least one of the bottom close contact member 36 and the ceiling close contact member 38 according to an embodiment of the present invention.

The heat insulating support portion 353 forms a predetermined height. The heat insulating support portion 353 may have a plate shape. The height of the heat insulating support portion 353 may be set corresponding to the thickness of the interlayer insulating member 210.

The blast fixing part 354 extends in the height direction from the heat insulating support part 353 or is bent at the heat insulating support part 353. The blas fixture 354 may have a plate shape. The blast fixing unit 354 is coupled to the first blast member 220 stacked on the interlayer insulating member 210 or the second blast member 230 provided on the lower side of the ceiling deck unit 20 .

5, a mounting hole 355 for screwing the first bladder member 220 or the second bladder member 230 is formed in the blas fixing portion 354, May be passed or screwed together. The mounting member 41 may be formed of a threaded bolt or a screw.

As another example, the deck contact member 35 may include a deck contact portion 351, a heat insulating support portion 353, and a blade fixing portion 354. The deck contact member 35 according to another example may be applied to the wall column unit 30 forming the outer wall of the building. Further, the deck contact member 35 according to another example may be applied to at least one of the bottom contact member 36 and the ceiling close contact member 38.

The deck contact portion 351 is provided with a fixing hole 352 through which the fastening member 40 to be described later passes. The deck contact portion 351 may have a plate shape. The deck tightening portion 351 is engaged with the side surface of the bottom deck unit 10 or the ceiling deck unit 20. The fastening member 40 described later can be passed through or screwed into the fixing hole 352.

When the wall column unit 30 is disposed in the bottom deck unit 10 or the ceiling deck unit 20, the coupling hole 17 and the fixing hole 352 are aligned with each other, 40 can be easily connected.

The heat insulating support portion 353 extends in the height direction at the deck contact portion 351. The heat insulating support portion 353 forms a predetermined height. The heat insulating support portion 353 may have a plate shape. The height of the heat insulating support portion 353 may be set corresponding to the thickness of the interlayer insulating member 210.

The blast fixing portion 354 extends in the height direction from the deck contact portion 351 or the heat insulating support portion 353 or is bent at the deck contact portion 351 or the heat insulating support portion 353. The blas fixture 354 may have a plate shape.

The blas fixing unit 354 is provided to couple the first blades member 220 or the second blades member 230 to each other. 5, a mounting hole 355 for screwing the first bladder member 220 or the second bladder member 230 is formed in the blas fixing portion 354, May be passed or screwed together.

The wall column unit 30 may further include a spacing member 33.

The spacing member (33) interconnects the height member (31). The spacing member 33 may be fixed to at least one of the height member 31 and the deck contact member 35.

The wall column unit 30 may further include a fixed wing member 39.

The fixed wing member 39 is bent on the deck contact member 35 so as to surround the edge of the deck contact member 35. The fixed wing member 39 is coupled to at least one of the height member 31 and the spacing member 33 to suppress or prevent the deformation or deformation of the deck tightening member 35.

The wall column unit 30 may further include a partition column member 32 as shown in FIG.

The partition column member 32 is coupled to the height member 31 so as to protrude from the deck contact member 35. The partition column member 32 may serve as a partition for partitioning the interior of the building. Although not shown, the compartment column member 32 may be provided with the deck contact member 35.

The industrialized residential structure assembly according to an embodiment of the present invention may further include at least one of a fastening member 40 and an anchor member 50.

The coupling member 40 engages the bottom contact unit 36 with the bottom deck unit 10 through a screw connection. The coupling member 40 engages the ceiling contact member 38 with the ceiling deck unit 20 through a screw connection.

The fastening member 40 may be formed by screwing various types of bolts and nuts.

Although not shown, the fastening member 40 can couple a plurality of the floor deck units 10 to each other through a screw connection. Also, the fastening member 40 can couple the plurality of the ceiling deck units 20 to each other through a screw connection.

The anchor member 50 fixes the floor deck unit 10 to the floor foundation C. The anchor member 50 may be formed of various types of anchors.

Although not shown, the industrialized residential structure assembly according to one embodiment of the present invention may further include a roof unit (not shown).

The roof unit (not shown) is coupled to the ceiling deck unit 20 provided at the top of the ceiling deck unit 20. The roof unit (not shown) is coupled to the ceiling deck unit 20 through the mounting member 41 or the fastening member 40 via the first bladder member 220 to form a roof of the building .

The roof unit (not shown) may take various forms depending on the roof form of the building.

Hereinafter, assembly of an industrialized residential structure assembly according to one embodiment of the present invention will be described.

The floor deck unit 10, the ceiling deck unit 20 and the wall column unit 30 are manufactured according to a building to be manufactured. For example, the floor deck unit 10 and the ceiling deck unit 20 are divided into a plurality of sections corresponding to the inter-floor floor shape of the building. Further, the wall column unit 30 is divided into a plurality of sections corresponding to the shape of the side wall of the building.

At this time, the number of the anchor members 50 can be set according to the size and the number of the floor deck units 10, and the floor deck unit 10, the ceiling deck unit 20, The number of the fastening members 40 can be set according to the number of the fastening members 30.

The floor deck unit 10, the ceiling deck unit 20 and the wall column unit 30 are divided into a plurality of sections according to the installation site conditions of the building or the installation site conditions of the building, can do.

The floor deck unit 10, the ceiling deck unit 20, and the wall column unit 30 thus manufactured are moved to a building installation position.

First, a plurality of the floor deck units 10 are assembled through the fastening member 40 in correspondence with the floor of the building, and the assembled floor deck unit 10 is assembled with the anchor member 50, And fixed to the base (C). At this time, the connection holes 17 are mutually aligned, and connection between the floor deck units 10 can be simplified.

Next, as shown in FIG. 6, the wall column unit 30 is disposed on the support-form steel member 15, and the deck contact member 35, the bottom- (36) and the bottom deck unit (10). At this time, the fixing hole 352 and the joint hole 17 coincide with each other, so that the wall column unit 30 can be easily coupled and fixed to the floor deck unit 10.

7, the ceiling deck unit 20 is spaced from the floor deck unit 10 according to the height of the floor, and the deck contact member 35 Member 38) and the ceiling deck unit 20 to each other. At this time, the fixing hole 352 and the coupling hole 17 coincide with each other, so that the ceiling deck unit 20 can be easily coupled and fixed to the wall column unit 30.

The ceiling deck unit 20 can be assembled to a plurality of the floor deck units 10 through the fastening member 40 corresponding to the floor of the building, like the floor deck unit 10. At this time, the connection holes 17 are mutually coincided, so that connection between the ceiling deck units 20 can be simplified.

The interlayer insulating member 210 is laminated on the bottom deck unit 10 and the first blasting member 220 is laminated on the interlayer insulating member 210. At this time, the first bladder member 220 is fixedly coupled to the wall column unit 30 through the mounting member 41. Particularly, the first bladder member 220 can be fixedly coupled to the bladder fixing part 354.

The interlayer insulating member 210 is laminated on the ceiling deck unit 20 and the first blasting member 220 is laminated on the interlayer insulating member 210. The second blade member 230 is provided on the lower side of the ceiling deck unit 20. At this time, the first bladder member 220 and the second bladder member 230 are fixedly coupled to the wall column unit 30 through the mounting member 41, respectively. In particular, the first blades member 220 and the second blades member 230 may be fixedly coupled to the blade fixing portion 354. Further, the second blades 230 may be fixedly coupled to the ceiling deck unit 20.

Lastly, by joining the roof unit (not shown) to the top ceiling deck unit 20 of the ceiling deck unit 20, the assembly of the industrial home structure can be firmly assembled.

According to the above-described industrialized residential structure assembly, the structure assembly of the industrialized housing can be compactly modularized, and can be easily transported and assembled. Especially, by choosing the transportation method according to installation site condition or installation site condition by knot down method before assembly, it is easy to assemble at the installation site, The configuration can be made freely.

In addition, the functions of pillars and walls can be unified through the wall column unit 30, and the positions of the floor and the ceiling can be specified. In particular, it is possible to specify the thickness of the floor so that the floor can be easily constructed on the individual floor without any additional measurement. In addition, it is possible to improve the bonding force of the finishing materials coupled through the wall column unit 30, to maintain the structural stability of the structure assembly, and to secure the connection of the intersecting walls.

In addition, the detailed configuration of the structure assembly can increase the bonding force between the units, improve the insulation and soundproofing, and improve the installation speed and seismic performance. In addition, it is possible to stably support the wall column unit 30 in the floor deck unit 10 through the detailed structure of the structure assembly, and to prevent an installation error of the wall column unit 30. [ Further, by forming an air layer over the interlayer floor through the opening space 12 formed by the structure assembly, it is possible to improve the heat insulating performance and improve the insulation of the building. Particularly, the opening space 12 provided in the bottom deck unit 10 prevents the rise of the cold air caused by the ground, and the heating efficiency of the floor can be prevented from being lowered. Further, the opening space 12 provided in the uppermost ceiling deck unit 20 prevents the cold air or the warm air inside the building from being raised on the roof, and prevents the heat from being transmitted to the inside of the building , It is possible to prevent the cooling or heating efficiency inside the building from being lowered.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. Modify or modify the Software.

10: floor deck unit 11: structural steel member 12: opening space
13: Sectional steel member 15: Supporting steel member 17:
20: Ceiling deck unit 30: Wall column unit 31: Height member
32: partitioning column member 33: spacing member 35: deck tightening member
351: Deck adhered portion 352: Fixing hole 353:
354: Blas fixing part 355: Mounting hole 36: Bottom contact member
38: ceiling contact member 39: fixed wing member 40: fastening member
41: mounting member 50: anchor member 210: interlayer insulating member
220: first blouse member 230: second blouse member C: bottom base

Claims (8)

A floor deck unit fixed to the floor base;
A ceiling deck unit spaced apart from the floor deck unit according to the floor height; And
And a wall column unit for connecting and fixing the floor deck unit and the ceiling deck unit,
The floor deck unit and the ceiling deck unit are
A structural steel member for forming a rim to form an opening space; And
And a sectional steel member coupled to the structural steel member so as to partition the opening space,
Wherein at least the floor deck unit among the floor deck unit and the ceiling deck unit is formed with a supporting steel member on which the wall column unit is seated and supported,
The wall column unit includes:
A plurality of height members spaced apart from each other and elongated in a height direction; And
And a deck contact member for interconnecting the height members,
Wherein the deck contact member
A bottom contact member provided at a lower end of the height member to be coupled to the bottom deck unit; And
And a ceiling close contact member provided in the bottom close contact member and spaced apart from the bottom close contact member in a height direction to be coupled to the ceiling deck unit,
The bottom contact member and the ceiling close contact member are
A deck contact unit coupled to the floor deck unit or the ceiling deck unit;
A heat insulating support portion extending in the height direction in the deck contact portion to form a predetermined height corresponding to the thickness of the interlayer insulating members stacked on the floor deck unit and the ceiling deck unit; And
And a blade fixing part extending or being bent in the height direction at the deck contact part or the heat insulating supporting part,
The deck contact unit and the bottom deck unit provided on the bottom contact member are screwed to each other, or the deck contact unit and the ceiling deck unit provided on the ceiling close contact member are engaged with each other, A coupling member that couples a plurality of the floor deck units to each other through a screw connection or a plurality of the ceiling deck units through a screw connection;
An anchor member for fixing the floor deck unit to a floor foundation;
A first blaster member laminated on the interlaminar insulating member; And
The blind fixing part provided on the bottom contact member via the screw connection and the first bladder member are engaged with each other or screwed together to engage the blas fixing part and the first bladder member provided on the ceiling close contact member Further comprising: a member; The method according to claim 1,
The floor contact member and the ceiling close contact member are respectively provided with
Wherein at least the fixing hole is provided in the fixation hole formed in the deck tightening portion so that the fastening member is passed or screwed and the mounting hole formed in the bracket fixing portion to allow the mounting member to pass therethrough or to be screwed Industrial residential construction assemblies. The method according to claim 1,
And a second blaster member provided below the ceiling deck unit and screwed to the blind fixing unit via the mounting member. 4. The method according to any one of claims 1 to 3,
The wall column unit includes:
And a fixed wing member bent to the deck contact member to surround an edge of the deck contact member. 4. The method according to any one of claims 1 to 3,
The wall column unit includes:
And a partition column member coupled to the height member to protrude from the deck contact member. delete delete delete

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