KR101019739B1 - Building assembly, building and construction method - Google Patents

Abstract

The present invention relates to a building assembly, a building, and a construction method thereof. The bar members are connected to each other by crossing the bar members in the longitudinal and transverse directions, and the first and second heat insulating materials are disposed apart from each other in the space formed by the bar members. Forming a first building assembly, interconnecting bar members longitudinally and transversely to each other, and placing a third thermal insulator in a space formed by the bar members to form a second building assembly, the wall of the ground Installing the first building assembly in a construction position in a direction perpendicular to the ground to form a wall foundation, installing a slab support column vertically on the ground, and installing the second building assembly on the slab support column Installing and connecting a portion of the second building assembly to the first building assembly of the wall foundation to form a slab foundation; The step of pouring concrete over insulation of the foundation slab and the insulation between the base body, and after the concrete curing includes the step of dismantling the slab support columns.

Description

A building assembly, construction and the construction method for the same

The present invention relates to a concrete support member, a building, and a construction method thereof.

In general, concrete buildings are constructed so that the workers bind to the wall reinforcement in the wall formwork and the slab reinforcement in the slab formwork to unite the walls and slabs.

That is, in order to form a wall, the wall rebar is vertically arranged on the ground, and a wall formwork is installed around the wall reinforcement to form a space for filling concrete. Then, supporters are installed on the ground to form slabs, and slab formwork is installed on the supporters. Reinforce the slab reinforcement connected with the wall reinforcement on the slab formwork. At this time, the slab reinforcement is supported on the slab formwork by the spacer.

When such wall formwork and slab formwork are installed, concrete is poured into wall reinforcement and the reinforced formwork with slab reinforcement to cure.

According to such a wall and slab construction method, a large number of materials are generally used, such as formwork for concrete molding, spacers for fixing slab reinforcing bars, etc., thereby increasing material costs, and labor costs for processing the materials. There is also a problem that rises.

In addition, when the concrete is cured, formwork disassembly, insulation, etc. have to be installed, causing a problem that the entire construction period is delayed.

The present invention provides a concrete support member, a building, and a construction method capable of minimizing materials according to building construction and shortening a construction period.

In the building construction method according to an embodiment of the present invention, the bar members are connected to each other by crossing in the longitudinal / lateral direction, and the first and second heat insulating materials are disposed apart from each other in the space formed by the bar members. Forming a building assembly, intersecting the bar members longitudinally and transversely to each other, and placing a third thermal insulator in a space formed by the bar members to form a second building assembly, wall construction location of the ground Installing the first building assembly in a direction perpendicular to the ground to form a wall foundation, installing a slab support column upright on the ground, and installing the second building assembly on the slab support column Connecting a portion of the second building assembly to the first building assembly of the wall foundation to form a slab foundation, the stage of the wall foundation The step of pouring concrete over the slab of insulating material based on the material between, and after the concrete curing includes the step of dismantling the slab support columns.

The building construction method may further include arranging reinforcing bars on the slab foundation in a lattice form and binding the reinforcing bars to the second building assembly of the slab foundation to reinforce the reinforcing bars.

The building construction method, the step of establishing a vertical reinforcing bar in the slab foundation, binding the vertical reinforcement to the slab foundation and the reinforcing bars, arrange the horizontal reinforcing bars on the reinforcing bars in a grid form, connecting the horizontal reinforcement By binding to the vertical reinforcement may further include reinforcing the laminated reinforcement.

The building construction method includes forming a third building assembly by crossing bar members in a longitudinal / lateral direction, installing the third building assembly on the ground, and attaching at least a portion of the third building assembly to the wall foundation. The method may further include forming a floor foundation in connection with the first building assembly.

The building construction method further includes the step of installing a pillar support member to detachably couple the other side of the slab support pillar to the floor foundation, and concrete is placed on the floor foundation after the slab support pillar support member is installed. Can be.

The forming of the first building assembly may include arranging a first bar in a first direction, arranging a second bar to cross the first bar, and arranging the first bar at different intervals along a length direction of the first bar. Forming a network unit having a fixed frame coupling unit and a concrete pouring unit, arranging the network unit in a second direction, connecting a plurality of third bar units to form a basic network, and forming the foundation unit. It may include the step of installing the first heat insulating material and the second heat insulating material in the heat insulating material coupling portion of the network.

The insulation coupling portion may be formed with the concrete pouring portion interposed therebetween, and the fixed frame coupling portion may be formed outside the insulation coupling portion.

The forming of the first building assembly may further include installing a finishing material fixing frame to the fixing frame coupling part, and after the slab support pillar is removed, the finishing material fixing frame is fixed to the outer surface of the wall foundation. The method may further include installing a wall finish.

The forming of the second building assembly may further include installing a pillar fixing frame on which one side of the slab support pillar is fixed to one surface of the third heat insulating material.

The building construction method may further include installing a slab finish that is fixed to the slab support pillar fixing frame on one surface of the slab foundation after removing the slab support pillar.

The slab support pillar fixing frame may be either wood or metal.

The building constructed by the building construction method as defined in any one of Claims 1-10.

Another building assembly according to one embodiment of the invention comprises first bars arranged in a first direction, second bars intersecting the first bar and provided at different intervals along the longitudinal direction of the first bar. Insulation material coupling portion, fixed frame coupling portion, and the concrete unit has a pour unit, the third bar connecting the network unit with each other, a plurality of heat insulating material provided in the insulation coupling portion, and the insulation coupling portion is the concrete pour portion It is formed between, and the fixed frame coupling portion is located outside the heat insulating material coupling portion.

The building assembly may further include a finishing material fixing frame installed at the fixing frame coupler.

The width of the heat insulating material mounting portion may be narrower than the width of the concrete pouring portion, the width of the fixed frame mounting portion may be narrower than the width of the heat insulating material mounting portion.

According to the embodiment of the present invention, since the reinforcing bars and laminated bars for reinforcing the slab are bound to the second building assembly of the slab foundation, no spacer or the like for installing the bars is required. As a result, the materials required for the construction of buildings can be greatly reduced.

According to an embodiment of the present invention, the slab support column is detachably installed on the column support member, so that the floor surface and the slab of the building can be simultaneously installed, thereby greatly shortening the building construction period.

According to an embodiment of the present invention, the wall finishing material, slab finishing material can be easily installed by the finishing material fixing frame and the column fixing frame, thereby shortening the exterior construction period of the building.

1 is a perspective view of a foundation network of a first building assembly according to one embodiment of the present invention;
Figure 2 is a perspective view showing a state in which the insulation frame and the finishing material fixing frame is installed in the basic network shown in FIG.
3 is a cross-sectional view of the first building assembly taken along line II-II shown in FIG. 2;
4 is a perspective view of a second building assembly according to an embodiment of the present invention;
5 is a perspective view of a third building assembly according to an embodiment of the present invention.
Figure 6 is a construction showing the wall foundation forming step according to an embodiment of the present invention.
Figure 7 is a construction showing the bottom foundation forming step according to an embodiment of the present invention.
8 is a construction diagram showing a slab foundation forming step according to an embodiment of the present invention.
9 is a view showing a state in which concrete is poured into the wall foundation, slab foundation, floor foundation shown in FIG.
10 is a view showing a state in which the finishing material is mounted on the wall foundation, slab foundation shown in FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated by like reference numerals throughout the specification.

Then, a building assembly according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3.

1 is a perspective view of a basic network of the first building assembly according to an embodiment of the present invention, Figure 2 is a perspective view showing a state in which the insulation and the finishing material fixing frame is installed on the foundation network shown in Figure 1, Figure 3 Sectional drawing which cut | disconnected the 1st building assembly along the II-II line shown in FIG.

The building assembly 1 includes a foundation net 10, an insulator 20, and a finish fixing frame 30.

Referring to FIG. 1, the foundation network 10 of the building assembly 1 includes a network unit 11 including a first bar 111 and a second bar 112, and a third bar 12. . The base net 10 may be made of metal. However, it is not limited to metal.

In the network unit 11, the first bar 111 and the second bar 112 are disposed in a lattice form and are connected to each other by a welding method. But it can also be combined with wires. That is, as shown in FIG. 1, the first bars 111 are formed to have a predetermined length and are arranged at predetermined intervals in the first direction Z. As shown in FIG. The second bar 112 crosses the first bars 111 and is arranged along the length direction of the first bar 111. In this case, the second bars 112 are arranged at different intervals. The second bar 112 is arranged along the longitudinal direction of the first bar 111 while the fixed frame mounting portion 11a, the heat insulating material mounting portion 11b, and the concrete pouring portion 11c are formed in the mesh unit 11. do.

The concrete pouring portion 11c is positioned at the center of the network unit 11, and the heat insulating material installing portion 11b is formed at both sides of the concrete pouring portion 11c, and the fixed frame installing portion 11a is disposed outside the heat insulating material installing portion 11b. Is formed. And the width W2 of the heat insulating material installation part 11b is narrower than the width W1 of the concrete pouring part 11c, and the width W3 of the fixed frame installation part 11a is the width W2 of the heat insulating material installation part 11b. It is narrower than). The network unit 11 is arranged at a predetermined interval in the second direction (Y).

The third bar 12 has a predetermined length and is arranged in the first direction Z by connecting the network units 11 to each other. The third bar 12 is coupled to the network units 10 by a welding method. But it can also be combined with wires.

2 and 3, the heat insulating material 20 of the building assembly 1 is installed at both sides of the concrete pouring part 11c, that is, the heat insulating material installing part 11b. The heat insulator 20 is sandwiched between the second bars 112 and fixed. The heat insulating material 20 may be installed in the concrete pouring part 11c. Insulation 20 is made of expanded polystyrene to block the heat transfer inside the building to the outside. And by installing the heat insulating material 20 on both sides of the concrete pouring portion (11c), the heat insulating material 20 can serve as a formwork of the concrete pouring portion (11c). However, the heat insulator 20 may be omitted.

The finishing material fixing frame 30 of the building assembly 1 is disposed in the fixing frame mounting portion 11a and is sandwiched and fixed between the second bars 112. Finishing material fixing frame 30 may be installed on a fixed frame mounting portion (11a) of one side. The finishing material fixing frame 30 may reinforce the insulating material 20 so that the insulating material 20 serving as a formwork when the concrete is poured into the concrete pouring part 11c can withstand the internal pressure of the concrete. In addition, the finishing material fixing frame 30 is empty inside, one surface may be open along the longitudinal direction. The finish fixing frame 30 may be formed of wood, metal or the like. However, the finishing material fixing frame 30 may be omitted.

Next, a building construction method will be described with reference to FIGS. 4 to 10.

4 is a perspective view showing a second building assembly according to an embodiment of the present invention, FIG. 5 is a perspective view showing a third building assembly according to an embodiment of the present invention, and FIG. 6 is an embodiment of the present invention. FIG. 7 is a construction diagram illustrating a wall foundation forming step, and FIG. 7 is a construction diagram illustrating a floor foundation forming step according to an embodiment of the present invention, and FIG. 8 is a construction illustrating a slab foundation forming step according to an embodiment of the present invention. FIG. 9 is a view illustrating a state in which concrete is poured into a wall foundation, a slab foundation, and a floor foundation shown in FIG. 8, and FIG. The construction is shown.

4 to 10, the building construction method according to the present embodiment, the first building assembly forming step (S11), the second building assembly forming step (S12), the third building assembly forming step (S13), wall foundation Forming step (S20), bottom foundation forming step (S30), pillar support member installation step (S32), pillar installation step (S40), slab foundation formation step (S50), concrete placing step (S60), pillar demolition step (S70) ), And finishes installation step (S80).

The first building assembly forming step (S11), Figure 1 and Figure 3 is substantially the same as the embodiment of the building assembly.

The first building assembly forming step S11 includes a net unit forming step S111, a base net forming step S112, and a heat insulating material bonding step S113. The first building assembly forming step S11 may further include a fixing frame installing step S114.

Referring back to FIG. 1, the network unit forming step S111 is for forming one network unit 11 and arranges the first bars 111 formed in a predetermined thickness in a first direction Z. FIG. The second bar 112 is disposed to intersect with the first bars 111, and arranged along the longitudinal direction of the first bars 111 to be coupled to each other. In this case, the first bar 111 and the second bar 112 are coupled by a welding method. But it can be combined. At this time, the spacing of the second bars 112 is irregular. One network unit 11 is formed by crossing the first bar 111 and the second bar 112.

The network unit 11 is provided with a fixed frame coupling portion 11a, heat insulating material coupling portions 11b ', 11b ", and a concrete pouring portion 11c. The concrete pouring portion 11c is a mesh unit 11. Located in the center, the heat insulating material coupling parts 11b 'and 11b "are formed in both sides of the concrete pouring part 11c, and the fixed frame coupling part 11a is formed outside the heat insulating material coupling parts 11b' and 11b".

The network unit 11 is arranged in the second direction Y in the base network forming step S112. In order to connect the network units 11 to each other, the third bar 12 is disposed to intersect with the network units 10 and arranged in the first direction Z to be coupled to each other. At this time, the network unit 11 and the third bar 12 are coupled by a welding method. But it can be combined.

Referring to FIGS. 2 and 3 again, when the foundation network 10 is formed, the first heat insulating material 20a is connected to the one side heat insulating material coupling part 11b 'in the heat insulating material coupling step S113, and the other heat insulating material coupling part 11b is formed. And a second heat insulator 20b. The first heat insulator 20a and the second heat insulator 20b may serve as formwork when concrete is poured into the concrete pouring part 11c. The widths 20a and 20b are formed to be wider than the width W2 of the heat insulating material coupling parts 11b 'and 11b "so that the first and second heat insulating materials 20a and 20b are connected to the heat insulating material coupling parts 11b' and 11b". The first and second heat insulating materials 20a and 20b may be firmly fixed to the heat insulating material coupling parts 11b 'and 11b "without being moved.

When the first and second heat insulators 20a and 20b are installed on the foundation network 10, the finishing material fixing frame 30 is installed in the fixing frame coupling part 11a in the fixing frame installation step S114.

Finishing material fixing frame 30 is arranged in the first direction (Z). However, the finishing material fixing frame 30 may be arranged in the second direction (Y). The thickness of the finishing material fixing frame 30 is thicker than the width W3 of the fixing frame mounting portion 10a. Accordingly, the finishing material fixing frame 30 is installed in the fixing frame installation portion (10a) in the form of interference fit tightly fixed. The finishing material fixing frame 30 reinforces the first and second heat insulating materials 20a and 20b when concrete is poured into the concrete pouring portion 10c, so that the first and second heat insulating materials 20a and 20b are separated from the internal pressure of the concrete. Make it bearable. Finishing material fixing frame 30 may be formed of wood or metal. However, the fixing frame installation step (S114) can be omitted.

Referring to Figure 4, the second building assembly forming step (S12) is to form a second building assembly 4, the second foundation network forming step (S121), the third insulating material installation step (S122), and fixing the pillar It includes a frame installation step (S123).

In the second basic network forming step S121, the first to third bars 41, 42, and 43 intersect in the longitudinal / lateral direction to form the basic network 40. Formation of the foundation network 40 of this embodiment is substantially the same as the foundation network 10 shown in FIGS. However, the first bar 41 and the second bar 42 extend in one direction on one surface of the base network 40 of the present embodiment, and the spacer part 46 is formed. However, the spacer portion 46 may be omitted.

Therefore, a detailed description of the second basic network forming step (S121) will be omitted.

The concrete pouring portion 11c formed in the first building assembly 1 is omitted in the second building assembly 4. Accordingly, the heat insulating material mounting portion 40a is formed in the center of the base network 40, and the column fixing frame mounting portion 40b is formed on both sides of the heat insulating material mounting portion 40a.

In the third heat insulating material installation step (S122), the third heat insulating material 44 is laminated and installed on the heat insulating material installation part 40a. However, it may not be stacked. The third heat insulator 44 may function as a formwork of slab concrete.

When the third heat insulator 44 is installed, the pillar fixing frame 45 is installed in the pillar fixing frame installation part 40b in the pillar fixing frame installation step (S123). The pillar fixing frame 45 is coupled to the pillar fixing frame installation part 40b in an interference fit form and is firmly fixed. The pillar fixing frame 45 may be made of wood or metal. The pillar fixing frame 45 is empty inside, and one surface is cut along the longitudinal direction. However, the interior may be filled. This, pillar fixing frame installation step (S123) may be omitted.

Referring to FIG. 5, the third building assembly forming step S13 is to form the third building assembly 5, and is formed by crossing the first to third bars 51, 52, and 53.

The third building assembly forming step S13 is substantially the same as the first building assembly forming step S11. However, in the third building assembly forming step (S13), the step of installing the heat insulating material and the fixing frame is omitted.

Next, the wall foundation forming step will be described with reference to FIG. 6.

Once the first to third building assemblies 1, 4, 5 are formed, they are transferred to the building construction site. First, in order to form the wall foundation 60, in the wall foundation forming step (S20), by connecting the first building assembly (1) to each other, the wall is standing perpendicular to the ground at the wall construction position of the ground on which the civil construction was carried out Form the foundation 60. However, it is possible to form the wall foundation 60 while standing the first building assemblies 1 vertically. In this case, the first building assemblies 1 may be welded to each other or fixed to wires to be installed vertically. The first building assemblies 1 can be connected in various ways. At this time, the first heat insulator 20a and the second heat insulator 20b serve as concrete formwork of the wall, so that a separate construction for installing the formwork is not added.

Next, the bottom foundation forming step will be described with reference to FIG. 7.

In order to construct the floor foundation 70, in the bottom foundation forming step S30, the third building assemblies 5 are arranged on the ground on which the civil works are performed. At this time, one side of the third building assembly 5 is connected to the first building assembly 1 of the wall foundation 60 to form a floor foundation 70. The third building assembly 5 may be secured to a pile (not shown) fixed to the ground. The third building assembly 3 and the first building assembly 1 of the wall foundation 60 can be welded together or joined together. The first and second heat insulating materials 20a and 20b and the finishing material fixing frame 30 are omitted at portions where the first building assembly 1 and the third building assembly 5 are connected to each other.

When the bottom foundation 70 is formed, in the pillar support member installation step S31, the pillar support member 71 is installed in the third building assembly 5 of the bottom foundation 70. The pillar support member 71 is provided at predetermined intervals. The upper surface of the pillar support member 71 is located on the same line as the upper surface of the bottom foundation 70. But it can be more protruding.

On the upper circumferential surface of the column support member 71, a flange 71a that is caught on the upper surface of the bottom foundation 70 is formed. However, the flange 71a can be omitted. The pillar support member 71 is formed of metal, and one side is open.

However, when the bottom surface is not constructed, the bottom foundation forming step S30 may be omitted. If the bottom foundation forming step S30 is omitted, the pillar installation step S31 may also be omitted.

Next, the slab foundation forming step will be described with reference to FIG. 8.

First, in order to form the slab foundation (80), first, in the column installation step (S40), slab support by slab inserting the lower end of the slab support column 81 to the pillar support member 71 installed in the bottom foundation 70 The pillars 81 are installed perpendicular to the bottom foundation 70. Since the slab support pillar 81 is inserted into the slab support member 71, the slab support pillar 81 can be easily separated from the bottom foundation 70. Slab support pillar 81 is adjustable in length. If the bottom foundation forming step (S20) is omitted, the lower end of the slab support pillar 81 can be directly installed on the ground.

When the slab support pillar 81 is installed, in the slab foundation forming step (S50), the second building assemblies 4 are connected to each other and installed on the slab support pillar 81. At the upper end of the slab support pillar 81, a pedestal 81a that supports the pillar fixing frame 45 is formed. The pedestal 81a is formed with a protrusion 81b inserted into the cut portion of the column fixing frame 45. By inserting the protrusion 81b, the upper end of the slab support pillar 81 may be fixed to the pillar fixing frame 45. However, the projection 81b may be omitted.

Thus, the slab foundation 80 is formed by connecting one side of the second building assembly assembly 4 installed on the slab support pillar 81 to the first building assembly 1 located above the wall foundation 60. At this time, the third insulation member 44 serves as the formwork of the slab concrete, and does not require a separate construction for installing the formwork.

The first and second heat insulators 20a and 20b and the finish fixing frame 30 are omitted in the portion where the first building assembly 1 and the second building assembly 4 are connected.

In addition, the pillar installation step (S40) may be carried out in the slab foundation forming step (S50) in the omitted state. In this case, the second building assembly 4 may be fixed only to the first building assembly 1 of the wall foundation 60.

On the other hand, in order to reinforce the slab foundation (80), in the step of arranging the reinforcing bar (S51), the reinforcing bar 82 is installed in the spacer portion 46 formed on one surface of the second building assembly (4). In this case, the spacer part 46 supports the reinforcing bar 82. The reinforcing bars 82 may be arranged in a plurality of layers according to the height of the spacer part 46.

Since the spacer part 46 is integrally formed in the second building assembly 4, a separate spacer member for supporting the reinforcing bar 82 is not required, thereby greatly reducing materials required for building a building.

Next, a concrete pouring step will be described with reference to FIG. 9.

When the wall foundation 60, the bottom foundation 70, and the slab foundation 80 is constructed, in the concrete placing step (S60), the concrete is poured into the floor foundation 70. At this time, the concrete to be poured does not flow into the pillar support member 71. And the concrete is poured into the concrete pouring portion (11c) of the wall foundation (60). At this time, the first heat insulator 20a and the second heat insulator 20b serve as concrete formwork so that concrete does not leak out of the wall foundation 60. The first heat insulator 20a and the second heat insulator 20b serve as concrete formwork, thereby eliminating the process of dismantling the formwork, thereby significantly shortening the construction period. The finishing material fixing frame 30 reinforces the first heat insulating material 20a and the second heat insulating material 20b from the outside to protect the first heat insulating material 20a and the second heat insulating material 20b from the internal pressure of the concrete.

And the concrete is poured into the slab foundation (80). At this time, the third insulation member 44 serves as the formwork of the slab concrete. And the column fixing frame 45 to reinforce the third heat insulator 44 to protect the third heat insulator 44 from the internal pressure of the concrete.

On the other hand, since the slab support pillar 81 supporting the slab foundation 80 is detachably coupled to the pillar support member 71, the floor and the slab of the building can be simultaneously installed, thereby greatly reducing the construction period of the building. have.

Next, with reference to Figure 10 will be described for the pillar demolition step, finishing material installation step.

In the concrete pouring step (S60), the poured concrete is cured, and the wall 600, the floor 700, and the slab 800 are formed. Thus, when the wall 600, the bottom 700, and the slab 800 is formed, the column is demolished in the column demolition step (S70). In order to demolish the slab support pillar 81, the length of the slab support pillar 81 is first reduced to separate the upper end fixed to the pillar fixing frame 45. And the lower end of the slab support pillar 81 is separated from the pillar support member 71. At this time, since the lower end of the slab support pillar 81 is inserted into the pillar support member 71, it can be easily separated.

Finishing material installation step (S80) includes a wall finishing material installation step (S81), slab finishing material installation step (S82).

First, in the wall finishing material installation step (S81), when the slab support pillar 81 is dismantled, the wall finishing material 601 is arranged along the longitudinal direction of the finishing material fixing frame 30 on the wall 600. The arranged wall finishing material 601 is fixed to the finishing material fixing frame 30 by fixing members such as nails and rivets. The wall finishing material 601 is formed with various patterns on the outer surface to improve the appearance of the building. The wall finishing material 601 may be formed of wood, stone, metal panels or the like.

And the slab finishing material installation step (S82) is arranged on the bottom surface of the slab 800 facing the bottom 700, the slab finishing material 801 along the longitudinal direction of the column fixing frame 45. Arranged slab finish 801 is fixed to the column fixed frame 45 by a fixing member such as nails and rivets. The slab finish 801 is formed with various patterns on the outer surface to improve the interior interior of the building. The wall finishing material 801 may be formed of wood, stone or the like.

In this building construction, since the reinforcing bars 82 and the laminated bars 83 are bound to the second building assembly 4 of the slab foundation 80, the spacers for installing the reinforcing bars are not required. As a result, the materials required for the construction of buildings can be greatly reduced.

In this way, the slab support pillar 81 is detachably installed on the column support member 71, so that the floor surface and the slab of the building can be simultaneously installed, thereby greatly shortening the building construction period.

In addition, the wall finishing material 601 and the slab finishing material 801 can be easily installed by the finishing material fixing frame 30 and the column fixing frame 45, thereby shortening the exterior construction period of the building.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

10: foundation network 20: insulation
30: Finishing frame 60: Wall foundation
70: floor foundation 80: slab foundation
601: wall finish 801: slab finish

Claims (14)

Connecting the bar members to each other by crossing them in the longitudinal / lateral direction, and placing the first heat insulating material and the second heat insulating material apart from each other in the space formed by the bar members to form a first building assembly;
Intersecting the bar members longitudinally and transversely to each other and placing a third thermal insulator in the space formed by the bar members to form a second building assembly,
Crossing the bar members in the longitudinal / lateral direction to form a third building assembly,
Erecting the first building assembly at a wall construction location on the ground to form a wall foundation,
Installing the third building assembly on the ground, and connecting one side of the third building assembly to the lower part of the first building assembly of the wall foundation to form a floor foundation;
Installing a column support member having one side open at a distance from the third building assembly of the floor foundation,
Erecting a slab support column on the column support member having one side open;
Installing the second building assembly on the slab support pillar and connecting a portion of the second building assembly to the top of the first building assembly of the wall foundation to form a slab foundation;
Placing concrete between the insulation of the wall foundation and above the insulation of the slab foundation and on the floor foundation, and
Removing the slab support pillar by separating the slab support pillar from the pillar support member after curing the concrete;
Building construction method comprising a. In claim 1,
Building construction method further comprising the step of reinforcing the reinforcing bar portion integrally formed on one surface of the second assembly. delete delete In claim 1,
The first building assembly forming step,
Arrange the first bar in the first direction,
Arranging a second bar to cross the first bar and arranging the second bars at different intervals along a length direction of the first bar to form a network unit having a heat insulating material coupling part, a fixed frame coupling part, and a concrete pouring part;
Arranging the network units in a second direction, and connecting a plurality of third bar network units to each other to form a basic network; and
Installing the first heat insulating material and the second heat insulating material in the heat insulating material coupling portion of the base network
Including;
The insulation coupling portion is formed with the concrete pouring portion therebetween, and the fixed frame coupling portion is formed outside the insulation coupling portion.
Building construction method. In claim 5,
The first building assembly forming step,
Installing a finish fixing frame to the fixing frame coupler;
After the slab support column is demolished, installing a wall finish fixed to the finish fixing frame on an outer surface of the wall foundation;
Building construction method. In claim 1,
The second building assembly forming step,
The bar member extends in one direction to form a spacer, and further comprising installing a pillar fixing frame on which one side of the slab support pillar is fixed to one surface of the third heat insulator.
The spacer part and the pillar fixing frame face each other with the third insulating material interposed therebetween.
Building construction method. In claim 7,
After removing the slab support pillar further comprises the step of installing a slab finishing material fixed to the slab support pillar fixed frame on one surface of the slab foundation;
Building construction method. In claim 7,
The slab support pillar fixed frame is any one of wood or metal building construction method. The building constructed by the building construction method as defined in any one of Claims 1, 2, 5-9. First bars arranged in a first direction, second bars intersecting the first bar, and second bars provided at different intervals along the length direction of the first bar, the heat insulating material coupling portion, the fixed frame coupling portion, and concrete casting The branch has network units,
Third bars connecting the network units to each other,
A plurality of heat insulating materials provided on the heat insulating material coupling part, and
Finishing frame is installed in the fixed frame coupling portion, and supporting the heat insulating material, the finishing material can be combined
Including;
The insulation coupling portion is formed with the concrete pouring portion interposed, and the fixed frame coupling portion is located outside the insulation coupling portion
Building assembly. delete In claim 11,
The width of the heat insulating material mounting portion is narrower than the width of the concrete pouring portion, the width of the fixed frame mounting portion is narrower than the width of the heat insulating material mounting portion. In claim 11,
Building assembly further comprising a spacer portion formed by extending the network unit in one direction.

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