KR102462960B1 - Prefabricated wall module for exterior insulation - Google Patents

Abstract

The present invention relates to an external insulation pre-assembled wall module in which an insulating material and a formwork are pre-assembled, and more specifically, a formwork can be installed without on-site reinforcement work or temporary materials, thereby securing wall quality and framing without an additional insulation construction process. It is about an external insulation pre-assembled wall module that can be installed together with external insulation to improve workability and shorten construction period.
The external insulation pre-assembled wall module of the present invention is for the construction of a concrete wall, and is composed of a support plate and a pair of wing plates bent at both ends of the support plate. The inner support is arranged in a plurality of rows in the vertical direction to form a space between which concrete is poured; a heat insulating material provided on the rear surface of the outdoor side of the inner supporter; It is composed of a support plate and a pair of wing plates bent at both ends of the support plate, is formed in a U-shape that is open to the outside in cross section, and is arranged in a plurality of rows at positions corresponding to the inner support to support the outer surface of the insulating material. ; a connecting bar interconnecting the support plate of the inner supporter and the support plate of the outer supporter; and a lightweight formwork coupled to the outer ends of the inner supporter and the outer supporter, respectively. It is characterized in that it is composed of

Description

Prefabricated wall module for exterior insulation

The present invention relates to an external insulation pre-assembled wall module in which an insulating material and a formwork are pre-assembled, and more specifically, a formwork can be installed without on-site reinforcement work or temporary materials, thereby securing wall quality and framing without an additional insulation construction process. It is about an external insulation pre-assembled wall module that can be installed together with external insulation to improve workability and shorten construction period.

Existing buildings are often constructed by selecting the internal insulation, which is usually installed on the interior side of the concrete wall, based on the insulation material.

This heat insulation construction method is convenient and inexpensive construction cost because the insulation material is installed indoors. However, it is unavoidable to generate a defective portion of the insulation material in the slab joint portion, the inner wall joint portion, and the like, and thus there is a problem of heat loss due to the thermal bridge phenomenon.

Meanwhile, starting with public buildings with a total floor area of 10,000 cm2 or more in 2020, zero-energy construction will be mandatory for all buildings of 500 cm2 or more by 2030.

Zero energy architecture is a concept that maximizes insulation performance to minimize energy load (passive technology) and minimizes energy consumption through renewable energy production (active technology).

As a result, building energy-saving design standards are continuously being strengthened, and heat transmittance standards for external walls have also been strengthened, making it unavoidable to change the construction method to an external insulation method.

In the existing external insulation method, since insulation construction is carried out in the form of enclosing the entire structure, it is easy to secure insulation performance and prevent the occurrence of thermal bridges. However, since the insulation material is attached and the panel finishing material is installed by additional work after the completion of the concrete frame construction, the construction cost and construction cost increase, and there is a high risk of safety accidents due to the work at height.

10-1347507 B1

In order to solve the above problems, the present invention is to provide an external insulation pre-assembled wall module that can secure wall quality by installing a formwork without on-site reinforcement work or temporary materials.

An object of the present invention is to provide an external insulation pre-assembled wall module capable of concurrently constructing external insulation together with frame construction without a separate additional insulation construction process.

The present invention according to a preferred embodiment relates to an external insulation wire assembly wall module for constructing a concrete wall, and is composed of a support plate and a pair of wing plates bent at both ends of the support plate, and is formed in a U-shape open to the outside in cross section. , An inner supporter in which a space in which concrete is poured is formed by being arranged in a plurality of rows in a vertical direction on the interior side of the wall; a heat insulating material provided on the rear surface of the outdoor side of the inner supporter; It is composed of a support plate and a pair of wing plates bent at both ends of the support plate, is formed in a U-shape that is open to the outside in cross section, and is arranged in a plurality of rows at positions corresponding to the inner support to support the outer surface of the insulating material. ; a connecting bar interconnecting the support plate of the inner supporter and the support plate of the outer supporter; and a lightweight formwork coupled to the outer ends of the inner supporter and the outer supporter, respectively. It provides an external insulation wire assembly wall module, characterized in that consisting of.

The present invention according to another preferred embodiment provides an outer insulation wire assembly wall module, characterized in that a receiving groove for accommodating the outer support is formed at the end edge of the outdoor side of the insulation material.

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In the present invention according to another preferred embodiment, the lightweight formwork is composed of a flat portion for forming the outer surface of the wall and a protrusion of a L-shaped section protruding from the inner surface of the flat portion in the horizontal direction of the wall, and the wing of the supporter At the outer end of the plate, a L-shaped locking hole in which the inlet is formed wider than the width of the protrusion is formed, and the light formwork is coupled to the support by being inserted and caught by the protrusion of the lightweight formwork. Insulated prefabricated wall modules are provided.

The present invention according to another preferred embodiment is an external insulation wire assembly wall module, characterized in that the space portion is provided with vertical reinforcing bars in the vertical direction, and horizontal reinforcing bars penetrating the wing plate of the inner supporter in the horizontal direction. to provide.

According to the present invention, it is possible to provide an external insulation pre-assembled wall module configured by coupling a lightweight formwork to the outer ends of the inner and outer supports provided with a heat insulating material therebetween to be interconnected by a connecting bar.

In particular, it is possible to provide an external insulation pre-assembled wall module provided with a heat insulator on the outside of the wall formed by pouring concrete into the space between the adjacent inner supports.

Accordingly, the formwork can be installed without on-site reinforcing work or temporary materials, so it is possible to secure wall quality and improve workability.

In addition, since it provides a pre-assembled pre-assembled wall module with an insulating material pre-assembled at the factory, it is possible to perform external insulation concurrently with frame construction without additional insulation construction process at the site, ensuring excellent insulation performance and shortening the construction period.

1 is a perspective view showing the present invention external insulation wire assembly wall module.
Figure 2 is a perspective view showing a pre-assembled wall module before installation of the indoor side lightweight formwork.
Figure 3 is a perspective view showing a coupling relationship between the insulating material and the outer support.
Figure 4 is a perspective view showing a coupling relationship between the inner support and the outer support.
5 is a side cross-sectional view showing the coupling relationship between the lightweight formwork and the support.
6 is a plan sectional view showing the state of reinforcement of horizontal and vertical reinforcement.
7 is an elevation view showing the coupling relationship of the adjacent outer insulation line assembly wall module.

Hereinafter, the present invention will be described in detail according to the accompanying drawings and preferred embodiments.

1 is a perspective view showing an external insulation pre-assembled wall module according to the present invention, and FIG. 2 is a perspective view showing a pre-assembled wall module before installing a lightweight formwork on the indoor side.

As shown in FIGS. 1 and 2, the present invention external insulation pre-assembled wall module relates to an external insulation pre-assembled wall module (1) for concrete wall construction, and a plurality of rows arranged in a vertical direction on the indoor side inside the wall an inner support (2) in which a space (S) in which the concrete (C) is poured is formed therebetween; a heat insulator (3) provided on the rear surface of the inner support (2); an outer supporter (4) disposed in a plurality of rows at positions corresponding to the inner supporter (2) to support the outer surface of the heat insulating material (3); a connecting bar (5) connecting the inner supporter (2) and the outer supporter (4); and a lightweight formwork (6) coupled to the outer ends of the inner supporter (2) and the outer supporter (4), respectively; It is characterized in that it is composed of

The present invention is to provide an external insulation pre-assembled wall module capable of concurrently constructing external insulation together with frame construction without a separate additional insulation construction process while securing wall quality by installing a formwork without on-site reinforcement work or temporary materials.

The pre-assembled wall module 1 is pre-fabricated in a factory and can be installed directly on site.

The pre-assembled wall module (1) is configured to include an inner supporter (2), an insulating material (3), an outer supporter (4), a connecting bar (5) and a lightweight formwork (6).

The inner supporter 2 is arranged in a plurality of rows in a vertical direction on the indoor side of the wall, and a space S in which the concrete C is poured is formed between the adjacent inner supporters 2 .

The inner supporter 2 fixes the inner lightweight formwork 6 installed on the interior side of the wall and not only ensures the same thickness of the wall but is also provided in the vertical direction of the wall to bear the axial force.

The inner support (2) is composed of a thickness corresponding to the thickness of the concrete wall.

The inner supporter 2 is provided in a plurality of rows to be spaced apart from each other in the lateral direction.

A space (S) is formed between the adjacent inner support (2).

After the pre-assembled wall module (1) is installed, concrete (C) is poured in the space (S) at the site to form a reinforced concrete wall.

The heat insulator 3 is provided on the rear surface of the inner supporter 2 on the outdoor side.

An outer supporter 4 is provided on the outside of the heat insulating material 3, and the inner supporter 2 and the outer supporter 4 are interconnected by a connecting bar 5 to fix the plate-shaped insulator 3 .

To this end, the outer supporter 4 is arranged in a plurality of rows at positions corresponding to the inner supporter 2 .

The connecting bar 5 may use a long bolt or the like.

The connecting bar 5 may pass through the heat insulating material 3 or be provided at the end of the heat insulating material 3 .

When the connecting bar 5 is provided at the end of the insulator 3, each side end of the insulator 3 has a semi-circular shape at the position of the connecting bar 5 so that a gap does not occur between the insulator 3 and the adjacent insulator. It is possible to form a groove. The connecting bar 5 is accommodated in a semi-circular groove.

A plurality of connecting bars 5 connecting the inner supporter 2 and the outer supporter 4 may be installed to be vertically spaced apart from each other.

The lightweight formwork (6) is fixedly coupled to the outer ends of the inner supporter (2) and the outer supporter (4), respectively.

The present invention external insulation pre-assembled wall module is an insulating material (3) integrated pre-assembled wall module (1).

In particular, since the heat insulating material 3 is provided on the outside of the wall to constitute the external insulation wire assembly wall module 1, excellent thermal insulation performance can be secured.

Since the lightweight formwork 6 and the heat insulating material 3 are pre-assembled at the factory in the pre-assembled wall module 1, the on-site process can be minimized, and thus the shortening of the construction period is large.

In some cases, the lightweight formwork 6 may be assembled on site.

3 is a perspective view showing the coupling relationship between the insulating material and the outer support.

As shown in FIG. 3 , an accommodating groove 31 in which the outer supporter 4 is accommodated may be formed in the outdoor end edge of the heat insulating material 3 .

Accordingly, when the insulating material 3 is hung and supported by the outer supporter 4 , the outer supporter 4 is accommodated in the receiving groove 31 to minimize the portion protruding to the outside.

In addition, the lightweight formwork (6) can be installed in close contact with the outer surface of the heat insulating material (3).

The receiving groove 31 is preferably formed to correspond to the shape and size of the outer supporter 4 at the installation position of the outer supporter 4 .

The receiving groove 31 may be formed to be long in a vertical direction.

4 is a perspective view showing a coupling relationship between the inner supporter and the outer supporter.

3 and 4, the inner supporter 2 and the outer supporter 4 are respectively support plates 21 and 41 and a pair of wings bent at both ends of the support plates 21 and 41, respectively. It is composed of plates 22 and 42 and is formed in a U-shape open to the outside in cross section, and the connecting bar 5 is a support plate 21 of the inner supporter 2 and a support plate 41 of the outer supporter 4 . can be configured to interconnect.

The inner supporter 2 and the outer supporter 4 may be formed in a U-shaped cross-section that is opened to the outside of the wall, respectively.

The inner supporter 2 and the outer supporter 4 are support plates 21 and 41 disposed in the direction of the wall member, respectively, and a pair of wing plates vertically bent outward at both ends of the support plates 21 and 41 ( 22, 42).

The end portions of the connecting bars 5 connecting the inner supporter 2 and the outer supporter 4 are coupled to the support plates 21 and 41 .

When the receiving groove 31 is formed at the outer end of the heat insulating material 3 , the support plate 41 of the outer supporting member 4 may be caught by the receiving groove 31 to support the heat insulating material 3 .

5 is a side cross-sectional view showing the coupling relationship between the lightweight formwork and the support.

As shown in FIG. 5, the lightweight formwork 6 has a flat plate part 61 for forming the outer surface of the wall and a L-shaped cross-section protruding from the inner surface of the flat plate part 61 in the horizontal direction of the wall. Consisting of a protrusion 62, the outer end of the wing plates 22 and 42 of the supports 2, 4 has a L-shaped locking hole 221, 421 having an entrance wider than the width of the protrusion 62. ) is formed and the protrusion 62 of the lightweight formwork 6 is inserted into and caught in the engaging holes 221 and 421 of the supports 2 and 4, so that the lightweight formwork 6 is attached to the supports 2 and 4 can be combined.

The lightweight formwork (6) can be composed of a flat plate part (61) and a protrusion part (62).

The flat plate portion 61 forms the outer surface of the wall.

The protrusion 62 is formed to protrude from the inner surface of the flat plate 61 in the horizontal direction of the wall, and has a L-shaped cross section.

The protrusion 62 maintains the rigidity of the lightweight formwork 6 and at the same time serves to easily couple and fix the lightweight formwork 6 to the supports 2 and 4 .

The protrusions 62 may be provided in a plurality of rows to be vertically spaced apart, and the L-shaped cross-section may consist of a horizontal portion and a vertical portion vertically bent downward from the end of the horizontal portion.

L-shaped locking holes 221 and 421 are formed in the outer ends of the wing plates 22 and 42 of the supporters 2 and 4 through which the protrusion 62 is inserted.

It is preferable to form the inlet of the locking hole (221, 421) wider than the width of the protrusion (62) so that the lightweight formwork (6) can be directly inserted and coupled from the front surface of the supports (2, 4).

After the protrusion 62 of the lightweight formwork 6 is inserted into the engaging holes 221 and 421 of the supports 2 and 4, the lightweight form 6 is moved downward to be caught in the engaging holes 221 and 421. It is preferable that the L-shaped locking holes 221 and 421 are formed to face downward.

The lightweight formwork 6 can be directly coupled to the supports 2 and 4 without a separate fixing member.

The lightweight formwork 6 is a permanent formwork that is fixed to the wall and does not require demolding.

The indoor-side lightweight formwork (6) is more firmly fixed by being embedded in the concrete (C) in which the protrusion (62) is poured into the space (S).

The outdoor-side lightweight formwork 6 can be more firmly fixed to the outer supporter 4 by tack welding or the like.

Meanwhile, a plurality of flow holes 222 may be formed in the wing plate 22 of the inner supporter 2 for the flow of concrete, smooth air discharge, and integration with concrete when the concrete C is poured.

6 is a plan sectional view showing the state of reinforcement of horizontal and vertical reinforcing bars, and FIG. 7 is an elevation view showing the coupling relationship of adjacent external insulation line assembly wall modules.

6 and 7, the space portion (S) is provided with a vertical reinforcing bar 7 in a vertical direction, and horizontally passing through the wing plate 22 of the inner supporter 2 in the horizontal direction. Reinforcing bars 8 may be provided.

When the amount of reinforcing bars is insufficient only with the inner support 2 , the vertical reinforcing bars 7 may be reinforcing in the space S.

The vertical reinforcing bar 7 can be pre-installed at the factory, and field reinforcement is also possible to facilitate the reinforcing bar connection when the upper and lower pre-assembled wall modules 1 are joined. When the vertical reinforcement (7) is reinforced on-site, the indoor side lightweight formwork (6) is also assembled on-site.

The horizontal reinforcing bar (8) can be fixed in position by using the wing plate (22) of the inner support (2).

To this end, a through hole 223 may be formed in the wing plate 22 , and a horizontal reinforcing bar 8 may be inserted into the through hole 223 to fix the position.

In addition, horizontal joint reinforcement (8') can be installed to connect adjacent walls in the horizontal direction to each other.

To this end, a through hole 223 for insertion of the horizontal joint reinforcement 8' is formed in the wing plate 22 of the inner supporter 2 .

1: Pre-assembled wall module 2: Inner support
21: support plate 22: wing plate
221: catch ball 222: flow ball
223: through hole 3: insulation material
31: receiving groove 4: outer support
41: support plate 42: wing plate
421: jamming hole 5: connecting bar
6: lightweight formwork 61: flat plate
62: protrusion 7: vertical reinforcing bar
8: horizontal reinforcement 8': horizontal joint reinforcement
C: Concrete S: Space

Claims (5)

It relates to an external insulation prefabricated wall module (1) for concrete wall construction,
It consists of a support plate 21 and a pair of wing plates 22 bent at both ends of the support plate 21 and is formed in a U-shape that is open to the outside in cross section, and is arranged in a plurality of rows in a vertical direction on the indoor side of the wall inside. an inner support (2) in which a space (S) in which concrete (C) is poured is formed;
a heat insulator (3) provided on the rear surface of the inner support (2);
It consists of a support plate 41 and a pair of wing plates 42 bent at both ends of the support plate 41 and is formed in a U-shape that is open to the outside in cross section, and is formed in a plurality of positions corresponding to the inner supporter 2 . an outer support (4) for supporting the outer surface of the heat insulating material (3) by being arranged in a row;
a connecting bar (5) interconnecting the support plate (21) of the inner support (2) and the support plate (41) of the outer support (4); and
a lightweight formwork (6) coupled to the outer ends of the inner support (2) and the outer support (4), respectively; External insulation pre-assembly wall module, characterized in that consisting of.
In claim 1,
The outer insulation wire assembly wall module, characterized in that a receiving groove (31) for accommodating the outer support (4) is formed at the edge of the outdoor side end of the heat insulating material (3).
delete In claim 1,
The lightweight formwork (6) is composed of a flat plate portion (61) for forming the outer surface of the wall and a protrusion portion (62) of a L-shaped section protruding from the inner surface of the flat portion (61) in the horizontal direction of the wall,
At the outer ends of the wing plates 22 and 42 of the supports 2 and 4, L-shaped locking holes 221 and 421 having an inlet wider than the width of the protrusion 62 are formed, so that the lightweight formwork ( 6) the protrusion 62 is inserted into and caught in the engaging holes 221, 421 of the supports 2, 4, whereby the lightweight formwork 6 is coupled to the supports 2, 4 External insulation, characterized in that Prefabricated wall module.
In claim 1,
The space part (S) is provided with a vertical reinforcing bar 7 in the vertical direction, characterized in that the horizontal reinforcing bar 8 penetrating the wing plate 22 of the inner supporter 2 is provided in the horizontal direction. Exterior insulation prefabricated wall module.

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