KR102259453B1 - Foam assembly integrated with wall for architecture - Google Patents

Abstract

The present invention relates to a wall-integrated formwork assembly for building that can be used as a wall of a building as it is without dismantling the formwork used during building construction.
The present invention applies a wall-integrated formwork consisting of an assembled structure of an inner panel, an outer panel, and a diaphragm when constructing a wall of a building, so that it can be used as a wall without dismantling the formwork after concrete pouring and curing for wall structure construction. In addition to improving constructability and economic feasibility, such as reducing time and manpower for installation and dismantling of formwork, it is possible to significantly shorten the construction period for walls, and to secure wall construction quality by using standardized wall-integrated formwork. It provides a wall-integrated formwork assembly for construction that can be used.

Description

Architectural wall-integrated formwork assembly {FOAM ASSEMBLY INTEGRATED WITH WALL FOR ARCHITECTURE}

The present invention relates to a wall-integrated formwork assembly for building, and more particularly, to a building-integrated wall-integrated formwork assembly that can be used as a wall of a building as it is without dismantling the formwork used during building construction.

In general, the walls of various buildings such as houses, factories, warehouses, fences, soundproof walls, etc. are constructed by a concrete injection method using a formwork.

Usually, the concrete injection method consists of manufacturing a form to limit the shape of the wall, pouring concrete into the form, and then hardening the concrete to form a concrete wall. After the concrete is cured, the formwork is dismantled.

As an example, looking at the formwork construction process at the construction site, reinforcing bars on the floor, pouring the foundation concrete thereon, connecting to rebars, arranging vertical/horizontal rebars in a grid type, and reinforcing bars with fine wire After binding at the point where they intersect, a form such as Euroform is installed.

Then, in order for the formwork installed in this way to withstand the lateral pressure of the concrete being poured inside, it is assembled with various kinds of accessories (vertical tie, wedge, wedge plate, steel pipe pipe, etc.) while supporting the formwork as a support, and the concrete is poured. and dismantle the formwork after completion of the frame work by curing.

Next, after dismantling the formwork and constructing the wall, the wall construction is completed by attaching the interior and exterior materials such as stone panels to the inner and outer surfaces of the wall.

However, the wall construction method of a building using a form takes a considerable amount of time and manpower to install and dismantle the form, and it takes a lot of time and money in that the next process can be started only after the form is dismantled. There are problems accompanying the work, the complexity of the reinforcement work, the difficulty of construction that must maintain a certain distance between the formwork and the reinforcement, and the complicated work environment and the risk of safety accidents due to the installation of the formwork support. Also, there are problems in that labor costs increase and the period of time is prolonged due to the removal of the formwork, the removal of scratches, and the removal of the protruding parts of the accessories.

Korean Patent Publication No. 10-2005-0021771 Korean Patent Publication No. 10-2005-0081377 Korean Patent Publication No. 10-2014-0111432 Korean Patent Registration No. 10-1806831 Korea Public Utility Model No. 20-2010-0011591

Therefore, the present invention was devised in consideration of the above points, and when constructing a wall of a building, a wall-integrated formwork consisting of an assembled structure of an inner panel, an outer panel and a diaphragm is applied, and after concrete pouring and curing for wall structure construction By allowing the formwork to be used as a wall without dismantling it, the time and manpower for installing and dismantling the formwork can be reduced. An object of the present invention is to provide a wall-integrated formwork assembly for building that can secure the construction quality of the wall by using the formwork.

In order to achieve the above object, the building wall-integrated formwork assembly provided by the present invention has the following characteristics.

The wall-integrated formwork assembly includes an inner panel having a female coupling part and a male coupling part formed on both ends and a fitting groove formed on the inside surface, and an inner panel having a female coupling part and a male coupling part formed on both ends at the same time. It has an outer panel having a fitting groove formed in it, and a fitting protrusion coupled to the fitting groove of the inner and outer panel at both ends, and at the same time having a through hole for concrete communication between the inner panel and the outer panel facing each other. It consists of a structure including a diaphragm that is interposed and maintains the distance between the inner and outer panels, so that the interior is divided into a plurality of grid-type spaces that communicate with each other and forms the wall of the building together with the concrete structure that is poured and cured inside.

Here, the male and female coupling parts of the inner panel and the outer panel are made of a resilient clip structure and can be coupled to each other in a one-touch fastening method, and at this time, one side of the male and female coupling parts in the inner panel and the outer panel is connected between the male and female coupling parts. A coupling support groove may be formed so that the tool for pressing can be pushed or hit by walking.

In particular, on the outer surfaces of the inner panel and the outer panel, an interior and exterior material attachment bracket may be formed as a support means for installation of the interior and exterior material. The bracket for attaching the interior and exterior material includes a cover coupling part integrally formed on the panel side, and the cover coupling part. It may be composed of a cover coupled to, and an interior/exterior material support inserted inside the cover.

At this time, the cover coupling part and the cover of the bracket for attaching the interior and exterior materials may be combined with a wedge-type locking structure, a slide-type fitting structure, etc. and so on.

As a preferred embodiment, the diaphragm may be formed with a rebar insertion hole for horizontal reinforcement of the reinforcing bar.

In a preferred embodiment, a heat insulating wall including a heat insulating space layer may be integrally formed on the outer surface of the inner panel, the outer surface of the outer panel, and the outer surface of the inner panel and the outer panel.

In addition, the wall-integrated formwork assembly for building is installed at the corner portion of the wall made of a combination of inner and outer panels and diaphragms, female coupling portions are formed at both ends in the width direction, and fitting grooves are formed on one side in the thickness direction, and at the same time the opposite side A pair of corner connecting plates on which a male coupling part is formed, and a corner finishing plate interposed between one side facing each other of the corner connecting plate while having fitting projections coupled to the fitting grooves of the corner connecting plates at both ends in the width direction are further added. may include

As a preferred embodiment, the inner panel, the outer panel, and the diaphragm may be manufactured by extrusion molding using a synthetic resin material.

The wall-integrated formwork assembly for building provided in the present invention has the following effects.

First, by using a wall-integrated formwork assembly consisting of an assembled structure of inner panel, outer panel and diaphragm, pouring and curing concrete for wall construction of a building, and using it as a wall together with a concrete structure without dismantling the formwork, It is possible to improve constructability and economic feasibility, such as reducing the time and manpower required for installing and dismantling formwork, while at the same time increasing the safety of construction, significantly reducing the time required for wall construction, and installing standardized wall-integrated formwork As it is used, it has the effect of securing the construction quality of the wall.

Second, it can be assembled and manufactured in a factory according to the design of the construction site, and can be directly applied to the construction site, so it has the effect of promoting the efficiency of work, shortening of the period and reducing the construction cost.

Third, since the inner and outer panels and diaphragms that make up the formwork, as well as the reinforcing bars built into the formwork, are integrated with the concrete, structural stability against loads, buckling and bending moments can be increased, and more stable walls of buildings can be realized. It works.

Fourth, materials such as inner and outer panels, diaphragms, and end covers can be mass-produced by size and standard, and thus, from a long-term point of view, there is an excellent economic effect.

Fifth, since it can be manufactured by a method such as plastic extrusion, it is easy to manufacture and has the effect of reducing manufacturing costs. Also, since it is light in weight and can be assembled on site after dismantling and transporting, it is easy to transport to the construction site and easy to handle. It has a simple effect.

Sixth, there are holes for reinforcing reinforcing bars inside the form assembly, and the work of attaching panels, assembling panels, and finishing the corners of the panels are very easy, so even non-skilled workers can do it. It has the effect of being able to easily perform construction such as reinforcement, assembly, and pouring.

Seventh, there is an effect that can improve the efficiency of the construction related to the interior and exterior material attachment construction and the insulation construction, such as the inner panel and / or the outer panel is equipped with a bracket for attaching the interior and exterior material, and the insulating space layer is integrally formed.

1 to 6 are a perspective view and a cross-sectional view showing a wall-integrated formwork assembly (single type) for construction according to an embodiment of the present invention;
7 to 14 are a perspective view and a cross-sectional view showing a wall-integrated formwork assembly (internal/exterior attachment type) for construction according to an embodiment of the present invention;
15 is a cross-sectional view showing various examples of brackets for attaching interior and exterior materials in a building wall-integrated formwork assembly according to an embodiment of the present invention;
16 is a cross-sectional view showing an outer panel with a thermal insulation layer attached to the wall-integrated formwork assembly according to an embodiment of the present invention;
17 is a perspective view showing a diaphragm in a wall-integrated formwork assembly for construction according to an embodiment of the present invention;
18 to 21 are cross-sectional views showing a construction example of a wall-integrated formwork assembly for construction according to an embodiment of the present invention;

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 6 are a perspective view and a cross-sectional view showing a single-type building wall-integrated formwork assembly according to an embodiment of the present invention.

1 to 6, the single-type building wall-integrated formwork assembly is a prefabricated combination of inner and outer panels and diaphragms, and such a wall-integrated formwork assembly for construction is not dismantled after concrete pouring and curing, but is concrete It is made of a structure used as a wall of a building together with a structure.

To this end, the building wall-integrated formwork assembly includes an inner panel 13 as a means constituting the inner side of the building wall.

The inner panel 13 is in the form of a rectangular plate, and female coupling portions 10 and male coupling portions 11 are formed at both ends of the inner panel 13, for example, both side ends in the left and right longitudinal directions, respectively. do.

At this time, the female coupling part 10 and the male coupling part 11 may be continuously formed in parallel along the vertical height direction of the inner panel 13, and accordingly, using the male and female coupling parts 10 and 11, they are adjacent to each other. When the inner panels 13 are coupled together, the inner panels 13 on both sides can be connected to each other over the entire section in the vertical and vertical directions through the coupling structure of the male and female coupling parts 10 and 11 .

Here, the male and female coupling portions 10 and 11 of the inner panel 13 are made of a resilient clip structure so that they can be coupled to each other in a one-touch fastening method.

For example, the male coupling part 11 is composed of a support end 11a extending obliquely from the panel body, and a wedge-shaped engaging end 11b formed at the end of the support end 11a at this time, and the The female coupling part 10 has a support end 10a extending from the panel body while having a locking protrusion 10b at the end, and a stopper 10c inwardly extending from the panel body and simultaneously with the support end 10a. It is made of a resilient cover body (10e) arranged side by side while forming an insertion groove (10d) therebetween.

Accordingly, when connecting the inner panels 13 on both sides adjacent to each other and arranged side by side in a line, the engaging end 11b of the male coupling part 11 on one inner panel 13 is connected to the other inner panel 13 . ), when inserted into the insertion groove portion 10d between the support end 10a of the female coupling portion 10 and the cover body 10e, the cover body 10e at this time is caught entering the insertion groove portion 10d. It is lifted outward by the stage 11b.

Subsequently, as the end of the locking end 11b touches the stopper 10c, the locking end 11b of the male coupling part 11 is engaged with the locking jaw 10b of the female coupling part 10 and at the same time Since the cover body 10e recovers its elasticity and presses it while covering the engaging end 11b, the inner panels 13 on both sides can be closely connected by the fastening between the male and female coupling parts 10 and 11. do.

At this time, when coupling between the male and female coupling parts 10 and 11 for the connection between the inner panel 13, a force is applied more reliably to support the coupling as a means for firmly and easily coupling the male and female coupling parts 10 and 11. A groove 19 is provided.

The coupling support groove 19 has a groove structure formed in parallel along the vertical height direction of the inner panel 13 at a position adjacent to the male and female coupling portions 10 and 11 on the outer surface of the inner panel 13 . .

Accordingly, when a tool such as a screwdriver, a rod, etc. is hung in the coupling support groove 19 in a state in which the male and female coupling parts 10 and 11 in the inner panel 13 of both sides are facing each other, and then the tool is lightly struck with a hammer, etc. , it is possible to easily fasten the male and female coupling parts 10 and 11 of the inner panel 13 without effort, and to ensure a reliable fastening state.

In addition, a plurality of fitting grooves 12 are formed on the inner surface of the inner panel 13 as a means for connecting the diaphragm 17 to be described later.

These fitting grooves 12 are formed in a form in which they are arranged at regular intervals along the vertical and horizontal directions of the inner panel 13 and at the same time along the left and right longitudinal directions, and the fitting grooves 12 thus formed have a diaphragm 17 ), the fitting protrusion 15 at one end of the slide structure can be coupled while being fitted.

Here, the fitting groove 12 may be formed of a groove having a cross-section of various shapes, such as a rectangular cross-section, a circular cross-section, a triangular cross-section, an elliptical cross-section, and a polygonal cross-section with one side open.

In addition, a heat-insulating wall including a heat-insulating space layer may be integrally formed on the outer surface of the inner panel 13, and the heat-insulating wall effectively prevents indoor heat from escaping to the outside by using the air layer in the heat-insulating space layer. can play a deterrent role.

Such an inner panel 13 can be manufactured by an extrusion molding method using a metal material, a synthetic resin material, etc., and during the extrusion molding at this time, the male and female coupling parts 10 and 11, the fitting groove 12, and the coupling support groove. (19) can also be integrally molded together.

In this way, by manufacturing the inner panel 13 by extrusion molding using metal or synthetic resin as a material, it is possible to not only have excellent manufacturability but also to reduce the manufacturing cost.

In addition, the building wall-integrated formwork assembly includes an outer panel 14 as a means constituting the outside of the building wall.

The outer panel 14 is symmetrical with the inner panel 13, and the basic form of the outer panel 14, for example, the male and female coupling parts 10 and 11, the fitting groove 12, and the coupling support groove. The basic shape including (19) and the like is the same as that of the inner panel 13, the connection structure between the outer panels 14 is also the same as the connection structure between the inner panels 13, and the manufacturing method of the outer panel 14 In addition, since it is the same as the manufacturing method of the inner panel 13 manufactured by the extrusion molding method using a metal or synthetic resin material, a detailed description thereof will be omitted.

In addition, the wall-integrated formwork assembly for construction includes a partition plate 17 as a means for integrally binding the inner and outer panels 13 and 14 while being inserted between the inner panel 13 and the outer panel 14 and assembled.

The diaphragm 17 is a plate body in the form of an elongated band, and at both ends of the diaphragm 17, that is, at both ends in the left and right longitudinal direction, fitting projections 15 ) is integrally formed, and one of the two fitting projections 15 thus formed is in the fitting groove 12 of the inner panel 13, and the other one is in the fitting groove 12 of the outer panel 14, respectively. It can be joined as it is inserted.

Here, the fitting protrusion 15 of the diaphragm 17 may be formed of a protrusion having a cross-section of various shapes, such as a rectangular cross-section, a circular cross-section, a triangular cross-section, an elliptical cross-section, and a polygonal cross-section.

In addition, a plurality of through-holes 16 penetrating the thickness of the diaphragm are formed in the diaphragm 17 , and the through-holes 16 are formed between the inner and outer panels 13 and 14 partitioned by the diaphragm 17 . It serves to connect the internal spaces with each other.

Accordingly, when concrete is poured into the inner space formed between the inner and outer panels 13 and 14 , the concrete poured into each partitioned space is bound to each other by the through-hole 16 , and the integrated concrete structure In addition to being able to achieve a sense of unity with the inner and outer panels 13 and 14 and the diaphragm 17, it is possible to be bound.

Such a diaphragm 17 is installed in a structure that is slidably fitted into the fitting grooves 12 in the inner and outer panels 13 and 14 using the fitting protrusions 15 at both ends, and the diaphragm installed in this way ( 17) is interposed between the inner and outer surfaces facing each other between the inner panel 13 and the outer panel 14 at a right angle to the inner and outer panels 13 and 14 while maintaining the distance between the inner and outer panels 13 and 14 In addition, it is possible to integrally bind between the inner and outer panels 13 and 14 .

In this way, as a plurality of diaphragms 17 are installed while maintaining a certain distance between the inner panel 13 and the outer panel 14 arranged in a vertical position while maintaining a certain distance from each other, the inner and outer panels 13, 14), a number of spaces partitioned by a box-shaped cross section are formed between the spaces, and as concrete is poured into each space thus created and cured, the combination of the inner and outer panels 13 and 14, the diaphragm 17, and the concrete structure The wall 18 of the building consisting of can be built.

In particular, the diaphragm 17 can be manufactured by an extrusion molding method using a metal material, a synthetic resin material, and the like, and the fitting protrusion 15 can be integrally formed together during the extrusion molding at this time.

In this way, by manufacturing the diaphragm 17 by extrusion molding using a metal or synthetic resin as a material, it is possible to reduce manufacturing cost as well as excellent manufacturability.

And, in the case of the through hole 16 formed in the diaphragm 17, after the diaphragm extrusion molding, it can be formed by a punching processing method using a separate roller-type punch facility (not shown).

For example, a plurality of through-holes 16 can be formed in the diaphragm 17 through a continuous process of transferring the diaphragm 17 in the vertical and height directions between the rotating roller-type punching equipment, and thus the through-holes It is possible to simplify the process related to machining.

Of course, the reinforcing bar insertion hole 21 to be described later can also be formed in such a way that the through hole 16 is machined together.

In addition, the wall-integrated formwork assembly for construction is a means that can simply and effectively finish the corner portion of the wall 18 made of a combination of the inner and outer panels 13 and 14 and the diaphragm 17, and a corner connecting plate 24 and and a corner finish plate (25).

The corner connecting plate 24 is a plate body in the form of a long band, and female coupling portions 10 are respectively formed at both ends of the corner connecting plate 24 in the width direction.

At this time, the female coupling part 10 may be continuously formed in parallel along the vertical height direction of the corner connection plate 24 , and accordingly, the two corner connection plates 24 are internally formed using the female coupling part 10 . When coupled with the male coupling part 11 on the side of the outer panels 13 and 14, the corner connection plate 24 and the inner and outer panels 13 and 14 are connected in the vertical direction through the coupling structure of the male and female coupling parts 10 and 11. can be connected to each other over the entire section of

Here, the corner connecting plate 24 and the male and female coupling portions 10 and 11 of the inner and outer panels 13 and 14 are made of a resilient clip structure so that they can be coupled to each other in a one-touch fastening method.

For example, the male coupling part 11 is composed of a support end 11a extending obliquely from the panel body, and a wedge-shaped engaging end 11b formed at the end of the support end 11a at this time, and the The female coupling part 10 has a support end 10a extending from the panel body while having a locking protrusion 10b at the end, and a stopper 10c inwardly extending from the panel body and simultaneously with the support end 10a. It is made of a resilient cover body (10e) arranged side by side while forming an insertion groove (10d) therebetween.

Accordingly, when connecting the corner connecting plate 24 and the inner and outer panels 13 and 14, which are adjacent to each other and arranged in a line, the engaging end of the male coupling portion 11 in the inner and outer panels 13 and 14 is connected. When the (11b) is inserted into the insertion groove (10d) between the support end (10a) of the female coupling part (10) of the corner connecting plate (24) and the cover body (10e), the cover body (10e) at this time is It is lifted outward by the engaging end 11b that enters the insertion groove 10d.

Subsequently, as the end of the locking end 11b touches the stopper 10c, the locking end 11b of the male coupling part 11 is engaged with the locking jaw 10b of the female coupling part 10 and at the same time Since the cover body 10e recovers its own elasticity and presses it while covering the engaging end 11b, the corner connecting plate 24 and the inner side arranged in parallel with the fastening between the male and female coupling parts 10 and 11 The outer panels 13 and 14 can be closely connected.

In addition, a pair of fitting grooves 12 are formed on one side of the corner connecting plate 24 in the thickness direction, and a pair of parallel male coupling portions 11 are formed on the opposite side.

At this time, the fitting protrusion 15 on the corner closing plate 25 can be fitted into the pair of fitting grooves 12 of the corner connecting plate 24, and the pair of male coupling portions 11 are connected to the corner connecting plate ( 24) to be coupled to the female coupling portion 10 of the inner and outer panels 13 and 14 disposed to face one side, that is, the inner and outer panels 13 and 14 facing at right angles to the corner connecting plate 24. be able to

For example, the engaging end 11b of the male coupling part 11 of the corner connecting plate 24 is connected to the supporting end 10a of the female coupling part 10 of the inner and outer panels 13 and 14 and the cover body. When inserted into the insertion groove portion 10d between (10e), the cover body 10e at this time is lifted outward by the locking end 11b that enters the insertion groove portion 10d, and continues to the locking end ( As the end of 11b) touches the stopper 10c, the locking end 11b of the male coupling part 11 is engaged with the locking jaw 10b of the female coupling part 10, and at the same time, the cover body 10e itself As the elasticity is restored and pressed while covering the engaging end 11b, the inner and outer panels 13 and 14 are arranged facing the corner connecting plate 24 at right angles by the fastening between the male and female coupling parts 10 and 11. ) can be closely linked.

The corner finishing plate 25 is a plate body in the form of a long band, and at both ends of the corner finishing plate 25, that is, both ends in the left and right width directions, are parallel to the top and bottom of the finishing plate and at the same time over the entire length in the height direction, respectively. The fitting protrusion 15 is integrally formed, and the two fitting protrusions 15 thus formed are spaced at a predetermined interval at the edge of the wall 18, for example, at an interval corresponding to the interval between the inner and outer panels 13 and 14. It is possible to be coupled while being fitted in each fitting groove 12 of the pair of corner connecting plates 24 arranged.

Here, the fitting protrusion 15 of the corner finishing plate 25 may be formed of a protrusion having a cross-section of various shapes, such as a rectangular cross-section, a circular cross-section, a triangular cross-section, an elliptical cross-section, and a polygonal cross-section.

The corner finishing plate 25 has a structure that is slidably fitted into the fitting grooves 12 at positions facing each other of the pair of corner connecting plates 24 using the fitting protrusions 15 at both ends. Installed and installed in this way, the corner finishing plate 25 is interposed between the facing surfaces of the pair of corner connecting plates 24 that are facing each other at a right angle to the gap between the pair of corner connecting plates 24. In addition to maintaining, it is possible to integrally bind between the corner connecting plates 24 .

The corner connecting plate 24 and the corner finishing plate 25 can be manufactured by extrusion molding using a metal material, a synthetic resin material, etc., and during the extrusion molding at this time, the male and female coupling parts 10 and 11, the fitting protrusion (15), the fitting groove 12, etc. can be integrally molded together.

In this way, by manufacturing the corner connecting plate 24 and the corner finishing plate 25 by extrusion molding using metal or synthetic resin as a material, it is possible to not only have excellent manufacturability but also to reduce the manufacturing cost.

In particular, in the case of one corner finishing plate 25 among the pair of corner finishing plates 25, for example, in the case of the corner finishing plate 25 exposed to the outside of the wall, the end with the fitting protrusion 15 is stepped. Accordingly, when the corner finishing plate 25 having such a stepped end is connected between the corner connecting plates 24 on both sides, the surface of the corner closing plate 25 and the outer panel 14 are The surface becomes the same, and eventually the corner part of the wall 18 can be processed smoothly without the protruding part.

In addition, the wall corner part finishing means of the building is composed of a pair of corner connecting plates 24 and corner closing plates 25, at this time, one of the pair of corner connecting plates 24 is inside and the other one is disposed on the outside, and one of the pair of corner finishing plates 25 is disposed on the inside, and the other one is disposed on the outside.

In addition, through-holes 16 are formed in each of the corner connecting plates 24 and the corner finishing plates 25 arranged on the inside, and accordingly, the inner and outer panels 13 and 14 also inside the wall corner finishing parts. As the concrete is poured and cured, it can be mutually bonded with the concrete on the inner and outer panels 13 and 14 side as in the interior of the .

7 to 14 are a perspective view and a cross-sectional view illustrating an interior/exterior attachment type wall-integrated formwork assembly according to an embodiment of the present invention.

7 to 14, here shows a wall-integrated formwork assembly for building with a bracket 20 for attaching an interior and exterior material to the inner panel 13 and/or the outer panel 14 for attaching the interior and/or exterior material .

Here, the inner panel 13 and the outer panel 14 and the diaphragm 17 constituting the wall-integrated formwork assembly for the interior/exterior attachment type assembly, their assembly structure and manufacturing method, the corner connecting plate 24 and the corner finish Since the plate 25 and the like are the same as those of the single-type building wall-integrated formwork assembly described above, a detailed description thereof will be omitted.

In particular, the interior/exterior attachment type wall-integrated formwork assembly includes a bracket 20 for attaching an interior and exterior material that is molded together during panel injection molding, and accordingly, the interior material and the interior material on the inner panel 13 and/or the outer panel 14 / or the exterior material can be easily constructed.

To this end, on the outer surfaces of the inner panel 13 and the outer panel 14, a plurality of interior and exterior material attachment brackets 20 are arranged at regular intervals along the left and right longitudinal directions of the panel and are continuous in the vertical direction of the panel. is formed

The bracket 20 for attaching the interior and exterior materials forms a pair of side-by-side wall shapes and includes a cover coupling part 20a integrally formed on the panel side, and a "C"-shaped cover 20b coupled to the cover coupling part 20a at this time, When the cover 20b is coupled to the cover coupling portion 20a, the interior and exterior material support 20c may be installed to be inserted therebetween.

The cover coupling portion 20a and the cover 20b of the bracket 20 for attaching the interior and exterior materials can be coupled to each other in a wedge-shaped locking structure or a slide-type fitting structure.

As an example, as shown in FIG. 15 , wedge-shaped projections of a multi-stage structure are formed on the inner surfaces of the cover coupling portion 20a facing each other, and wedge-shaped projections are also formed on both ends of the cover 20b. .

Accordingly, while covering the interior and exterior material support 20c with the cover 20b in a state where the interior and exterior material support 20c is inserted inside the cover coupling portion 20a, the wedge-shaped protrusion of the cover 20b is inserted into the cover coupling portion 20a. ), when pressed against the wedge-shaped protrusion, the cover 20b and the cover support 20a are coupled, and the interior and exterior material support 20c interposed therebetween can be fixed.

As another example, as shown in FIG. 15 , fitting grooves are formed on the inner surfaces of the cover coupling portion 20a facing each other, and fitting protrusions are formed on both ends of the cover 20b.

Accordingly, while covering the interior and exterior material support 20c with the cover 20b in a state in which the interior and exterior material support 20c is inserted inside the cover coupling portion 20a, the fitting protrusion of the cover 20b is inserted into the cover coupling portion 20a. When inserted in a sliding manner into the fitting groove of the cover (20b) and the cover support (20a) is coupled while the interior and exterior material support body (20c) interposed therebetween can be fixed.

As another example, as shown in FIG. 15 , in a state in which the cover is removed, wedge-shaped projections or fitting grooves having a multi-stage structure are formed in the cover coupling portion 20a, and at the same time, wedges are formed on both sides of the interior and exterior material support 20c A mold protrusion or a fitting protrusion is formed.

Accordingly, when the wedge-shaped protrusion or fitting protrusion of the interior and exterior material support body 20c is pressed into the wedge-shaped protrusion of the cover coupling portion 20a or is slidably inserted into the fitting groove, the interior and exterior material support body 20c without a cover can be directly fixed to the cover coupling portion (20a).

And, as shown in FIG. 15, the interior and exterior material support body 20c of the bracket 20 for attaching the interior and exterior material can be applied in various shapes and types, such as a square pipe of a square cross section, wood, a square pipe of a rectangular cross section, etc. do.

Therefore, when the interior material 100 and the exterior material 110 are installed on the wall of a building, the interior material 100 and the exterior material on the front surface of the interior and exterior material attachment bracket 20 protruding on the inner and outer surfaces of the inner and outer panels 13 and 14 After attaching the (110), the interior and exterior materials (100,110) and the bracket (20) for attaching the interior and exterior materials are fastened together with a screw or a tack, etc., so that the construction work of the interior and exterior materials (100,110) can be performed quickly and simply.

That is, since the inner and outer panels 13 and 14 forming the wall of the building are equipped with the brackets 20 for attaching the interior and exterior materials, the interior and exterior materials 100 and 110 can be attached to the interior and exterior material attachment brackets 20 immediately after the wall is built. It is possible to efficiently perform the construction work of (100,110).

16 is a cross-sectional view showing an outer panel with a thermal insulation layer attached to the wall-integrated formwork assembly according to an embodiment of the present invention.

As shown in FIG. 16 , here, a structure provided with heat insulating means on the outer surface of the inner panel 13 and/or the outer panel 14 is shown.

For example, on the outer surface of the inner panel 13, the outer surface of the outer panel 14, or the outer surface of the inner panel 13 and the outer panel 14, a plurality of heat insulating walls are partitioned into a box-shaped space by a partition wall. The insulating wall 23 of a certain thickness including the space layer 22 is integrally formed in a structure forming a layer in parallel with the panel.

Here, when the inner and outer panels 13 and 14 are connected, the insulating walls 23 on both sides adjacent to each other connected together can be connected to each other by the coupling between the concave-convex coupling portions 26 each has.

Accordingly, the heat insulating wall 23 is formed on the wall surfaces of the inner panel 13 and the outer panel 14, and the heat inside the room is transferred to the outdoor by the heat insulating space layer 22 of the heat insulating wall 23 thus formed. In addition to being able to block the escaping from the furnace, it is possible to block the penetration of cold air from the outside into the room, so when the wall 18 of the building is constructed using the wall-integrated formwork assembly, the insulation performance can be secured. , it is possible to improve the thermal efficiency of the building in the end.

At this time, the insulating wall 23 can also be integrally molded together during extrusion molding of the synthetic resin material of the inner and outer panels 13 and 14 .

17 is a perspective view showing a diaphragm in the wall-integrated formwork assembly for construction according to an embodiment of the present invention.

As shown in FIG. 17, here, a diaphragm 17 having a hole 21 for reinforcing reinforcing bars that can facilitate reinforcing reinforcing work inside the wall during construction of the wall 18 of the building is shown.

For example, in the diaphragm 17, a plurality of reinforcing bar insertion holes 21 penetrating through the diaphragm thickness are formed in a region between regions in which the through-holes 16 are formed.

Accordingly, when the reinforcing bar is horizontally inserted into the rebar insertion hole 21 in the diaphragm 17, the horizontal reinforcing bar can be reinforced in multiple stages, and together with the inner side of the inner and outer panels 13 and 14 Since vertical reinforcing bars can also be reinforced together by utilizing the space, it is possible to secure the structural strength of the wall 18 made of the combination of the inner and outer panels 13 and 14 and the diaphragm 17 .

18 to 21 are cross-sectional views showing a construction example of a wall-integrated formwork assembly for construction according to an embodiment of the present invention.

18 to 21, when assembling a panel for construction of a wall 18 made of a combination of inner and outer panels 13 and 14 including a diaphragm 17, after construction of the foundation concrete 120 , installed by raising the inner panel 13 and the outer panel 14 to the height of the base concrete 120, and after the first pouring of the floor concrete 130, inside the inner panel 13 and the outer panel 14 The wall 18 is constructed by pouring concrete.

At this time, the wall 18 has a structure in which the inner panel 13 and the outer panel 13 are bound by a diaphragm 17, and the corner portion of the wall 18 is inner and outer panels 13 and 14. It is finished by a corner connecting plate 24 and a corner closing plate 25 connected to the side.

And, after completing the construction of the wall 18 through concrete pouring and curing, the interior material 100 with screws, etc., to the interior and exterior material attachment bracket 20 installed on the outer surfaces of the inner panel 13 and the outer panel 14 ) and the exterior material 110 are attached, the construction of the interior and exterior materials 100 and 110 is completed.

Here, unexplained reference numerals 140 and 150 denote the foundation reinforcing bars reinforced in the base concrete 120 and the floor concrete 130 , and the vertical reinforcing bars reinforced in the wall 18 , respectively.

In this way, during the construction of the wall 18, the wall-integrated formwork assembly consisting of the inner panel 13, the outer panel 14, and the diaphragm 17 is used for the formwork, and concrete is poured, and the concrete is cured. Afterwards, by using the wall-integrated formwork assembly together with the concrete structure as the wall 18 of the building as it is, the overall construction of the building including the wall construction can be performed quickly and simply, and the efficiency of the building construction can be improved, In addition, the construction quality of the building can be secured.

10: female coupling part
11: male coupling part
12: fitting groove
13: inner panel
14: outer panel
15: fitting protrusion
16: through hole
17: diaphragm
18 : wall
19: coupling support groove
20: Bracket for attaching interior and exterior materials
20a: cover coupling part
20b: cover
20c: interior and exterior material support
21: hole for rebar insertion
22: insulating space layer
23: insulation wall
24 : Corner connection box
25 : Corner finish plate
26: concave-convex coupling part

Claims (11)

an inner panel 13 having a female coupling part 10 and a male coupling part 11 formed at both ends and a fitting groove 12 formed on the inner surface thereof;
an outer panel 14 having a female coupling part 10 and a male coupling part 11 formed at both ends and a fitting groove 12 formed on the inner surface thereof;
It has fitting protrusions 15 coupled to fitting grooves 12 of inner and outer panels 13 and 14 at both ends, and a through hole 16 for communicating with concrete while having an inner panel 13 and an outer panel 14 ) interposed between the inner surfaces facing each other between the inner and outer panels (13, 14) to maintain a gap between the plurality of diaphragms (17);
Including, the interior is partitioned into a plurality of grid-type spaces communicating with each other to form the wall 18 of the building together with the concrete structure that is poured and cured inside,
A structure in which the insulating wall 23 of a certain thickness including a plurality of insulating space layers 22 divided into a box-shaped space by the partition walls of the inner panel 13 and/or the outer panel 14 is stacked in parallel with the panel At the same time as being integrally formed with the inner and outer panels 13 and 14, the insulating walls 23 on both sides adjacent to each other are connected together when the inner and outer panels 13 and 14 are connected to each other so that they can be connected to each other by the coupling between the concave-convex coupling parts 26 each has. As a result, the heat insulation wall 23 is formed on the wall surface of the inner panel 13 and/or the outer panel 14, and the heat in the room is heated by the insulation space layer 22 of the heat insulation wall 23 thus formed. In addition to being able to block the outflow to the outside, it is possible to block the penetration of cold air from the outside into the room, and the insulating wall 23 is also integrated with the synthetic resin material of the inner and outer panels 13 and 14 during extrusion. A wall-integrated formwork assembly for building, characterized in that it can be molded into.
The method according to claim 1,
The male and female coupling parts (10, 11) of the inner panel (13) and the outer panel (14) are made of a resilient clip structure and are coupled to each other in a one-touch fastening method.
The method according to claim 1,
On one side of the male and female coupling parts 10 and 11 in the inner panel 13 and the outer panel 14, a tool for pressurization is hung to push or hit when the male and female coupling parts 10 and 11 are coupled. A wall-integrated formwork assembly for building, characterized in that the coupling support groove (19) is formed.
The method according to claim 1,
A wall-integrated formwork assembly for building, characterized in that on the outer surfaces of the inner panel (13) and the outer panel (14), a bracket (20) for attaching the interior and exterior materials is formed as a support means for installing the interior and exterior materials.
The method of claim 4,
The interior and exterior material attachment bracket 20 includes a cover coupling portion 20a integrally formed on the panel side, a cover 20b coupled to the cover coupling portion 20a, and an interior and exterior material support inserted inside the cover 20b. (20c) A wall-integrated formwork assembly for construction, characterized in that it consists of.
The method of claim 5,
The cover coupling part (20a) and the cover (20b) of the bracket (20) for attaching the interior and exterior materials are combined in a wedge-shaped locking structure or a sliding fitting structure.
The method of claim 5,
The interior and exterior material support body (20c) of the bracket (20) for attaching the interior and exterior material is a building wall-integrated formwork assembly, characterized in that it is made of any one of a square pipe of a square cross section, wood, and a square pipe of a rectangular cross section.
The method according to claim 1,
The wall-integrated formwork assembly for building, characterized in that the diaphragm (17) is formed with a rebar insertion hole (21) for horizontal reinforcement of the rebar.
delete The method according to claim 1,
It is installed at the corner portion of the wall 18 made of a combination of the inner and outer panels 13 and 14 and the diaphragm 17, and female coupling portions 10 are formed at both ends in the width direction and fitted on one side in the thickness direction. A pair of corner connecting plates 24 in which the groove 12 is formed and a male coupling part 11 is formed on the opposite side at the same time, and the fitting groove 12 of the corner connecting plate 24 at both ends in the width direction. The wall-integrated formwork assembly for building, characterized in that it further includes a corner finishing plate (25) interposed between one side facing each other of the corner connecting plate (24) while having a fitting projection (15).
11. The method according to any one of claims 1 to 8, 10,
The inner panel (13), the outer panel (14), and the diaphragm (17) are manufactured by extrusion molding using a synthetic resin material, characterized in that the building wall-integrated formwork assembly.

Images