KR102470101B1 - Building wall with improved mutual integrity and insulating urethane foam and its construction method - Google Patents

Abstract

The present invention relates to a building wall in which a heat insulating material and a heat insulating polyurethane foam with improved mutual integrity are installed, and a construction method thereof. By forming concave grooves on the surface of horizontal and vertical frames, mutual adhesion is maximized by filling the heat insulating urethane foam in the concave groove. The building wall includes: a horizontal frame (21); a vertical frame (22); an external insulating material (51); an outer panel (55); an internal insulating material (61); an inner panel (65); a bolt (71) and a nut (72); and a heat insulating urethane foam (89).

Description

Building wall with improved mutual integrity and insulating urethane foam and its construction method {Building wall with improved mutual integrity and insulating urethane foam and its construction method}

The present invention relates to a building wall in which a heat insulating material and a heat-insulating polyurethane foam having improved mutual integrity are applied to a building wall and a method for constructing the same, and more particularly, a horizontal frame and a vertical frame attached to the outer surface of the building wall are divided into a plurality of pieces, respectively. It is provided so that a spaced part is formed between them, and the insulating urethane foam is filled in the spaced part so that mutual adhesion is increased. In addition, by forming a concave groove on the surface of the horizontal frame and the vertical frame, a concave groove is also formed in the concave groove. The present invention relates to a heat insulating material of a building wall with improved mutual integrity, which is filled with insulating urethane foam to maximize mutual adhesion, a building wall constructed with insulating urethane foam, and a construction method thereof.

In general, non-flammable exterior panels such as terra cotta, marble, granite, and artificial stone including cement boards are installed on the exterior walls of buildings made of concrete structures to prevent fire and to decorate the exterior beautifully.

For example, exterior material panels such as marble, granite, glass walls, etc. are usually processed and manufactured in a square flat plate shape, and a plurality of exterior material panels manufactured in this way are arranged in parallel on the outer wall of a building and finished as a curtain wall-shaped exterior wall body.

In this way, a construction method is used in which insulation and exterior panels are attached to the walls of buildings to obtain insulation and decorative effects as well as protection of the outer walls of the building. , An installation method is used to finish the exterior wall by fixing the exterior panel to the angles connected to the tip of the anchor bolt.

As the use of exterior material panels for building walls has been expanded, various technologies have recently been developed to conveniently install exterior material panels on the walls of buildings.

As an example, as shown in FIG. 1 showing the prior art, first, the anchor bolt 110 is buried and installed in the concrete wall 100 of the building, and at this time, the angle 120 is also fixed with the anchor bolt 110. In addition to sealing, the anchor adhesion area is sealed.

Next, after connecting the horizontal connecting rod 130 to the angle 120 by welding, an insulator 150 having a space 140 excavated in an area corresponding to the space in which the angle 120 and the connecting rod 130 will enter, For example, Styrofoam is installed in close contact with the concrete wall 100.

At this time, the space portion 140 of the insulator 150 is closed with a piece of Styrofoam 180.

Next, to support the exterior panel, the frame 160 having a lattice-like frame structure is fixedly installed to the plurality of connecting rods 130 by welding. Construction of the exterior wall of the building by attaching the exterior panel 170 to the frame 160 installed in this way and subsequently fastening the exterior panel 170 to a support bar (not shown) previously installed in the concrete wall 100. can complete.

However, in this conventional building exterior wall construction method, first, in the case of a Styrofoam insulation installed on a concrete wall, adhesion to the wall side is reduced, and space is created in several places for installation of anchor bolts, angles, connecting rods, etc. There are disadvantages such as having to block with pieces of Styrofoam, which reduces the overall insulation effect, and secondly, the work is cumbersome and requires a lot of strength due to the large amount of work such as sealing the anchor bolt installation site, backfilling after cutting the Styrofoam, and welding between members. There is a disadvantage that the construction period increases, and third, there is a high risk of fire because almost all steel member connection work, such as angles and connecting rods, connecting rods and frames, and frames and frames, is performed by welding.

Registered Patent No. 10-1158804

Accordingly, the present invention was devised to eliminate the above problems, by dividing a horizontal frame and a vertical frame attached to the outer surface of a building wall into a plurality of pieces, so that a spaced portion is formed therebetween, and a heat-insulating urethane foam is formed within the spaced portion. In addition, by forming concave grooves on the surfaces of the horizontal frame and vertical frame so that the insulated urethane foam is filled in the concave grooves, mutual adhesion is maximized. It was completed as a technical task with a focus on the insulation of the improved building wall and the building wall with the insulation urethane foam and its construction method.

In order to achieve the above technical problem, the present invention constructs a building wall structure in which the heat insulating material and the insulating polyurethane foam of the building wall with improved mutual integrity are installed, on the outer surface 11 of the building wall 10 in the horizontal direction. Horizontal frames 21 provided at regular intervals in a state of maintaining a spaced part w1 between each other; The horizontal frame 21 includes a pair of vertical portions 21a on both sides provided in the vertical direction of the outer surface 11 of the building wall, and two pairs provided inclined inwardly at the upper and lower ends of the pair of vertical portions 21a on both sides, respectively. It consists of a pair of inclined parts 21c and a pair of horizontal parts 21b provided to connect the upper and lower ends of the two pairs of inclined parts 21c on both sides, respectively, and the pair of vertical parts 21a and the two pairs of inclined parts (21c) and a pair of horizontal portions (21b) to form a space portion 26 inside, due to the two pairs of inclined portions (21c) and a pair of horizontal portions (21b) of the horizontal frame 21, Each concave groove portion 25 is formed on the lower side, and is provided in a state of maintaining the mutual separation portion w2 in the vertical direction on the outer surface 11 of the building wall 10 within the separation portion w1 vertical frame 22; The vertical frame 22 is provided with a pair of horizontal parts 22a on both sides provided in the horizontal direction of the outer surface 11 of the building wall and inclined inward at the left and right ends of the pair of horizontal parts 22a on both sides, respectively It consists of two pairs of inclined parts 22c and a pair of vertical parts 22b provided to connect the left and right ends of the two pairs of inclined parts 22c on both sides, respectively, and the pair of horizontal parts 22a and the two pairs of inclined parts A space 26 is formed inside due to the portion 22c and the pair of vertical portions 22b, and the left side of the vertical frame 21 due to the two pairs of inclined portions 22c and the pair of vertical portions 22b. , External insulation 51 having a concave groove 25 formed on the right side and spaced apart from each other by the first spaced space 81 on the outer surfaces of the horizontal frame 21 and the vertical frame 22; an external panel 55 provided in close contact with an outer surface of the external insulator 51; an internal insulation material 61 spaced apart from the inner surface 12 of the building wall by the second spaced space portion 83; an inner panel 65 provided in close contact with an outer surface of the inner insulation material 61; It is penetrated and fastened from the outer surface of the external insulation material 51 to the outer surface of the inner insulation material 61, and any one of the external insulation material 51, the horizontal frame 21 and the vertical frame 22, and the building wall 10 ) And, a bolt 71 and a nut 72 integrally fastening and fixing the internal insulation material 61; The bolt 71 and the nut 72 are positioned in an unexposed state on the outer surface of the inner insulating material 61 from the outer surface of the outer insulating material 51, and the first spaced space 81 and the second spaced Insulation urethane foam 89 filled between the spaces 83; The insulating polyurethane foam 89 filled in the first spaced space 81 is inserted into and filled into the concave grooves 25 of the horizontal frame 21 and the vertical frame 22, and the horizontal frame 21 and the vertical Insulation of building walls with improved mutual integrity and building walls with insulating urethane foam, characterized in that they are configured to increase mutual adhesion by being inserted and filled into the spaced parts (w1, w2) of the frame (22) provide structure.

At this time, a horizontal reinforcement bar 32 is inserted in the horizontal longitudinal direction along the space portion 26 of the horizontal frame 21, and a vertical reinforcement bar in the vertical longitudinal direction along the space portion 26 of the vertical frame 22. (34) is inserted, and the vertical reinforcement 34 crossing the horizontal reinforcement 32 is divided at the upper and lower sides of the horizontal reinforcement 32, respectively, and is configured to be welded and fixed integrally.

In addition, it is formed larger than the diameter of the bolt 71 on the outside of the bolt 71 passing between the external insulation 51, the horizontal frame 21 and the vertical frame 22, so that the external insulation 51 and , The first spacer 75 is provided to be in close contact with the surfaces facing the horizontal frame 21 and the vertical frame 22, respectively, to form the first spaced space 81, and the building wall 10 And, it is formed larger than the diameter of the bolt 71 on the outside of the bolt 71 passing between the internal insulation 61 and adheres to the building wall 10 and the surface facing the internal insulation 61, respectively. It is characterized in that the second spaced space portion 83 is formed by providing a second spacer 76.

In addition, the first spacer 75 and the second spacer 76 are formed in the form of a hexagonal or octagonal tube to secure frictional force with the insulating polyurethane foam 89, and the first spacer 75 It is characterized in that it is configured to increase the frictional force with the insulating polyurethane foam 89 by forming a quadrangular pyramidal protrusion 79 on each outer surface of the spacer 75 and the second spacer 76.

In addition, a plurality of grooves 122 are formed in a square cross-section on the exposed outer surfaces 121 of the horizontal frame 21 and the vertical frame 22, so that the insulation urethane foam 89 ) is inserted, and a through hole 124 is formed over the horizontal portion 21b and the inclined portion 21c of the horizontal frame 21, and the vertical portion 22b and the inclined portion of the vertical frame 22 A through hole 124 is formed over (22c), so that the heat insulating polyurethane foam 89 is inserted into the horizontal frame 21 and the vertical frame 22 through the through hole 124, so that the horizontal reinforcement 32 and the vertical It is characterized in that it is configured to further improve the adhesion between each other by wrapping the reinforcement 34 so as to be in close contact.

Another present invention, in realizing the construction method of the building wall in which the heat insulating material and the insulating polyurethane foam of the building wall with improved mutual integrity are installed, on the outer surface 11 of the building wall 10 in the horizontal direction Preparing horizontal frames 21 provided at regular intervals while maintaining the spaced parts w1; The horizontal frame 21 includes a pair of vertical portions 21a on both sides provided in the vertical direction of the outer surface 11 of the building wall, and two pairs provided inclined inwardly at the upper and lower ends of the pair of vertical portions 21a on both sides, respectively. It consists of a pair of inclined parts 21c and a pair of horizontal parts 21b provided to connect the upper and lower ends of the two pairs of inclined parts 21c on both sides, respectively, and the pair of vertical parts 21a and the two pairs of inclined parts (21c) and a pair of horizontal portions (21b) to form a space portion 26 inside, due to the two pairs of inclined portions (21c) and a pair of horizontal portions (21b) of the horizontal frame 21, Each concave groove portion 25 is formed on the lower side, and is provided in a state of maintaining the mutual separation portion w2 in the vertical direction on the outer surface 11 of the building wall 10 within the separation portion w1 preparing the vertical frame 22; The vertical frame 22 is provided with a pair of horizontal parts 22a on both sides provided in the horizontal direction of the outer surface 11 of the building wall and inclined inward at the left and right ends of the pair of horizontal parts 22a on both sides, respectively It consists of two pairs of inclined parts 22c and a pair of vertical parts 22b provided to connect the left and right ends of the two pairs of inclined parts 22c on both sides, respectively, and the pair of horizontal parts 22a and the two pairs of inclined parts A space 26 is formed inside due to the portion 22c and the pair of vertical portions 22b, and the left side of the vertical frame 21 due to the two pairs of inclined portions 22c and the pair of vertical portions 22b. A concave groove 25 is formed on the right side, and a horizontal reinforcement 32 is inserted in the horizontal longitudinal direction along the space 26 of the horizontal frame 21, and the space of the vertical frame 22 A step of inserting a vertical reinforcing bar 34 in the vertical longitudinal direction along (26); The vertical reinforcing bar 34 crossing the horizontal reinforcing bar 32 is divided from the upper and lower sides of the horizontal reinforcing bar 32 and welded and fixed integrally, and is attached to the outer surfaces of the horizontal frame 21 and the vertical frame 22. Preparing an external insulation material 51 spaced apart by the first spaced space portion 81; preparing an external panel 55 closely attached to an outer surface of the external insulator 51; Preparing an internal insulation material 61 spaced apart from the inner surface 12 of the building wall by the second spaced space portion 83; Preparing an inner panel 65 closely attached to the outer surface of the inner insulation material 61; It is penetrated and fastened from the outer surface of the external insulation material 51 to the outer surface of the inner insulation material 61, and any one of the external insulation material 51, the horizontal frame 21 and the vertical frame 22, and the building wall 10 ), and fastening and fixing the internal insulation material 61 to be integrated with bolts 71 and nuts 72; The bolt 71 and the nut 72 are positioned in an unexposed state on the outer surface of the inner insulating material 61 from the outer surface of the outer insulating material 51, and the first spaced space 81 and the second spaced Filling the insulating urethane foam 89 between the spaces 83; The insulating polyurethane foam 89 filled in the first spaced space 81 is inserted into and filled into the concave grooves 25 of the horizontal frame 21 and the vertical frame 22, and the horizontal frame 21 and the vertical It is made by inserting and filling in the spaced parts (w1, w2) of the frame 22 to increase mutual adhesion, and the external insulation material 51, the horizontal frame 21 and the vertical frame 22 The outer side of the bolt 71 passing between the bolts 71 is formed larger than the diameter of the outer insulation 51, the horizontal frame 21 and the vertical frame 22 are in close contact with the facing surfaces, respectively. A spacer 75 is provided to form a first spaced space 81, and a bolt 71 is attached to the outside of the bolt 71 passing between the building wall 10 and the internal insulation 61. It is formed larger than the diameter and is provided with a second spacer 76 that is in close contact with the building wall 10 and the inner insulation material 61, respectively, so that the second spaced space portion 83 is formed. It provides a construction method of a building wall in which the insulating material of the building wall with improved mutual integrity and the insulating polyurethane foam are constructed.

At this time, the first spacer 75 and the second spacer 76 are formed in the form of a hexagonal or octagonal tube to secure frictional force with the insulating polyurethane foam 89, and the first spacer 75 Protrusions 79 in the form of quadrangular pyramids are formed on the outer surfaces of the spacer 75 and the second spacer 76 to increase the frictional force with the insulating urethane foam 89, and the horizontal frame 21 And a plurality of grooves 122 are formed in a square cross-section on the outer surface 121 on the exposed side of the vertical frame 22, so that the insulating urethane foam 89 is inserted into the grooves 122, and the horizontal A through hole 124 is formed over the horizontal portion 21b and the inclined portion 21c of the frame 21, and a through hole extends over the vertical portion 22b and the inclined portion 22c of the vertical frame 22 ( 124) is formed, and the heat-insulating polyurethane foam 89 is inserted into the horizontal frame 21 and the vertical frame 22 through the through hole 124 to wrap the horizontal reinforcement 32 and the vertical reinforcement 34 in close contact. By doing so, it is characterized in that the adhesion between them is further improved.

According to the present invention described above, the horizontal frame and the vertical frame attached to the outer surface of the building wall are divided into a plurality of pieces, so that a spaced portion is formed therebetween, and the spaced portion is filled with insulating urethane foam, thereby increasing mutual adhesion. In addition, by forming concave grooves on the surfaces of the horizontal frame and the vertical frame so that the insulated urethane foam is filled in the concave grooves, mutual adhesion can be maximized.

1 is an exemplary view according to the prior art
Figure 2 is a perspective embodiment of a building wall in which a heat insulating material and a heat insulating polyurethane foam of the building wall with improved mutual integrity according to the present invention are installed
3 to 5 are exemplary embodiments of main parts of FIG. 2
Figure 6 is a side cross-sectional embodiment before coupling according to the present invention
Figure 7 is a side cross-sectional embodiment after coupling according to the present invention
8 is an exemplary side cross-sectional view of a state in which the insulating urethane foam is filled in the state of FIG. 7;
Figure 9 is a modified embodiment of the horizontal frame according to the present invention
10 is a modified embodiment of the first spacer and the second spacer according to the present invention;
11 is an exemplary embodiment of a rim closing cap according to the present invention

Hereinafter, specific details for the implementation of the present invention will be described in more detail with reference to the accompanying drawings.

The present invention divides a horizontal frame and a vertical frame attached to the outer surface of a building wall into a plurality of pieces to form a spaced portion therebetween, and fills the spaced portion with insulating urethane foam to increase adhesion between them. In addition, by forming concave grooves on the surface of the horizontal frame and vertical frame so that the insulated urethane foam is filled in the concave groove, the insulation material and the insulation urethane foam of the building wall with improved mutual integrity to maximize mutual adhesion are installed. As it relates to a building wall and its construction method, referring to FIGS. 2 to 11, the building wall 10, the horizontal frame 21, the vertical frame 22, the external insulation 51, the external panel 55, the internal insulation (61), an inner panel (65), a bolt (71), a nut (72) and an insulating polyurethane foam (89).

For the implementation of the present invention, first, as shown in FIGS. 2 and 5, horizontal frames provided at regular intervals in a state of maintaining a mutually spaced part (w1) in the horizontal direction on the outer surface 11 of the building wall 10 ( 21) is provided.

The horizontal frame 21 is formed of a metal material having strength and closely coupled to the outer surface of the building wall 10, and in detail, as shown in FIGS. 3 and 4, the horizontal frame 21 is the outer surface of the building wall. A pair of vertical portions 21a on both sides provided in the vertical direction of (11), two pairs of inclined portions 21c provided inclined inwardly at the upper and lower ends of the pair of vertical portions 21a on both sides, respectively, and the two pairs on both sides It is composed of a pair of horizontal parts 21b provided to connect the upper and lower ends of the inclined parts 21c to each other, and the pair of vertical parts 21a, the two pairs of inclined parts 21c and the pair of horizontal parts 21b Due to this, a space portion 26 is formed inside, and a concave groove portion 25 is formed on the upper and lower sides of the horizontal frame 21 due to the two pairs of inclined portions 21c and the pair of horizontal portions 21b, respectively. do.

And, as shown in FIGS. 2 and 4, a vertical frame provided on the outer surface 11 of the building wall 10 in a state of maintaining the spaced part w2 between them in the vertical direction within the spaced part w1 ( 22) is provided.

The vertical frame 22 has the same shape as the horizontal frame 21, and in detail, as shown in FIGS. 3 and 4, the vertical frame 22 is provided on both sides of the outer surface 11 of the building wall in the horizontal direction. A pair of horizontal parts 22a, two pairs of inclined parts 22c inclined inwardly at the left and right ends of the pair of horizontal parts 22a on both sides, respectively, and the left and right ends of the two pairs of inclined parts 22c on both sides Consisting of a pair of vertical parts 22b provided to connect each other, the pair of horizontal parts 22a, the two pairs of inclined parts 22c and the pair of vertical parts 22b have a space part 26 inside Is formed, and concave grooves 25 are formed on the left and right sides of the vertical frame 21 due to the two pairs of inclined portions 22c and the pair of vertical portions 22b, respectively.

The present invention proposes a structure for improving mutual adhesion by injection of insulating urethane foam, the concave groove portion 25 formed in the horizontal frame 21 and the vertical frame 22, and the horizontal frame ( 21) and the space formed by the spacers w1 and w2 of the vertical frame 22 so that the insulation urethane foam penetrates

Since the horizontal frame 21 and the vertical frame 22 are formed in the form of a frame having a space 26 therein, they can be damaged or deformed by an external impact or the like.

In order to prevent this, in the present invention, as shown in FIGS. 2 and 4, a horizontal reinforcing bar 32 is inserted in the horizontal longitudinal direction along the space 26 of the horizontal frame 21, and the vertical frame 22 A vertical reinforcing bar 34 was inserted in the vertical longitudinal direction along the space portion 26. At this time, the horizontal reinforcement bar 32 and the vertical reinforcement bar 34 are formed in the form of a circular bar and have the same diameter as the short width side inner diameter of the space portion 26, so that the outer circumference of the horizontal reinforcement bar 32 and the vertical reinforcement bar 34 By rubbing against the inner surface of the short width side of the space portion 26, it is realized to be excellent against external impact. In addition, at this time, the vertical reinforcement bar 34 crossing the horizontal reinforcement bar 32 is divided from the upper and lower sides of the horizontal reinforcement bar 32 and welded and fixed integrally so that they are integrated with each other.

In addition, by inserting the circular bar-shaped horizontal reinforcement 32 and the vertical reinforcement 34 into the space portion 26, there is free space between the horizontal reinforcement 32 and the vertical reinforcement 34 and the space 26. As shown in FIG. 9, through holes 124 are formed over the horizontal portion 21b and the inclined portion 21c of the horizontal frame 21, and the vertical portion of the vertical frame 22 ( 22b) and the inclined portion 22c, a through hole 124 is formed so that the insulating polyurethane foam 89 is inserted into the horizontal frame 21 and the vertical frame 22 through the through hole 124 to form a horizontal reinforcement bar. (32) and the vertical reinforcing bar (34) were implemented to further improve mutual adhesion by making them closely adhere to each other while wrapping them.

The horizontal reinforcing bar 32 and the vertical reinforcing bar 34 are provided with hot wires therein, so that the curing speed of the insulating urethane foam 89 can be sufficiently delayed to suit the on-site situation during the filling process of the insulating urethane foam 89. In addition, by ensuring that the heat-insulating polyurethane foam 89 can be sufficiently introduced into each internal space, the adhesion securing property to be implemented in the present invention is obtained. In addition, a plurality of through-holes may be formed on the horizontal reinforcement bar 32 and the vertical reinforcement bar 34 so that the insulating polyurethane foam 89 is introduced into the through-holes. To this end, the diameter of the through hole is 1/2 to 2/3 of the diameter of the horizontal reinforcement bar 32 and the vertical reinforcement bar 34 so that sufficient space is secured for the insulated polyurethane foam 89 to flow in.

At the same time, as shown in FIG. 9, a plurality of grooves 122 are formed in a square cross-section on the exposed outer surfaces 121 of the horizontal frame 21 and the vertical frame 22, so that the grooves 122 Insulation urethane foam (89) was implemented to be inserted inside. At this time, the reason why the concave portion 122 is formed in a square cross section is to increase the frictional force with the insulating urethane foam 89 filled in the concave portion 122 .

On the other hand, as shown in FIGS. 6 and 7, the outer surface of the horizontal frame 21 and the vertical frame 22 is provided with an external insulation material 51 spaced apart by a first separation space 81, and the external insulation material ( An outer panel 55 provided in close contact with the outer surface of 51) is configured.

In addition, an internal insulating material 61 spaced apart from the inner surface 12 of the building wall by the second separation space 83 is provided, and an inner panel 65 closely attached to the outer surface of the internal insulating material 61 is provided. It consists of

It is penetrated and fastened from the outer surface of the external insulation material 51 to the outer surface of the inner insulation material 61, and any one of the external insulation material 51, the horizontal frame 21 and the vertical frame 22, and the building wall 10 ), and a bolt 71 and a nut 72 for integrally fastening and fixing the internal insulation 61, the bolt 71 and the nut 72 are the internal insulation on the outer surface of the external insulation 51 ( 61) on the outer surface of each non-exposed state so that the outer panel 65 and the inner panel 55 are attached to the outer surfaces of the outer insulator 51 and the inner insulator 61 so as not to interfere.

At this time, as shown in FIG. 7, it is formed larger than the diameter of the bolt 71 on the outside of the bolt 71 passing between the external insulation 51, the horizontal frame 21 and the vertical frame 22, A first spacer 75 is provided to be in close contact with the insulating material 51 and the surfaces facing the horizontal frame 21 and the vertical frame 22, respectively, to form a first spaced space 81, In addition, the outside of the bolt 71 passing between the building wall 10 and the internal insulation 61 is formed larger than the diameter of the bolt 71 so that the building wall 10 and the internal insulation 61 Second spacers 76 are provided to be in close contact with the facing surfaces, so that the second spaced space 83 is formed.

In this structure, as shown in FIG. 8, the insulating polyurethane foam 89 is filled between the first spaced space 81 and the second spaced space 83. At this time, the insulating polyurethane foam 89 filled in the first spaced space 81 is inserted and filled into the concave grooves 25 of the horizontal frame 21 and the vertical frame 22, and the horizontal frame 21 And by inserting and filling in the spaced parts (w1, w2) of the vertical frame 22, mutual adhesion is increased.

At this time, as shown in FIG. 10, the first spacer 75 and the second spacer 76 are formed in a hexagonal or octagonal tube shape to secure frictional force with the insulating polyurethane foam 89. It is preferable to do so, and a quadrangular pyramid-shaped protrusion 79 is formed on the outer surfaces of the first spacer 75 and the second spacer 76 to increase the frictional force with the insulating polyurethane foam 89. implemented so that

In addition, although not shown, uneven portions are formed on the surfaces of the first spacer 75 and the second spacer 76 to fill the space between the first spacer 81 and the second spacer 83. By allowing the insulating urethane foam 89 to be inserted on the concavo-convex portion, mutual adhesion can be further improved.

And, as a modified embodiment of the present invention, as shown in FIG. 11, by providing the edge closing cap 90 at the outer ends of the horizontal frame 21 and the vertical frame 22 located along the edge of the building wall 10 A space portion is formed between the edge of the building wall 10 and the horizontal frame 21 and the vertical frame 22, that is, along the edge of the building wall 10 to form a wall for preventing separation of the insulating polyurethane foam 89 did

At this time, the edge closing cap 90 is formed in the form of a frame having a “c” cross section, and the horizontal frame ( 21) and the vertical frame 22 are accommodated and formed to form an insertion groove 92 having a “c” cross section so that the sealing property as a wall is secured.

In the construction method of the building wall in which the heat insulating material and the insulating polyurethane foam of the building wall with improved mutual integrity of the present invention are constructed, the horizontally spaced part (w1) on the outer surface (11) of the building wall (10) ) preparing a horizontal frame 21 provided at regular intervals while maintaining; The horizontal frame 21 includes a pair of vertical portions 21a on both sides provided in the vertical direction of the outer surface 11 of the building wall, and two pairs provided inclined inwardly at the upper and lower ends of the pair of vertical portions 21a on both sides, respectively. It consists of a pair of inclined parts 21c and a pair of horizontal parts 21b provided to connect the upper and lower ends of the two pairs of inclined parts 21c on both sides, respectively, and the pair of vertical parts 21a and the two pairs of inclined parts (21c) and a pair of horizontal portions (21b) to form a space portion 26 inside, due to the two pairs of inclined portions (21c) and a pair of horizontal portions (21b) of the horizontal frame 21, Each concave groove portion 25 is formed on the lower side, and is provided in a state of maintaining the mutual separation portion w2 in the vertical direction on the outer surface 11 of the building wall 10 within the separation portion w1 preparing the vertical frame 22; The vertical frame 22 is provided with a pair of horizontal parts 22a on both sides provided in the horizontal direction of the outer surface 11 of the building wall and inclined inward at the left and right ends of the pair of horizontal parts 22a on both sides, respectively It consists of two pairs of inclined parts 22c and a pair of vertical parts 22b provided to connect the left and right ends of the two pairs of inclined parts 22c on both sides, respectively, and the pair of horizontal parts 22a and the two pairs of inclined parts A space 26 is formed inside due to the portion 22c and the pair of vertical portions 22b, and the left side of the vertical frame 21 due to the two pairs of inclined portions 22c and the pair of vertical portions 22b. A concave groove 25 is formed on the right side, and a horizontal reinforcement 32 is inserted in the horizontal longitudinal direction along the space 26 of the horizontal frame 21, and the space of the vertical frame 22 A step of inserting a vertical reinforcing bar 34 in the vertical longitudinal direction along (26); The vertical reinforcing bar 34 crossing the horizontal reinforcing bar 32 is divided from the upper and lower sides of the horizontal reinforcing bar 32 and welded and fixed integrally, and is attached to the outer surfaces of the horizontal frame 21 and the vertical frame 22. Preparing an external insulation material 51 spaced apart by the first spaced space portion 81; preparing an external panel 55 closely attached to an outer surface of the external insulator 51; Preparing an internal insulation material 61 spaced apart from the inner surface 12 of the building wall by the second spaced space portion 83; Preparing an inner panel 65 closely attached to the outer surface of the inner insulation material 61; It is penetrated and fastened from the outer surface of the external insulation material 51 to the outer surface of the inner insulation material 61, and any one of the external insulation material 51, the horizontal frame 21 and the vertical frame 22, and the building wall 10 ), and fastening and fixing the internal insulation material 61 to be integrated with bolts 71 and nuts 72; The bolt 71 and the nut 72 are positioned in an unexposed state on the outer surface of the inner insulating material 61 from the outer surface of the outer insulating material 51, and the first spaced space 81 and the second spaced Filling the insulating urethane foam 89 between the spaces 83; The insulating polyurethane foam 89 filled in the first spaced space 81 is inserted into and filled into the concave grooves 25 of the horizontal frame 21 and the vertical frame 22, and the horizontal frame 21 and the vertical It is made by inserting and filling in the spaced parts (w1, w2) of the frame 22 to increase mutual adhesion, and the external insulation material 51, the horizontal frame 21 and the vertical frame 22 The outer side of the bolt 71 passing between the bolts 71 is formed larger than the diameter of the outer insulation 51, the horizontal frame 21 and the vertical frame 22 are in close contact with the facing surfaces, respectively. A spacer 75 is provided to form a first spaced space 81, and a bolt 71 is attached to the outside of the bolt 71 passing between the building wall 10 and the internal insulation 61. A second spacer 76 formed larger than the diameter and closely attached to the surface facing the building wall 10 and the internal insulation 61 is provided to form a second separation space 83.

At this time, the first spacer 75 and the second spacer 76 are formed in the form of a hexagonal or octagonal tube to secure frictional force with the insulating polyurethane foam 89, and the first spacer 75 Protrusions 79 in the form of quadrangular pyramids are formed on the outer surfaces of the spacer 75 and the second spacer 76 to increase the frictional force with the insulating urethane foam 89, and the horizontal frame 21 And a plurality of grooves 122 are formed in a square cross-section on the outer surface 121 on the exposed side of the vertical frame 22, so that the insulating urethane foam 89 is inserted into the grooves 122, and the horizontal A through hole 124 is formed over the horizontal portion 21b and the inclined portion 21c of the frame 21, and a through hole extends over the vertical portion 22b and the inclined portion 22c of the vertical frame 22 ( 124) is formed, and the heat-insulating polyurethane foam 89 is inserted into the horizontal frame 21 and the vertical frame 22 through the through hole 124 to wrap the horizontal reinforcement 32 and the vertical reinforcement 34 in close contact. Let it be.

As described above, according to the building wall in which the insulation material and the insulation polyurethane foam of the building wall with improved mutual integrity of the present invention are installed and the construction method thereof, the horizontal frame and the vertical frame attached to the outer surface of the building wall are divided into a plurality of pieces, respectively. so that a spaced part is formed therebetween, and the heat-insulating urethane foam is filled in the spaced part so that mutual adhesion is increased, and a concave groove is formed on the surface of the horizontal frame and the vertical frame to insulate the inside of the concave groove By filling the urethane foam, mutual adhesion is maximized.

The present invention described above has been described with reference to one embodiment shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments therefrom. will have to be clarified. Therefore, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

10: building wall 11: external surface
21: horizontal frame 22: vertical frame
25: concave groove 26: space
51: external insulation 55: external panel
61: internal insulation 65: internal panel
71: bolt 72: nut
81: first separation space 83: second separation space
89: Insulation Urethane Foam

Claims (7)

In constructing a building wall structure in which the insulation of the building wall with improved mutual integrity and the insulation urethane foam are constructed,
Horizontal frames 21 provided at regular intervals on the outer surface 11 of the building wall 10 in a state in which the spaced parts w1 are maintained in the horizontal direction; The horizontal frame 21 includes a pair of vertical portions 21a on both sides provided in the vertical direction of the outer surface 11 of the building wall, and two pairs provided inclined inwardly at the upper and lower ends of the pair of vertical portions 21a on both sides, respectively. It is composed of an inclined portion 21c and a pair of horizontal portions 21b provided to connect the upper and lower ends of the two pairs of inclined portions 21c, respectively, and the pair of vertical portions 21a, the two pairs of inclined portions ( 21c) and a pair of horizontal portions 21b form a space 26 inside, and the upper and lower portions of the horizontal frame 21 are formed by the two pairs of inclined portions 21c and the pair of horizontal portions 21b. Concave grooves 25 are formed on each side,
A vertical frame 22 provided in a state of maintaining a mutually spaced part w2 in the vertical direction on the outer surface 11 of the building wall 10 within the spaced part w1; The vertical frame 22 is provided with a pair of horizontal parts 22a on both sides provided in the horizontal direction of the outer surface 11 of the building wall and inclined inward at the left and right ends of the pair of horizontal parts 22a on both sides, respectively It is composed of two pairs of inclined parts 22c and a pair of vertical parts 22b provided to connect the left and right ends of the two pairs of inclined parts 22c, respectively, and the pair of horizontal parts 22a and the two pairs of inclined parts (22c) and a pair of vertical portions (22b) to form a space portion 26 inside, due to the two pairs of inclined portions (22c) and a pair of vertical portions (22b) of the vertical frame 21, the left, A concave groove 25 is formed on the right side,
External insulation materials 51 spaced apart from each other by the first separation space 81 on the outer surfaces of the horizontal frame 21 and the vertical frame 22;
an external panel 55 provided in close contact with an outer surface of the external insulator 51;
an internal insulation material 61 spaced apart from the inner surface 12 of the building wall by the second spaced space portion 83;
an inner panel 65 provided in close contact with an outer surface of the inner insulation material 61;
It is penetrated and fastened from the outer surface of the external insulation material 51 to the outer surface of the inner insulation material 61, and any one of the external insulation material 51, the horizontal frame 21 and the vertical frame 22, and the building wall 10 ) And, a bolt 71 and a nut 72 integrally fastening and fixing the internal insulation material 61; The bolt 71 and the nut 72 are positioned in an unexposed state, respectively, on the outer surface of the inner insulation 61 on the outer surface of the outer insulation 51,
an insulating urethane foam (89) filled between the first spaced space (81) and the second spaced space (83); The insulating polyurethane foam 89 filled in the first spaced space 81 is inserted into and filled into the concave grooves 25 of the horizontal frame 21 and the vertical frame 22, and the horizontal frame 21 and the vertical Insulation of building walls with improved mutual integrity and building walls with insulating urethane foam, characterized in that they are configured to increase mutual adhesion by being inserted and filled into the spaced parts (w1, w2) of the frame (22) rescue.
According to claim 1,
A horizontal reinforcement 32 is inserted in the horizontal longitudinal direction along the space 26 of the horizontal frame 21, and a vertical reinforcement 34 in the vertical longitudinal direction along the space 26 of the vertical frame 22. ) is inserted,
The vertical reinforcement 34 crossing the horizontal reinforcement 32 is divided from the upper and lower sides of the horizontal reinforcement 32 and configured to be integrally welded and fixed. Building wall structure constructed with foam.
According to claim 2,
It is formed larger than the diameter of the bolt 71 on the outside of the bolt 71 passing between the external insulation 51, the horizontal frame 21 and the vertical frame 22, and the external insulation 51 and the horizontal A first spacer 75 is provided to be in close contact with the surfaces facing the frame 21 and the vertical frame 22, respectively, to form a first spaced space 81,
It is formed larger than the diameter of the bolt 71 on the outside of the bolt 71 passing between the building wall 10 and the internal insulation 61, so that the building wall 10 and the internal insulation 61 face each other. The building wall structure in which the insulation material of the building wall with improved mutual integrity and the insulation polyurethane foam are installed, characterized in that the second spacer 76 is provided in close contact with the surface to form the second spaced space portion 83 .
According to claim 3,
The first spacer 75 and the second spacer 76 are formed in the form of a hexagonal or octagonal tube to secure frictional force with the insulating polyurethane foam 89, and the first spacer maintains the first spacer. Mutual integrity, characterized by forming a quadrangular pyramid-shaped protrusion 79 on each outer surface of the sphere 75 and the second spacer 76 to increase the frictional force with the insulating urethane foam 89 Building wall structure with improved building wall insulation and insulation urethane foam.
According to claim 4,
A plurality of grooves 122 are formed in a square cross section on the exposed outer surfaces 121 of the horizontal frame 21 and the vertical frame 22, so that the heat insulating urethane foam 89 is formed in the grooves 122 to be inserted,
A through hole 124 is formed over the horizontal portion 21b and the inclined portion 21c of the horizontal frame 21, and spans over the vertical portion 22b and the inclined portion 22c of the vertical frame 22. A through hole 124 is formed so that the insulating polyurethane foam 89 is inserted into the horizontal frame 21 and the vertical frame 22 through the through hole 124 to wrap the horizontal reinforcement 32 and the vertical reinforcement 34 A building wall structure in which the insulation material and the insulation urethane foam of the building wall with improved mutual integrity are configured to further improve mutual adhesion by ensuring that they are in close contact with each other.
In implementing the construction method of the building wall in which the insulation of the building wall with improved mutual integrity and the insulation urethane foam are installed,
Preparing horizontal frames 21 provided at regular intervals on the outer surface 11 of the building wall 10 in a state of maintaining the spaced parts w1 between them in the horizontal direction; The horizontal frame 21 includes a pair of vertical portions 21a on both sides provided in the vertical direction of the outer surface 11 of the building wall, and two pairs provided inclined inwardly at the upper and lower ends of the pair of vertical portions 21a on both sides, respectively. It is composed of an inclined portion 21c and a pair of horizontal portions 21b provided to connect the upper and lower ends of the two pairs of inclined portions 21c, respectively, and the pair of vertical portions 21a, the two pairs of inclined portions ( 21c) and a pair of horizontal portions 21b form a space 26 inside, and the upper and lower portions of the horizontal frame 21 are formed by the two pairs of inclined portions 21c and the pair of horizontal portions 21b. Concave grooves 25 are formed on each side,
Preparing a vertical frame 22 provided in a state in which the spaced part w2 is maintained in the vertical direction on the outer surface 11 of the building wall 10 within the spaced part w1; The vertical frame 22 is provided with a pair of horizontal parts 22a on both sides provided in the horizontal direction of the outer surface 11 of the building wall and inclined inward at the left and right ends of the pair of horizontal parts 22a on both sides, respectively It is composed of two pairs of inclined parts 22c and a pair of vertical parts 22b provided to connect the left and right ends of the two pairs of inclined parts 22c, respectively, and the pair of horizontal parts 22a and the two pairs of inclined parts (22c) and a pair of vertical portions (22b) to form a space portion 26 inside, due to the two pairs of inclined portions (22c) and a pair of vertical portions (22b) of the vertical frame 21, the left, A concave groove 25 is formed on the right side,
A horizontal reinforcement 32 is inserted in the horizontal longitudinal direction along the space 26 of the horizontal frame 21, and a vertical reinforcement 34 in the vertical longitudinal direction along the space 26 of the vertical frame 22. ) to be inserted; The vertical reinforcement 34 crossing the horizontal reinforcement 32 is divided at the upper and lower sides of the horizontal reinforcement 32, respectively, so that it is welded and fixed integrally,
Preparing an external insulation material 51 spaced apart from the outer surfaces of the horizontal frame 21 and the vertical frame 22 by the first separation space 81;
preparing an external panel 55 closely attached to an outer surface of the external insulation material 51;
Preparing an internal insulation material 61 spaced apart from the inner surface 12 of the building wall by the second spaced space portion 83;
preparing an inner panel 65 closely attached to an outer surface of the inner insulation material 61;
It is penetrated and fastened from the outer surface of the external insulation material 51 to the outer surface of the inner insulation material 61, and any one of the external insulation material 51, the horizontal frame 21 and the vertical frame 22, and the building wall 10 ), and fastening and fixing the internal insulation material 61 to be integrated with bolts 71 and nuts 72; The bolt 71 and the nut 72 are positioned in an unexposed state, respectively, on the outer surface of the inner insulation 61 on the outer surface of the outer insulation 51,
filling a heat insulating urethane foam (89) between the first spaced space part (81) and the second spaced space part (83); The insulating polyurethane foam 89 filled in the first spaced space 81 is inserted into and filled into the concave grooves 25 of the horizontal frame 21 and the vertical frame 22, and the horizontal frame 21 and the vertical It is made by inserting and filling in the spaced parts (w1, w2) of the frame 22 to increase mutual adhesion,
It is formed larger than the diameter of the bolt 71 on the outside of the bolt 71 passing between the external insulation 51, the horizontal frame 21 and the vertical frame 22, and the external insulation 51 and the horizontal A first spacer 75 is provided on the facing surface of the frame 21 and the vertical frame 22, respectively, to form a first spaced space 81, and the building wall 10, A second interval formed larger than the diameter of the bolt 71 on the outside of the bolt 71 passing between the internal insulation 61 and in close contact with the building wall 10 and the surface facing the internal insulation 61, respectively. A method of constructing a building wall in which a heat insulating material of a building wall with improved mutual integrity and an insulating polyurethane foam are installed, characterized in that the holding tool 76 is provided to form the second spaced space portion 83.
According to claim 6,
The first spacer 75 and the second spacer 76 are formed in the form of a hexagonal or octagonal tube to secure frictional force with the insulating polyurethane foam 89, and the first spacer maintains the first spacer. Protrusions 79 in the form of a quadrangular pyramid are formed on the outer surfaces of the sphere 75 and the second spacer 76 to increase the frictional force with the insulating urethane foam 89, and the horizontal frame 21 and the vertical A plurality of grooves 122 are formed in the outer surface 121 on the exposed side of the frame 22 in the form of a square cross section, so that the heat insulating urethane foam 89 is inserted into the grooves 122, and the horizontal frame ( A through hole 124 is formed over the horizontal portion 21b and the inclined portion 21c of 21), and the through hole 124 spans over the vertical portion 22b and the inclined portion 22c of the vertical frame 22. is formed, so that the insulating polyurethane foam 89 is inserted into the horizontal frame 21 and the vertical frame 22 through the through hole 124 to wrap the horizontal reinforcement 32 and the vertical reinforcement 34 so that they are in close contact with each other. A method of constructing a building wall in which an insulation material of a building wall with improved mutual integrity and an insulating urethane foam are installed, characterized in that the mutual adhesion is further improved.

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