KR102501274B1 - Vacuum insulation material assembly with thermal bridge protecting function - Google Patents

Abstract

The present invention relates to a vacuum insulation material assembly having a thermal bridge prevention function. According to the present invention, a thermal bridge prevention unit is provided in a first housing that surrounds outdoor and indoor sides of a vacuum insulator, so that the above-described first housing is installed on an installation target surface. Due to a structure in which a second housing and a third housing adjacent to the first housing are installed, the vacuum insulation material assembly can fundamentally block inflow and outflow of heat both indoors and outdoors, can be used as an external finishing material by itself, and also can maintain engagement with the installation target surface. The vacuum insulation material assembly includes a vacuum insulation material; a first housing; and a thermal bridge prevention unit.

Description

Vacuum insulation assembly with thermal bridge prevention function {VACUUM INSULATION MATERIAL ASSEMBLY WITH THERMAL BRIDGE PROTECTING FUNCTION}

The present invention relates to a vacuum insulation assembly having a thermal bridge prevention function, and more particularly, can fundamentally block heat inflow and outflow between indoor and outdoor sides, can be used as an external finishing material itself, and can be used as an installation target surface. It relates to a vacuum insulator assembly having a thermal bridge prevention function capable of maintaining an engagement state for.

The best solution for energy saving and thermal insulation is to use insulation.

These insulation materials are recently applied to most buildings.

Among them, conventional insulation materials such as styrofoam or urethane foam require thick insulation materials to comply with building construction regulations and have the disadvantage of being very vulnerable to fire.

In view of the above, in recent years, vacuum insulation materials have been in the limelight as insulation materials for buildings.

A vacuum insulator is an insulator in which an organic core material such as polyurethane foam or an inorganic core material such as glass fiber or silica is inserted into an outer shell material and then sealed by depressurizing the inside.

Vacuum insulation materials have recently attracted great attention as insulation materials or sound insulation materials for buildings because they have excellent insulation performance or sound insulation performance because there is no or very little air serving as a medium for transmitting heat or sound.

However, unlike conventional insulation materials, the vacuum insulation material maintains its insulation and sound insulation properties only when the outer shell maintains airtightness and the inside is kept in a vacuum state. However, special care is required during installation.

Therefore, when constructing the vacuum insulation material, it is difficult to use fasteners such as nails or anchor bolts, and there are disadvantages in that construction or installation takes a lot of time.

In view of the above, the same may be mentioned as "a vacuum insulation installation bracket with detachable fixing part" (hereinafter referred to as prior art) of Registered Patent No. 10-2222938 filed and registered by the present applicant.

As shown in FIG. 9, the prior art is used to mount the vacuum insulator 10 while being fixed to a wall surface on which the vacuum insulator 10 is to be installed.

The bracket is fixed to the wall surface by passing an anchor bolt or the like through the bracket fastening hole 150 formed in the base frame 100.

After fixing the bracket to the wall surface, one side of the vacuum insulation material 10 is inserted between the base frame 100 and the fixing frame 130 of the bracket.

Then, another bracket is installed on the other side of the vacuum insulator 10 in the same way so that both sides of the vacuum insulator 10 are fixed by the bracket.

At this time, the bracket fixing the other side of the vacuum insulator 10 is formed on the bracket because it is easy to mount on the wall after inserting the vacuum insulator 10 between the base frame 100 and the fixing frame 130. The bracket fastening hole 150 is coupled so that the vacuum insulator 10 is directed outward.

This is because when the bracket fastening hole 150 is directed toward the vacuum insulator 10, the bracket fastening hole 150 is covered by the vacuum insulator 10, making it inconvenient to fasten with an anchor bolt or the like.

However, the prior art has a problem in that cumbersome operations such as installing the vacuum insulation material 10 on the wall and then installing the lumber again, and additionally installing a separate external finishing material 30 on the installed lumber.

In addition, in the prior art, in fixing and installing a plurality of vacuum insulators 10 along a wall, a cumbersome task of installing brackets including a plurality of base frames 100 at each edge of the vacuum insulator 10 is involved. There were also problems.

Registered Patent No. 10-2222938

The present invention was invented to improve the above problems, and can fundamentally block heat inflow and outflow between indoor and outdoor sides, and can be used as an external finishing material by itself, as well as maintaining an engagement state with respect to the installation target surface. It is to provide a vacuum insulation assembly having a possible thermal bridge prevention function.

In order to achieve the above object, the present invention provides a first piece disposed on the outdoor side, a second piece disposed indoors and parallel to the first piece, and each of the first piece and the second piece. A third piece connecting one edge to each other and a fourth piece connecting the other edges of the first piece and the second piece to each other, and a vacuum is formed in the inner space composed of the first to fourth pieces. A first housing filled with a heat insulating material and penetrating both ends; and a first blocking cutout formed to divide the third piece around an imaginary line interconnecting both ends of the third piece in order to prevent a thermal bridge between the outdoor side and the indoor side, and , A vacuum insulation assembly having a thermal bridge prevention function, characterized in that it includes a thermal bridge prevention part including a second blocking cutout formed to divide the fourth piece around an imaginary line interconnecting both ends of the fourth piece. can provide

In addition, the present invention is a first surface formed toward the outdoor side, a second surface formed toward the indoor side, a third surface connecting the edge of each end of the first surface and the second surface, the first surface a vacuum insulator having a fourth surface connecting the surface and the edge of the other end of each of the second surfaces; With respect to a first protective material surrounding the first surface and the third surface, a second protective material surrounding the second surface and the fourth surface, and a connection portion where the second surface and the third surface meet, the first protective material And a first bracket extending from the second protective material to fix the first housing to the installation target surface and supporting the second protective material of the second housing adjacent to the first housing, the first surface and the first bracket. Both ends of the first housing including a second bracket extending from the first protective material and the second protective material to press and support the first protective material of the third housing adjacent to the first housing with respect to the connection part where the fourth surface meets. ; and a thermal bridge prevention unit formed on the first bracket and the second bracket to prevent thermal bridge between the outdoor side and the indoor side. can provide.

Here, the first protective material and the second protective material are made of the same material or different materials, and when the first protective material and the second protective material are different materials, the first protective material is the second protective material. It is made of a material having higher thermal conductivity than the protective material, and the thermal bridge preventing part is formed integrally with or separately from the second protective material.

At this time, the first housing constitutes the first protective material, and constitutes an outer piece having an opposite surface facing the first surface, and constitutes the first protective material, and extends from one edge of the outer piece to the outer piece. A first side piece having an opposing surface facing the third surface, constituting the second protective material, and an inner piece having an opposing surface facing the second surface, constituting the second protective material, A second side piece having an opposite surface facing four sides, constituting the first bracket, extending from an inner edge of the first side piece with respect to an outer edge of the first side piece shared with one edge of the outer piece. A first outer extension piece formed to be inclined with respect to the second surface and constituting the first bracket, the opposite side extending from the edge of the first outer extension piece and facing the installation target surface on which the first housing is installed. An outer fixing piece having a face, constituting the first bracket, and a second outer extension extending from an edge of the outer fixing piece and formed obliquely with respect to the outer fixing piece, constituting the first bracket, A first inner extension extending from an edge of the inner piece and formed to be inclined with respect to the second surface and parallel to the first outer extension, and constituting the first bracket, the first inner extension An inner fixing piece extending from the edge and contacting the installation target surface on which the first housing is installed and formed parallel to the outer fixing piece, and constituting the first bracket, extending from the edge of the inner fixing piece A second inner extension piece formed obliquely with respect to the inner fixing piece and formed parallel to the second outer extension piece, and the second bracket, which extends from the other edge of the outer piece and is the same as the outer piece. An outer locking piece formed on a plane and constituting the second bracket, the inner side of the second side piece shared with the other edge of the inner piece. With respect to the side edge, an inner locking piece extending from an outer edge of the second side piece and formed parallel to the first surface and disposed in parallel with the outer locking piece, and the second adjacent to the first housing. The second bracket of the first housing may further include a seating stepped step formed on the outer piece along a connection portion between the outer piece and the first side piece so that the second bracket of the housing is seated, and the second bracket of the first housing comprises: It is seated and fixed to a seating step of the third housing adjacent to the housing, and the thermal bridge prevention unit is between the first outer extension piece and the first inner extension piece, between the outer fixing piece and the inner fixing piece, and the It is formed between the second outer extension piece and the second inner extension piece, and formed between the outer locking piece and the inner locking piece.

The thermal bridge prevention unit may be formed between a first blocking piece formed between the first outer extension piece and the first inner extension piece, and extending from an edge of the first blocking piece and between the outer fixing piece and the inner fixing piece. Between a second blocking piece formed and a third blocking piece extending from an edge of the second blocking piece and formed between the second outer extension piece and the second inner extension piece, and the outer locking piece and the inner locking piece. and a fourth blocking piece formed on the first blocking piece, the second blocking piece, the third blocking piece, and the fourth blocking piece, the first inner extension piece, the inner fixing piece, and the first blocking piece. 2 characterized in that the inner extension piece and the inner locking piece are made of the same or different material.

In addition, the first housing is formed on a first side piece of the first protective material having an opposite surface facing the third surface, and is engaged with a second side piece of the second housing adjacent to the first housing. A first engaging means for holding and formed on a second side piece having an opposite surface facing the fourth surface of the second protective material, and engaged with the first side piece of the third housing adjacent to the first housing. It is characterized in that it further comprises a second engagement means for holding.

In addition, the first engaging means may include a first stepped surface formed stepwise along the connection portion of the second surface connected to the third surface of the vacuum insulator and parallel to the second surface and the first surface; A first stepped piece connected to a first stepped surface and having a shape corresponding to a first recessed surface parallel to the third surface, and bent and formed on the first side piece to face the first stepped surface; The third surface connected to the edge of one side of the second surface of the vacuum insulator including a first recessed piece formed by bending the first stepped piece facing the recessed surface, or facing the installation target surface, with respect to the installation target surface At the same time as being formed obliquely, the fourth surface connected to the other edge of the second surface of the vacuum insulator is formed obliquely with respect to the installation target surface and has a shape corresponding to that parallel to the third surface, of the second housing A first engaging rib protruding or recessed along a connection portion of one edge of a first side piece connected to the front end of the first bracket starting from the first side piece with respect to the end portion of the first bracket supporting the inner piece The second engaging means includes a second stepped surface formed stepwise along the connection portion of the first surface connected to the fourth surface of the vacuum insulator and parallel to the first surface and the second surface; , A second stepped piece connected to the second stepped surface and having a shape corresponding to the second recessed surface parallel to the fourth surface, and bent and formed on the second side piece to face the second stepped surface; A second recessed surface that is bent and formed on the second stepped piece facing the second recessed surface, or the other edge of the inner piece supported by the first bracket of the third housing and the edge of the second side piece It includes a second engagement rib that is depressed or protrudes along the connection portion, and the first side piece having the first engagement rib and the second side piece having the second engagement rib are parallel to each other, and are to be installed. Characterized in that it is formed obliquely with respect to the surface all.

According to the present invention having the configuration as described above, the following effects can be achieved.

First of all, the present invention forms a material with low thermal conductivity between the part surrounding the outdoor side and the part surrounding the indoor side of the vacuum insulation material, thereby fundamentally blocking the thermal bridge caused by the inflow and outflow of heat between the indoor and outdoor sides. will be.

In addition, the present invention provides an interlocking structure between a housing surrounding a vacuum insulation material and an adjacent housing, so that the installation and maintenance of the installed state of the housing installed along the installation target surface can be easily, reliably and firmly.

In addition, the present invention will be able to reduce the cost by reducing the use of unnecessary exterior materials in that the housing itself surrounding the vacuum insulation material can be used as an exterior finishing material.

1 is a perspective conceptual view showing the overall structure of a vacuum insulation assembly having a thermal bridge prevention function according to an embodiment of the present invention.
2 is a cross-sectional conceptual view showing the overall structure of a vacuum insulation assembly having a thermal bridge prevention function according to various embodiments of the present invention.
3 to 6 are exploded cross-sectional conceptual views showing the overall coupling relationship of a vacuum insulation assembly having a thermal bridge prevention function according to various embodiments of the present invention.
7 is a conceptual diagram illustrating a process in which a vacuum insulation assembly having a thermal bridge prevention function according to an embodiment of the present invention is installed on an installation target surface.
8 is a conceptual diagram illustrating a process in which a vacuum insulation assembly having a thermal bridge prevention function according to another embodiment of the present invention is installed on an installation target surface.
9 is a side cross-sectional conceptual view showing a conventional vacuum insulation installation bracket

Advantages and features of the present invention, and methods for achieving them, will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below and will be implemented in various different forms.

In this specification, this embodiment is provided to complete the disclosure of the present invention, and to completely inform those skilled in the art of the scope of the invention to which the present invention belongs.

And the invention is only defined by the scope of the claims.

Thus, in some embodiments, well-known components, well-known operations and well-known techniques have not been described in detail in order to avoid obscuring the interpretation of the present invention.

In addition, like reference numerals designate like elements throughout the specification, and terms used (referred to) in this specification are for describing embodiments and are not intended to limit the present invention.

In this specification, the singular also includes the plural unless specifically stated in the phrase, and components and operations referred to as 'comprising (or including)' do not exclude the presence or addition of one or more other components and operations. .

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used in a meaning commonly understood by those of ordinary skill in the art to which the present invention belongs.

In addition, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless they are defined.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

First, FIG. 1 is a perspective conceptual view showing the overall structure of a vacuum insulation assembly having a thermal bridge prevention function according to an embodiment of the present invention.

2 is a cross-sectional conceptual view showing the overall structure of a vacuum insulation assembly having a thermal bridge prevention function according to various embodiments of the present invention.

And, FIGS. 3 to 6 are exploded cross-sectional conceptual views illustrating overall coupling relationships of vacuum insulation assemblies having a thermal bridge prevention function according to various embodiments of the present invention.

And, FIG. 7 is a conceptual diagram illustrating a process in which the vacuum insulation assembly having a thermal bridge prevention function according to an embodiment of the present invention is installed on the installation target surface 400 .

8 is a conceptual diagram illustrating a process of installing a vacuum insulation assembly having a thermal bridge prevention function according to another embodiment of the present invention on an installation target surface 400 .

As shown in FIG. 1 , it can be seen that the present invention has a structure in which the thermal bridge prevention unit 700 is provided in the first housing 100 .

The first housing 100 includes a first piece 101 disposed on the outdoor side, a second piece 102 disposed indoors and parallel to the first piece 101, and a first piece 101 and a second piece 102. A third piece 103 interconnecting one edge of each of the two pieces 102 and a fourth piece 104 interconnecting the other edge of each of the first piece 101 and the second piece 102 do.

The first housing 100 is a member with both ends penetrating, in which the vacuum insulator 500 is filled in the inner space composed of the first piece 101 to the fourth piece 104.

The thermal bridge prevention unit 700 is provided to prevent thermal bridge between the outdoor side and the indoor side.

The thermal bridge prevention unit 700 includes a first blocking cutout (hereinafter not shown) formed to divide the third piece 103 around an imaginary line connecting both ends of the third piece 103, and a fourth piece 103. It may include a second blocking cutout 702 formed to divide the fourth piece 104 around an imaginary line connecting both ends of 104 to each other.

Of course, the present invention can be applied to the above embodiments and also to the following various embodiments.

In addition, as shown in FIGS. 2 to 5, the present invention applies an embodiment of a structure in which the thermal bridge prevention unit 150 is formed in the first housing 100 surrounding the outdoor and indoor sides of the vacuum insulator 500. can

First, the vacuum insulator 500 has a first surface 501 formed toward the outdoor side, a second surface 502 formed toward the indoor side, and one end of each of the first surface 501 and the second surface 502. It has a third surface 503 connecting the minor edges and a fourth surface 504 connecting the other end edges of the first surface 501 and the second surface 502, respectively.

And, the first housing 100 is formed through both ends, and includes a first protective material 110 surrounding the first surface 501 and the third surface 503, the second surface 502 and the fourth surface 504 ) Includes a second protective material 120 surrounding the.

And, the first housing 100 extends from the first protective material 110 and the second protective material 120 with respect to the connection portion where the second surface 502 and the third surface 503 meet to form the first housing 100. It includes a first bracket 130 that is fixed to the installation target surface 400 and supports the second protective material 220 of the second housing 200 adjacent to the first housing 100 at the same time.

In addition, the first housing 100 extends from the first protective material 110 and the second protective material 120 with respect to the connection portion where the first surface 501 and the fourth surface 504 meet, and is connected to the first housing 100. A second bracket 140 presses and supports the first protective material 310 of the adjacent third housing 300 .

In addition, the thermal bridge prevention unit 150 is formed on the first bracket 130 and the second bracket 140 to prevent thermal bridge between the outdoor side and the indoor side.

That is, in the embodiment of FIG. 2 , the first blocking cutout mentioned in the embodiment of FIG. 1 is between the second outer extension piece 133 and the second inner extension piece 136 of the first bracket 130 to be described later. can be formed

In addition, in the embodiment of FIG. 2, the second blocking cutout mentioned in the embodiment of FIG. 1 may be formed between the outer locking piece 141 and the inner locking piece 142 of the second bracket 140 to be described later. will be.

Meanwhile, the first protective material 110 and the second protective material 120 may be made of the same or different materials.

For example, the first protective material 110 may be made of a metal material to protect the vacuum insulator 500 from external impact and maintain structural strength.

The second protective material 120 may be made of the same metal material as the first protective material 110 and, unlike the first protective material 110, may be made of a synthetic resin material having low thermal conductivity.

As the synthetic resin material, a material having excellent thermal insulation performance such as polyamide may be used.

Here, the first protective material 110 may be made of a material having higher thermal conductivity than the second protective material 120 .

In this case, the thermal bridge prevention unit 150 may be formed separately from the second protective material 120 as shown in FIGS. 3 and 5 or formed integrally with the second protective material 120 as shown in FIGS. 4 and 6 .

In addition, although not particularly shown, both ends of the first housing 100, the second housing 200, and the third housing 300, which are through both ends, are either welded or adhesively finished, or pressed and sealed by press processing. will be.

Meanwhile, the first protective material 110, the second protective material 120, the first bracket 130, and the second bracket 140 of the first housing 100 are described in more detail with reference to FIGS. 3 to 6 again. Take a look:

First, the first protective material 110 may include an outer piece 111 and a first side piece 112 .

Here, the outer piece 111 has an opposite surface facing the first surface 501, and the first side piece 112 extends from one edge of the outer piece 111 and faces the third surface 503. It has an opposite side.

Also, the second protective material 120 may include an inner piece 121 and a second side piece 122 .

Here, the inner piece 121 has an opposite surface facing the second surface 502 , and the second side piece 122 has an opposite surface facing the fourth surface 504 .

In addition, the first bracket 130, together with the first outer extension piece 131 formed on the outdoor side, the outer fixing piece 132, and the second outer extension piece 133, the first inner portion formed on the indoor side It may include an extension piece 134, an inner fixing piece 135, and a second inner extension piece 136.

Here, the first outer extension piece 131 extends from the inner edge of the first side piece 112 with respect to the outer edge of the first side piece 112 shared with one edge of the outer piece 111 to form a second surface ( 502) is formed to be inclined.

At this time, the external fixing piece 132 extends from the edge of the first external extension piece 131 and has an opposite surface facing the installation target surface 400 on which the first housing 100 is installed.

And, the second outer extension piece 133 extends from the edge of the outer fixing piece 132 and is inclined with respect to the outer fixing piece 132 .

Also, the first inner extension piece 134 extends from the edge of the inner piece 121 and is formed to be inclined with respect to the second surface 502 and parallel to the first outer extension piece 131 .

In addition, the inner fixing piece 135 extends from the edge of the first inner extension piece 134 and contacts the installation target surface 400 on which the first housing 100 is installed and is parallel to the outer fixing piece 132 at the same time. will be formed

In addition, the second inner extension piece 136 extends from the edge of the inner fixing piece 135 and is formed obliquely with respect to the inner fixing piece 135 and parallel to the second outer extension piece 133 .

Meanwhile, the second bracket 140 may include an external engaging piece 141 and an internal engaging piece 142 .

First, the outer hooking piece 141 extends from the other edge of the outer piece 111 and is formed on the same plane as the outer piece 111 .

In addition, the inner hooking piece 142 extends from the outer edge of the second side piece 122 with respect to the inner edge of the second side piece 122 shared with the other edge of the inner piece 121 to form a first surface 501. It is formed in parallel with respect to and at the same time disposed in parallel with the external locking piece 141.

Meanwhile, the outer piece 111 is stepped along the connection portion between the outer piece 111 and the first side piece 112 so that the second bracket 240 of the second housing 200 adjacent to the first housing 100 is seated. ) May be further provided with a seating step 113 formed in.

Therefore, the second bracket 140 of the first housing 100 is seated on the seating step 313 of the third housing 300 adjacent to the first housing 100, as shown in FIGS. 7 and 8 . fixed can be identified.

In addition, the thermal bridge prevention unit 150 is between the first outer extension piece 131 and the first inner extension piece 134, between the outer fixing piece 132 and the inner fixing piece 135, and the second outer extension It can be clearly seen that it is formed between the piece 133 and the second inner extension 136, and formed between the outer locking piece 141 and the inner locking piece 142.

On the other hand, the thermal bridge prevention unit 150 is formed between the first outer extension piece 131 and the first inner extension piece 134 and the first blocking piece 151 formed between the edges of the first blocking piece 151. The second blocking piece 152 extended and formed between the outer fixing piece 132 and the inner fixing piece 135, the second outer extension piece 133 extending from the edge of the second blocking piece 152, and the second blocking piece 152. A third blocking piece 153 formed between the two inner extension pieces 136 may be included.

In addition, the thermal bridge prevention unit 150 may include a fourth blocking piece 154 formed between the external locking piece 141 and the internal locking piece 142 .

Here, the first blocking piece 151, the second blocking piece 152, the third blocking piece 153, and the fourth blocking piece 154, as shown in FIGS. 3 and 5, the first inner extension piece 134, the inner fixing piece 135, the second inner extension piece 136, and the inner locking piece 142 may be made of the same material, or may be made of other materials as shown in FIGS. 2 and 4 .

Meanwhile, referring again to FIGS. 3 to 6 , the first housing 100 may further include first and second engaging means 160 and 170 .

The first engaging means 160 is formed on the first side piece 112 having an opposite surface facing the third surface 503 of the first protective material 110, and the second housing adjacent to the first housing 100. It is to maintain the engagement state with the second side piece 222 of (200).

The second engaging means 170 is formed on the second side piece 122 having an opposite surface facing the fourth surface 504 of the second protective material 120, and the third housing adjacent to the first housing 100. It is to maintain the first side piece 312 and the engagement state of (300).

As the first engaging means 160, an embodiment of a structure including a first stepped piece 161 and a first recessed piece 162 as shown in FIGS. 3, 4, and 7 may be applied.

First, the first stepped piece 161 and the first recessed piece 162 are formed stepwise along the connection portion of the second surface 502 connected to the third surface 503 of the vacuum insulation material 500, The first stepped surface 511 parallel to the surface 502 and the first surface 501 and the first recessed surface 512 connected to the first stepped surface 511 and parallel to the third surface 503 It has a corresponding shape.

Here, the first stepped piece 161 is formed by bending the first side piece 112 to face the first stepped surface 511, and the first recessed piece 162 faces the first recessed surface 512. It is formed by bending the first stepped piece 161.

In addition, the first engaging means 160 may apply an embodiment of a structure including a first engaging rib 163 as shown in FIGS. 5, 6, and 8 .

First, in the first engagement rib 163, the third surface 503 connected to one edge of the second surface 502 of the vacuum insulator 500 facing the installation target surface 400 is attached to the installation target surface 400. At the same time, the fourth surface 504 connected to the other edge of the second surface 502 of the vacuum insulator 500 is formed inclined with respect to the installation target surface 400 and is parallel to the third surface 503. It has a corresponding shape.

The first engagement rib 163 is a first bracket starting from the first side piece 112 with respect to the distal end of the first bracket 130 supporting the inner piece 221 of the second housing 200 ( 130) is protruding or recessed along the connection portion of one edge of the first side piece 112 connected to the front end.

In the present invention, although the first engagement rib 163 is shown in a shape protruding toward the adjacent second housing 200, it is not necessarily limited to this structure, and as described above, the embodiment of the recessed structure can also be applied. Of course there will be.

On the other hand, the second engagement means 170, as shown in FIGS. 3, 4, and 7, may be applied to an embodiment of the structure including the second stepped piece 171 and the second recessed surface 172.

First, the second stepped piece 171 and the second recessed surface 172 are formed stepwise along the connection portion of the first surface 501 connected to the fourth surface 504 of the vacuum insulator 500, so that the first surface Corresponds to the second stepped surface 521 parallel to (501) and the second surface 502, and the second recessed surface 522 connected to the second stepped surface 521 and parallel to the fourth surface 504. It has the shape of

That is, the second stepped piece 171 is formed by bending the second side piece 122 to face the second stepped surface 521, and the second recessed surface 172 faces the second recessed surface 522. It is formed by bending the second stepped piece 171.

In addition, the second engagement means 170, as shown in FIGS. 5, 6, and 8, the other edge of the inner piece 121 supported by the first bracket 330 of the third housing 300 and the second Of course, an embodiment of the structure including the second engagement rib 173 formed to be recessed or protruded along the connection portion of the edge of the side piece 122 may be applied.

Here, the first side piece 112 provided with the first engagement rib 163 and the second side piece 122 provided with the second engagement rib 173 are parallel to the installation target surface 400. It can also be grasped that it is formed obliquely.

At this time, in the present invention, although the second engagement rib 173 is shown in a depressed shape, it is not necessarily limited to this structure, and as described above, an embodiment of a structure protruding toward the neighboring third housing 300 is also applied. Of course you can.

Therefore, the first stepped piece 161 and the first recessed surface 163 constituting the first engaging means 160 of the first housing 100 are adjacent to the first housing 100 as shown in FIG. 7 . 2 The second stepped piece 271 of the housing 200 and the second recessed surface 272 are engaged.

At the same time, the first bracket 130 of the first housing 100 supports the second protective material 220 of the second housing 200, that is, the inner piece 221 of the second housing 200, The second bracket 240 of the second housing 200 is seated and fixed to the seating step 113 of the first housing 100 .

In addition, the second stepped piece 171 and the second recessed surface 172 constituting the second engaging means 170 of the first housing 100 are adjacent to the first housing 100 and the third housing 300 ) is engaged with the first stepped piece 361 and the first recessed surface 362.

At the same time, while the inner piece 121 of the first housing 100 is supported by the first bracket 330 of the third housing 300, the second bracket 140 of the first housing 100 is 3 It is seated and fixed to the seating step 313 of the housing 300.

At this time, the first bracket 130 of the first housing 100, the first bracket (hereinafter not shown) of the second housing 200, and the first bracket 330 of the third housing 300 are installed on the target surface ( 400) and is fixed by the fixture 600.

In addition, the first engagement rib 163 constituting the first engagement means 160 of the first housing 100 is the second engagement rib 163 of the second housing 200 adjacent to the first housing 100, as shown in FIG. It is engaged with the engagement rib 273.

At the same time, the first side piece 112 of the first housing 100 inclined upward from the installation target surface 400 toward the outdoor side is the second housing formed inclined downward toward the installation target surface 400 from the outdoor side. The second bracket 240 of the second housing 200 is seated and fixed to the seating step 113 of the first housing 100 while coming into contact with the second side piece 222 of the 200 .

In addition, the second engagement rib 173 constituting the second engagement means 170 of the first housing 100 is the first engagement rib 363 of the third housing 300 adjacent to the first housing 100. ) is intertwined with

At the same time, the second side piece 122 of the first housing 100 inclined downward from the outdoor side toward the installation target surface 400 side has a third inclined upward slope from the installation target surface 400 toward the outdoor side. While coming into contact with the first side piece 312 of the housing 300, the second bracket 140 of the first housing 100 is seated and fixed to the seating step 313 of the third housing 300.

At this time, the first bracket 130 of the first housing 100, the first bracket (hereinafter not shown) of the second housing 200, and the first bracket 330 of the third housing 300 are installed on the target surface ( 400) and is fixed by the fixture 600.

As described above, the present invention can fundamentally block the inflow and outflow of heat between the indoor and outdoor sides, and can be used as an external finishing material by itself, as well as a vacuum having a thermal bridge prevention function capable of maintaining the engagement state with respect to the installation target surface It can be seen that the basic technical idea is to provide an insulator assembly.

And, of course, many other modifications and applications are possible to those skilled in the art within the scope of the basic technical idea of the present invention.

100...first housing
110 ... first protective material
111...outside
112... first side
113... Seated steps
120 ... second protective material
121...inside
122 ... the second side
130 ... 1st bracket
131 ... first external extension
132 ... external fixture
133 ... 2nd outer extension
134 ... first inner extension
135...Internal fixture
136 ... second inner extension
140 ... 2nd bracket
141...external snag
142 ... internal snag
150 ... thermal bridge prevention unit
151... First Block
152...Second block
153... Third block
154...4th block
160 ... first engagement means
161 ... first step
162... First collapse
163 ... first engagement rib
170 ... second engagement means
171 ... 2nd step
172 ... second concave surface
173 ... second engagement rib
200 ... second housing
220 ... the second protective material of the second housing 200
221 ... inner piece of the second housing 200
222 ... second side piece of the second housing 200
240 ... the second bracket of the second housing 200
271 ... the second stepped piece of the second housing 200
272 ... the second recessed surface of the second housing 200
273 ... second engagement rib of the second housing 200
300...first housing
310... the first protective material of the third housing 300
312 ... first side piece of the third housing 300
313 ... stepped seating of the third housing 300
330 ... the first bracket of the third housing 300
361... the first stepped piece of the third housing 300
362 ... the first recessed surface of the third housing 300
363 ... first engagement rib of the third housing 300
400... target surface
500...vacuum insulation
501...side 1
502 ... side 2
503 ... 3rd side
504...Fourth side
511 ... 1st step surface
512 ... first depression
521 ... second step surface
522 ... second depression
600...Fixture

Claims (7)

delete A first surface formed toward the outdoor side, a second surface formed toward the indoor side, a third surface connecting the edge of one end of each of the first surface and the second surface, and the first surface and the second surface. a vacuum insulator having a fourth surface connecting the edge of the other end of each surface;
A first piece disposed on the outdoor side, a second piece disposed indoors and parallel to the first piece, and a third piece interconnecting one edge of each of the first piece and the second piece; a first housing with both ends penetrating, including a fourth piece interconnecting the other edge of the first piece and the second piece, and filled with the vacuum insulator in an inner space formed of the first piece to the fourth piece;
With respect to a first protective material surrounding the first surface and the third surface, a second protective material surrounding the second surface and the fourth surface, and a connection portion where the second surface and the third surface meet, the first protective material And a first bracket extending from the second protective material to fix the first housing to the installation target surface and supporting the second protective material of the second housing adjacent to the first housing, the first surface and the first bracket. Both ends of the first housing including a second bracket extending from the first protective material and the second protective material to press and support the first protective material of the third housing adjacent to the first housing with respect to the connection part where the fourth surface meets. ; and
a thermal bridge prevention unit formed on the first bracket and the second bracket to prevent a thermal bridge between the outdoor side and the indoor side;
The first housing,
Constituting the first protective material, an outer piece having an opposing surface facing the first surface;
A first side piece constituting the first protective material, extending from one edge of the outer piece and having an opposing surface facing the third surface;
An inner piece constituting the second protective material and having an opposite surface facing the second surface;
A second side piece constituting the second protective material and having an opposing surface facing the fourth surface;
A first outer extension constituting the first bracket, which extends from an inner edge of the first side piece and is inclined with respect to the second surface with respect to an outer edge of the first side piece shared with one edge of the outer piece. side section,
An external fixing piece constituting the first bracket, extending from an edge of the first external extension piece and having an opposite surface facing the installation target surface on which the first housing is installed;
A second outer extension piece constituting the first bracket, extending from an edge of the outer fixing piece and inclined with respect to the outer fixing piece;
A first inner extension constituting the first bracket, extending from an edge of the inner piece, inclined with respect to the second surface, and parallel to the first outer extension piece;
An inner fixing piece constituting the first bracket, extending from an edge of the first inner extension piece and contacting an installation target surface on which the first housing is installed and formed parallel to the outer fixing piece;
A second inner extension constituting the first bracket, extending from an edge of the inner fixing piece, inclined with respect to the inner fixing piece, and parallel to the second outer extension piece;
An external locking piece constituting the second bracket, extending from the other edge of the outer piece and formed on the same plane as the outer piece;
As constituting the second bracket, with respect to the inner edge of the second side piece shared with the other edge of the inner piece, it extends from the outer edge of the second side piece and is formed parallel to the first surface, and at the same time, the outer edge of the outer piece is formed. An internal locking piece disposed parallel to the locking piece;
Further comprising a seating step formed on the outer piece along the connection portion between the outer piece and the first side piece so that the second bracket of the second housing adjacent to the first housing is seated,
The second bracket of the first housing is seated and fixed to a seating step of the third housing adjacent to the first housing,
The thermal bridge prevention unit is formed between the first outer extension and the first inner extension, between the outer fixing piece and the inner fixing piece, and between the second outer extension and the second inner extension, At the same time, formed between the outer locking piece and the inner locking piece
A vacuum insulation assembly having a thermal bridge prevention function, characterized in that.
The method of claim 2,
The first protective material and the second protective material are made of the same material or different materials,
When the first protective material and the second protective material are made of different materials, the first protective material is made of a material having higher thermal conductivity than the second protective material,
The vacuum insulation assembly having a thermal bridge prevention function, characterized in that the thermal bridge prevention unit is formed integrally with or separately from the second protective material.
delete The method of claim 2,
The thermal bridge prevention unit,
a first blocking piece formed between the first outer extension and the first inner extension;
a second blocking piece extending from an edge of the first blocking piece and formed between the outer fixing piece and the inner fixing piece;
a third blocking piece extending from an edge of the second blocking piece and formed between the second outer extension piece and the second inner extension piece;
And a fourth blocking piece formed between the outer locking piece and the inner locking piece,
The first blocking piece, the second blocking piece, the third blocking piece, and the fourth blocking piece are the same as the first inner extension piece, the inner fixing piece, the second inner extension piece, and the inner locking piece. or a vacuum insulation assembly having a thermal bridge prevention function, characterized in that made of other materials.
The method of claim 2,
The first housing,
A first engaging means formed on a first side piece of the first protective material having an opposite surface facing the third surface and maintaining an engaged state with a second side piece of the second housing adjacent to the first housing;
A second engaging means formed on a second side of the second protective material having an opposite surface facing the fourth surface and maintaining an engaged state with the first side of the third housing adjacent to the first housing; A vacuum insulation assembly having a thermal bridge prevention function, characterized in that it comprises.
The method of claim 6,
The first engagement means,
A first stepped surface formed stepwise along the connection portion of the second surface connected to the third surface of the vacuum insulator and parallel to the second surface and the first surface, and a first stepped surface connected to the third surface and connected to the third surface of the vacuum insulator. It has a shape corresponding to the first recessed surface parallel to the surface, and a first stepped piece bent and formed on the first side piece to face the first stepped surface, and the first end facing the first recessed surface. Including a first recessed piece formed by bending the car piece;
The third surface connected to one edge of the second surface of the vacuum insulator facing the installation target surface is formed inclined with respect to the installation target surface, and the fourth surface connected to the other edge of the second surface of the vacuum insulator is It is formed to be inclined with respect to the surface to be installed and has a shape corresponding to that parallel to the third surface, and with respect to the distal end of the first bracket supporting the inner piece of the second housing, starting from the first side A first engaging rib protruding or recessed along a connection portion of one edge of a first side piece connected to the front end portion of the first bracket,
The second engagement means,
A second stepped surface that is formed stepwise along the connection portion of the first surface connected to the fourth surface of the vacuum insulator and is parallel to the first surface and the second surface, and is connected to the second stepped surface and is connected to the first surface. It has a shape corresponding to the second recessed surface parallel to the four surfaces, and a second stepped piece formed by bending the second side piece to face the second stepped surface, and facing the second recessed surface. It includes a second concave surface formed by bending the stepped piece,
a second engaging rib formed by being depressed or protruding along a connection between the other edge of the inner piece supported by the first bracket of the third housing and the edge of the second side piece;
The first side piece having the first engagement rib and the second side piece having the second engagement rib are parallel and at the same time formed inclined with respect to the installation target surface. Vacuum insulation assembly.

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