KR20170004836A - Assembly for mounting vacuum insulator - Google Patents

Abstract

The present invention relates to an assembly for installing a vacuum insulator, installing a vacuum insulator to an outer wall or a ceiling of a building. The assembly for installing a vacuum insulator comprises a vacuum insulator installation bracket supporting each end part of two vacuum insulators adjacent to each other. The vacuum insulator installation bracket comprises: a first plate; a second plate positioned in parallel to the first plate; and a connection plate connecting the first plate and the second plate to form a first insertion space and a second insertion space.

Description

{ASSEMBLY FOR MOUNTING VACUUM INSULATOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum insulation material assembly capable of fixing a vacuum insulation material to an outer wall or ceiling of a building during dry bit construction.

Generally, a dry bit is a typical external insulation method meaning that it is dried quickly, and the outer wall of the building is completed mainly by reinforced concrete or masonry (ie, brick-piling), and then, . That is, the dry bit is an external insulation system consisting of insulation, adhesive mortar, glass mesh fiber and finish.

In actual construction sites, the dry bit insulation system may not be used as a whole, but only a finishing material may be applied without a heat insulating layer for simple aesthetics of a concrete wall or a wall surface. However, the conventional dry bit construction includes the installation of a heat insulating material constituting a heat insulating layer. First, a heat insulating material such as styrofoam is attached to the wall surface and an acrylic type adhesive mortar is applied to secure the adhering force of the heat insulating material. Thereafter, the glass fiber web having high tensile strength is attached for the purpose of crack prevention and impact reinforcement, and the acrylic resin-based final finishing material is formed into a coating film having various patterns and textures by using trowel, spray gun, roller, brush etc. . The dry-wall outer wall insulation system thus formed has an advantage of being excellent in heat insulation effect, improving indoor thermal efficiency, being easy to construct with a lightweight material, being economical, and exhibiting various colors and textures. However, the conventional dry bit insulation system uses a material which is vulnerable to fire such as styrofoam as a heat insulating material, leading to a large fire.

On the other hand, the vacuum insulation material is a high-performance insulation material using a low thermal conductivity property of vacuum, and recently it has been applied to a building which is expanded or contracted instead of conventional insulation materials such as styrofoam. The vacuum insulator is made of a rectangular panel having a predetermined thickness and has a very low thermal conductivity after inserting a core material serving as a spacer into a jacket material and then decompressing and sealing the inside thereof. At this time, an organic core material such as polyurethane foam or an inorganic core material such as glass fiber and silica may be used as the core material, and a general insulation material such as conventional styrofoam exhibits an insulation performance of 0.031 to 0.040 (W / mK) , And the vacuum insulation material exhibits an excellent heat insulating performance of 0.002 to 0.015 (W / mK). In addition, unlike conventional insulation materials such as styrofoam, which is vulnerable to fire, vacuum insulation materials have excellent fire resistance as quasi-nonflammable materials, so that damage caused by fire can be minimized. However, due to the breakage of the vacuum insulation material, if the air is introduced into the inside of the vacuum insulation material, the insulation performance of the vacuum insulation material can not be significantly deteriorated.

Accordingly, there is a great demand in the building industry for a dry bit process capable of exhibiting excellent fire resistance and heat insulation performance, but the development of such a process has not been developed yet.

Patent Registration No. 10-1369574 Japanese Patent Application Laid-Open No. 10-1213646 Patent Registration No. 10-1501810 Japanese Patent Application Laid-Open No. 10-2014-0059533

It is an object of the present invention to provide a vacuum insulation material capable of installing a vacuum insulation material having excellent fire resistance and heat insulation performance on an outer wall or a ceiling of a building for dry- Assembly.

The vacuum insulation panel mounting assembly according to the present invention is a vacuum insulation panel mounting assembly for installing a vacuum insulation panel on an outer wall or a ceiling of a building. The vacuum insulation panel mounting assembly includes a vacuum insulation panel mounting bracket for supporting one end of two adjacent vacuum insulation panels Wherein the vacuum insulator mounting bracket comprises: a first plate; A second plate parallel to the first plate; And a connection plate connecting the first plate and the second plate to form a first fitting space and a second fitting space.

A vacuum insulation panel mounting assembly for installing a vacuum insulation panel on an outer wall or a ceiling of a building, the vacuum insulation panel mounting assembly including a vacuum insulation panel Wherein the vacuum insulator mounting bracket comprises: a first plate; A second plate parallel to the first plate; A pair of first leg plates extending parallel to each other in a direction perpendicular to the surface of the first plate facing the second plate; A pair of second leg plates extending parallel to each other in a direction perpendicular to the surface of the second plate facing the first plate; A pair of first leg plates and a pair of second leg plates for separating the first plate and the second plate from each other to block heat transfer from the first plate to the second plate A heat insulating block may be provided.

Wherein a pair of first leg plates are formed at each end of the pair of first leg plates so as to form first latching protrusions each of which protrudes in a direction in which the pair of first leg plates face each other, And a second latching protrusion protruding in a direction in which the pair of second leg plates face each other.

The vacuum insulation panel mounting assembly further includes a vacuum insulation panel mounting corner member for supporting a corner side end portion of the vacuum insulation panel, wherein the vacuum insulation panel mounting corner member comprises: a base plate; A first cantilever plate extending in a vertical direction from one end of the base plate; And a second cantilever plate spaced from the first cantilever plate and extending from the base plate in a direction parallel to the first cantilever plate.

The second cantilever plate may further include a fastening portion that extends further in the extending direction of the second cantilever plate.

According to the vacuum insulator installation assembly of the present invention, the vacuum insulator can be easily installed on the outer wall and / or the ceiling of the building without breakage, and the dry bit construction can be performed more easily.

1 is a perspective view of a vacuum insulator mounting bracket according to an embodiment of the present invention;
Fig. 2 is a perspective view showing a state that the heat insulating cover is attached to the vacuum insulator mounting bracket shown in Fig. 1,
3 is a perspective view illustrating a vacuum insulator mounting bracket according to another embodiment of the present invention.
4 is a perspective view illustrating a vacuum insulation panel mounting corner member according to the present invention;
5 is a view showing a state in which the vacuum insulator mounting bracket and the corner member of the present invention are fixedly attached to the outer wall surface of the building,
6 is a view showing a state in which a vacuum insulation material is installed using the vacuum insulation material installation assembly of the present invention,
7 is a cross-sectional view illustrating a state in which a vacuum insulator is installed using the vacuum insulator installation assembly of the present invention,
8 is a longitudinal sectional view showing a state in which a vacuum insulation panel is installed using the vacuum insulation panel installation assembly of the present invention,
9 is a cross-sectional view illustrating a state in which a vacuum insulator mounting bracket according to the present invention is installed on a ceiling slab of a building, and Fig.
FIG. 10 is a process diagram for explaining a method of performing a dry-bit construction using a vacuum thermal insulator installation assembly according to the present invention.

The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. When a part is referred to as being "connected" to another part throughout the specification, it includes not only the case directly connected but also the case where the other parts are connected with each other in between. And when a component is referred to as "comprising" or "comprising ", it is to be understood that the component may include or exclude other components,

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view illustrating a vacuum insulator mounting bracket according to an embodiment of the present invention.

Referring to FIG. 1, a vacuum insulator mounting bracket 20 according to an embodiment of the present invention includes a first plate 21 and a second plate 21, which is opposed to the first plate 21, And a connecting plate 23 connecting the first plate 21 and the second plate 22 to each other.

The first plate 21 is a component fixedly attached to the outer wall surface of the building and supports the vacuum insulator 60 and the outer surface of the building while supporting the first surface (i.e., the surface adjacent to the outer wall side) As shown in FIG. Such a gap can prevent the vacuum insulation material 60 from being directly in contact with the outer wall of the building, thereby preventing the vacuum insulation material 60 from being damaged in the process of installing the vacuum insulation material 60, thereby causing a vacuum cracking phenomenon.

The second plate 22 is a component that supports the second surface (i.e., the surface adjacent to the finish material side) of the vacuum insulation material 60 and is parallel to the first plate 21 and extends from the first plate 21 (Distance corresponding to the thickness of the vacuum insulation).

The connecting plate 23 is a component connecting the first and second plates 21 and 22. Therefore, the vacuum insulator mounting bracket 20 is divided into two spaces 24 and 25 having a substantially 'circular' cross-section. Specifically, the vacuum insulator mounting bracket 20 includes a first fitting space (not shown) supporting one end of the optional vacuum insulator 60 24 and a second fitting space 25 for supporting one end of another adjacent vacuum insulator 60 are partitioned by a connecting plate 23, respectively.

FIG. 2 is a view showing a state in which a heat insulating cover is attached to the vacuum heat insulating material mounting bracket shown in FIG. 1. FIG. Referring to FIG. 1, the heat insulating cover IC is a component attached to surround the first plate 21 of the vacuum insulation panel mounting bracket 20, and the material thereof is made of thermoplastic elastomer (TPE). Such a heat insulating cover (IC) can mostly block the heat transfer from the vacuum insulator mounting bracket 20 to the interior of the building. Therefore, when the vacuum heat insulating material is installed using the vacuum heat insulating material mounting bracket 20, the heat insulating performance can be further improved.

3 is a perspective view illustrating a vacuum insulator mounting bracket according to another embodiment of the present invention.

3, the vacuum insulator mounting bracket 20 is arranged side by side in the vertical direction from the surface of the first plate 21 and the first plate 21 facing the second plate 22 A pair of first leg plates 26 extending in parallel to each other and extending in parallel in a direction perpendicular to the surface of the second plate 22 facing the first plate 21, And the first plate 21 and the second plate 22 are positioned between the pair of first leg plates 26 and the pair of second leg plates 27 so that the first plate 21 and the second plate 22 And a heat insulating block 30 spaced from the heat insulating block 30.

At this time, first end portions of the pair of first leg plates 16 are formed with first latching projections 28 projecting in opposite directions, that is, inwardly, and a pair of second leg plates 27 Are provided with second latching protrusions 29 projecting in the directions opposite to each other, that is, inwardly. Since the heat insulating block 30 is manufactured by injection molding a polyurethane resin liquid, the heat insulating block 30 is excellent in heat insulation and rigidity.

According to the vacuum insulator mounting bracket 20 according to another embodiment of the present invention, the first plate 21 and the second plate 22 are spatially separated by the heat insulating block 30 made of polyurethane resin, The heat transfer from the first plate 21 to the second plate 22 can be largely interrupted. Therefore, if the vacuum insulator 60 is installed using the vacuum insulator mounting bracket 20 according to another embodiment of the present invention, the heat insulating performance can be further improved.

Further, since the heat insulating block 30 made of polyurethane resin is excellent in rigidity and can be firmly fixed by the first and second latching projections 28 and 29, it is possible to stably support the vacuum heat insulating material .

4 is a perspective view of a corner member for installing a vacuum insulation material according to the present invention.

4, the vacuum insulator installation corner member 40 according to the present invention includes a base plate 41 and first and second cantilever plates 42 and 43 extending in a direction perpendicular to the base plate 41 ).

Therefore, the vacuum insulator mounting corner member 40 has a substantially 'F' cross section. The first cantilever plate 42 extends in a vertical direction from one end of the base plate 41 and the second cantilever plate 43 extends in parallel with the first cantilever plate 42 And is spaced from the first cantilever plate 42 by a distance corresponding to the thickness of the vacuum insulator. At this time, the second cantilever plate 43 may have a fastening portion 44 extending further in the direction perpendicular to the base plate 43. One end of the vacuum insulator is fitted and supported in the fitting space 45 between the first cantilever plate 42 and the first cantilever plate 43 and one end of the other vacuum insulator is supported by the base plate 41 Can be supported by the right-angled side surface of the second cantilever plate (43).

FIG. 5 is a view showing a state where the vacuum insulator mounting bracket and the corner member of the present invention are fixedly attached to an outer wall of a building, FIG. 6 is a view showing a state where a vacuum insulator is installed using the vacuum insulator installation assembly of the present invention And FIG. 7 is a transverse cross-sectional view illustrating a state in which a vacuum thermal insulator is installed using the vacuum thermal insulator installation assembly of the present invention, and FIG. 8 is a longitudinal sectional view illustrating a state in which a vacuum thermal insulator is installed using the vacuum thermal insulator installation assembly of the present invention.

5 to 8, a standardized mass-product vacuum insulator (i.e., a vacuum degree, a material, a thickness, a width, a length, etc.) is formed on the outer wall of a building by using the vacuum insulation- A vacuum insulation material mass produced in accordance with the predetermined standard) will be described in detail.

As shown in Fig. 5, the vacuum insulator mounting corner members 40 are fixedly attached at equal intervals to each other at four corners of the building in the vertical direction. Specifically, the vacuum insulator mounting corner member 40 is fixedly attached by placing the fastening portion 44 of the second cantilever plate 43 at the outer corner portion of the building and then fastening it with a fastening member such as a nail or a bolt .

5, the vacuum insulator mounting bracket 20 is fixedly attached to the outer wall surface of the building so that the vacuum insulator mounting bracket 20 is located at the edge of the standardized vacuum insulator 60. Specifically, It can be fixedly attached by placing it on the outer wall surface and fastening it by using a fastening member such as a nail or a bolt. In this case, it is a matter of course that the fixing attachment position of the vacuum insulator mounting bracket 20 and the corner member 40 according to the present invention can be performed by a general method using an ink strip or the like.

6 and 7, the vacuum insulator 60 can be installed on the outer wall surface of the building by the vacuum insulator mounting bracket 20 and the corner member 40. [ Specifically, the vacuum heat insulating material 60 positioned at the outer corner of the building can be supported by fitting the corner side end of the vacuum insulating material 60 into the fitting space 45 of the vacuum insulating material installing corner member 40, And the other end thereof can be fitted and supported in any one of the first and second fitting spaces 25 and 26 of the vacuum insulator mounting bracket 20.

Therefore, according to the vacuum thermal insulation installation assembly 10 of the present invention, the corner-side end portion of the vacuum insulation material located at the outer corner portion of the building among the plurality of vacuum insulation materials is fitted by the vacuum insulation- At least one end portion of the other vacuum heat insulating material can be easily fitted to the outside wall of the building without damaging a plurality of vacuum heat insulating materials by fitting the vacuum insulating material using the vacuum heat insulating material mounting bracket 20.

9 is a cross-sectional view illustrating a state in which a vacuum insulator mounting bracket according to the present invention is installed on a ceiling slab of a building. The vacuum insulator mounting bracket 20 according to the present invention may be used to install a vacuum insulator on the ceiling of a building, as shown in Fig.

9, the vacuum insulator mounting bracket 20 can be fixedly attached to the ceiling slab of the building by fastening the first plate 21 using a fastening member such as a nail or a bolt, and then, And the second fitting spaces 24 and 25 so that the vacuum insulating material can be installed on the ceiling slab of the building. As described above, the vacuum insulator mounting bracket 20 according to the present invention can be used not only for the outer wall of the building but also for installing the vacuum insulator on the ceiling of the building.

Now, a dry bit applying method using a vacuum insulator mounting assembly will be described with reference to a process drawing for the dry bit construction shown in FIG.

The dry bit construction method according to the present invention includes the steps of: (S100) indicating the installation position of the vacuum insulation panel mounting bracket and the corner member; fixing the vacuum insulation panel mounting bracket and the corner member (S200); installing the vacuum insulation panel (S300), and a dry bit finishing step (S400).

Step S100 of indicating the installation position of the vacuum insulation panel mounting bracket and the corner member refers to a step of displaying installation positions of the vacuum insulation panel mounting bracket 20 and the corner member 40 in consideration of the size of the vacuum insulation panel. The display of the position can be performed by a general method using an ultrasonic wave or the like. Specifically, the vacuum insulator mounting bracket 20 is positioned on the outer wall of the building so as to support one end of the two neighboring vacuum insulators, and the vacuum insulator mounting corner member 40 supports the corner side end of the vacuum insulator And positioned at the outer corner of the building.

In the step S200 of fixing the vacuum insulation panel bracket and the corner member, the vacuum insulation panel mounting bracket 20 is fixed to the outer wall surface of the building and the vacuum insulation panel mounting corner member 40 is fixed to the outer corner portion of the building Step. Specifically, the vacuum insulator mounting bracket 20 can be fixedly attached by positioning the first plate 21 on the positioned outer wall surface and then fastening the same using a fastening member such as a nail or a bolt, and the vacuum insulator mounting bracket 20 40 may be fixedly attached by positioning the fastening portion 44 of the second cantilever plate 43 at the positioned outer corner portion and fastening the fastening portion 44 using a fastening member such as a nail or a bolt.

In the step S300 of installing the vacuum insulation material, a plurality of vacuum insulation materials 60 are installed on the outer wall of the building using the vacuum insulation material installation assembly 10. Specifically, The heat insulating material is provided so that the corner side end portion of the vacuum insulating material 60 is fitted in the fitting space 45 of the vacuum insulating material installing corner member 40 and the ends of the two neighboring vacuum insulating materials 60 are fixed to the vacuum insulating material mounting bracket 20, And the first and second fitting spaces 24 and 25 of the first and second fitting spaces 24 and 25. As a result, the plurality of vacuum heat insulating materials can be installed on the outer wall of the building without breakage.

The dry bit finishing step (S400) includes an adhesive mortar topcoat step, a mesh netting step, an entire adhesive mortar application step, and a dry bit finish application step.

The adhesive mortar local application step refers to a step of locally applying the mortar mortar so as to individually cover the second plate 22 and the first cantilever plate 42 exposed to the outside after installing the vacuum insulation material.

The step of attaching the mesh net means attaching the mesh net to the adhesive mortar locally attached to the second plate 22 and the first cantilever plate 42. At this time, the mesh net is attached for the purpose of preventing cracking and impact reinforcement, and glass fiber net having excellent tensile strength is mainly employed.

The entire application step of the adhesive mortar refers to a step of evenly applying the adhesive mortar as a whole. At this time, the entire application step of the adhesive mortar must be performed after the locally applied adhesive mortar has been completely dried. If the adhesive mortar topcoat step is omitted or the topcoat applied mortar is completely dried before the entire application of the adhesive mortar is performed, the exposed plate 22, 42 portions will protrude outwardly so that the overall external aesthetics of the building It is harmful. Thus, the entire application of the adhesive mortar should be performed after the locally applied adhesive mortar has been completely dried.

The dry bit finish applying step is a step of applying a final finishing material by using a trowel, a spray gun, a roller and a brush, etc., and various colors and patterns can be implemented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and similarities. Therefore, the scope of the present invention should not be limited by the above-described embodiments, but should be determined by the claims equivalent to the claims of the present invention as well as the claims of the following.

10: Vacuum insulation installation assembly
20: Vacuum insulation installation bracket
40: Corner member for installing vacuum insulator

Claims (6)

A vacuum insulation installation assembly for installing vacuum insulation on an outer wall or ceiling of a building,
Wherein the vacuum insulator installation assembly includes a vacuum insulator mounting bracket for supporting one end of two adjacent vacuum insulators,
The vacuum insulator mounting bracket includes: a first plate; A second plate facing the first plate; And a connection plate connecting the first plate and the second plate to form a first fitting space and a second fitting space
Vacuum insulation installation assembly.
A vacuum insulation installation assembly for installing vacuum insulation on an outer wall or ceiling of a building,
Wherein the vacuum insulator installation assembly includes a vacuum insulator mounting bracket for supporting one end of two adjacent vacuum insulators,
The vacuum insulator mounting bracket includes: a first plate; A second plate facing the first plate; A pair of first leg plates extending in a direction perpendicular to the surface of the first plate facing the second plate; A pair of second leg plates extending in a direction perpendicular to the surface of the second plate facing the first plate; A pair of first leg plates and a pair of second leg plates for separating the first plate and the second plate from each other to thereby block heat transfer from the first plate to the second plate, Having a block
Vacuum insulation installation assembly.
3. The method of claim 2,
Wherein each of the pair of first leg plates has a first latching protrusion protruded in a direction in which the pair of first leg plates face each other,
And a second latching protrusion protruding in a direction in which the pair of second leg plates face each other is formed at each end of the pair of second leg plates
Vacuum insulation installation assembly.
3. The method according to claim 1 or 2,
The vacuum insulation panel mounting bracket may further include a heat insulating cover installed to surround the first plate to block heat transfer from the vacuum insulation panel mounting bracket to the building
Vacuum insulation installation assembly. 4. The method according to any one of claims 1 to 3,
Wherein the vacuum insulator installation assembly further comprises a vacuum insulator installation corner member for supporting a corner side end portion of the vacuum insulator,
The vacuum insulator mounting corner member comprises: a base plate; A first cantilever plate extending in a vertical direction from one end of the base plate; And a second cantilever plate spaced from the first cantilever plate and extending from the base plate in a direction parallel to the first cantilever plate
Vacuum insulation installation assembly.
5. The method of claim 4,
The second cantilever plate further includes a fastening portion that extends further in the extending direction of the second cantilever plate
Vacuum insulation installation assembly.

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