KR20160059785A - Fixing Device for Vacuum Insulation Panel - Google Patents

Abstract

The present invention relates to a device for fixating a vacuum insulation panel, which enables the vacuum insulation panel to be simply and firmly fixated in a building structure such as a ceiling slab, a wall, etc. without using nails or the like not to damage the vacuum of the vacuum insulation panel. The present invention comprises: an inner fixation member (100) provided with a fixation plate (110) formed of a longitudinal member to be attached to the building structure and a connection plate (120) formed on the central part of the outer surface of the fixation plate (110) in a longitudinal direction; and an outer fixation member (200) including a support plate (210) spaced from the fixation plate (110) and forming a fixation space (G) to allow the insertion of the vacuum insulation panels (10) in both sides, respectively and a fixation part (220) formed on the central part of the inner side of the support plate (210) and provided with a fixation recess (221) into which the connection plate (120) is inserted.

Description

Fixing Device for Vacuum Insulation Panel

The present invention relates to a vacuum insulator fixing member, and more particularly, to a vacuum insulator fixing member which can be easily and firmly fixed to a building structure such as a ceiling slab or a wall without using a nail or the like so as not to damage the vacuum of the vacuum insulator. To a fixing member.

The general insulation is 0.031 ~ 0.040W / mK insulation whereas the vacuum insulation is high insulation performance of 0.002 ~ 0.015 W / mK (0.0045W / mK or less, about 8 times of general insulation). The insulation performance of vacuum insulation exhibits its function in maintaining the degree of vacuum, and the performance of the vacuum insulation decreases considerably due to cutting, breakage, and careless transportation at the construction site.

Despite the high thermal insulation properties of such vacuum insulation materials, they have not been widely used up to now due to high material costs, storage problems, handling and construction problems, and difficult manufacturing techniques. With recent advances in manufacturing technology, we are making efforts to commercialize them in countries such as Germany, the UK, Japan, the United States, Canada, Korea, and China, but high material costs are still a burden.

Conventional methods of applying general insulating materials to the walls are to adhere to the walls with adhesives, or to maintain the gaps between the vacuum insulation and the walls to be nailed. However, thermal bridges can be used without using adhesives In order to minimize the size of the vacuum insulation, it is common to install an anchor bolt on a vacuum insulation joint, then attach the bracket to an anchor bolt, assemble it immediately and fix the final finish with a screw. There is a problem that it must be used, and in the latter case, there is a problem that it takes much time and cost in manufacturing and construction and is not environmentally friendly.

On the other hand, efforts to reduce carbon emissions have been actively carried out in various countries around the world in order to preserve the environment of the earth, and various measures for reducing energy related to reduction of carbon emissions have been studied in Korea. These energy saving measures have been studied in various fields. In the construction field, various energy saving houses or buildings such as green energy, zero energy house, and passive house are planned in accordance with the government policy.

There are various ways to save energy in a house or a building, but a direction consistent with the present invention is to reduce the energy by making it possible to effectively install a high efficiency insulation material.

Vacuum insulation has the most excellent insulation effect among the heat insulation materials developed so far, but it has been very difficult to process, cut, etc. after it has been processed to a certain standard in the factory. In addition, the surface of the vacuum insulation material has a very limited adhesive for adhering to other materials due to the specificity of the skin material, and when the skin is damaged, the vacuum structure inside the vacuum insulation material is instantly destroyed, I have encountered considerable difficulties.

In order to overcome these limitations and to more positively use the vacuum insulation material in the construction site, Korean Patent No. 10-1280465 and Japanese Patent Application Laid-Open No. 10-2013-0096361 disclose that a vacuum insulation material is attached to a structure of a building And the like.

However, since the vacuum insulation is fixed by attaching it to the square corner of the vacuum insulation, there is a problem that the vacuum insulation can not be structurally fixed. Particularly, since the structure is complicated, assembly is not easy and many parts are used Resulting in deterioration in workability and cost.

Patent Document 1: Registration No. 10-1280465 (Feb. Patent Document 2: Published Patent No. 10-2013-0096361 (2013.08.30)

It is an object of the present invention to overcome the above-described drawbacks of the prior art, and it is an object of the present invention to provide a vacuum insulator which can be easily and firmly secured to a building structure such as a ceiling slab or a wall The vacuum insulator fixing member can be fixed to the vacuum insulator fixing member.

Another object of the present invention is to provide a vacuum insulator fixing member that can be easily assembled with a simple structure to improve workability and economical cost.

Another object of the present invention is to provide a vacuum insulator fixing member that can be easily installed in a vacuum insulator excellent in heat insulation, thereby greatly reducing energy as a vacuum insulator.

In order to achieve the above object, according to the present invention, there is provided an internal fixing member comprising an inner fixing member and an outer fixing member made of a long material, wherein the inner fixing member has a fixing plate attached to an architectural structure, And a fixing space is formed in the outer fixing member so as to be spaced apart from the fixing plate so that the vacuum insulation members are inserted between both sides of the fixing plate and the supporting plate, and a fixing groove is formed at the center of the inner surface of the supporting plate so as to fit the coupling plate. It has formed a stable government.

Further, in the present invention, both sides of the connecting plate and both sides of the inner surface of the fixing groove are formed with multistage scratches for preventing separation in the longitudinal direction.

Further, in the present invention, the connecting plate forms a long hole to which the wire is connected at an appropriate interval, and the outer fixing member is coupled to both sides of the long hole.

Further, in the present invention, the inner fixing member and the outer fixing member are formed of metal.

Further, in the present invention, nail fastening holes are formed on both sides of the fixing plate at appropriate intervals.

According to the vacuum insulator fixing member of the present invention, the vacuum insulator can be made more simply and firmly by using the inner fixing member and the outer fixing member without using a nail or the like so as not to damage the vacuum of the vacuum insulator. So that it can be fixed to an architectural structure of a building.

Also, since the structure includes a simple structure including an inner fixing member and an outer fixing member, it is easy to assemble, so that the workability can be structurally improved and the cost can be greatly reduced.

In addition, since a vacuum insulation material having an excellent heat insulating property can be conveniently installed, vacuum insulation material can be easily applied to ceiling slabs and walls of various architectural structures, thereby greatly reducing energy consumption.

1 is a perspective view showing a combined state of the present invention.
2 is an exploded perspective view of the present invention.
3 is a cross-sectional view showing a coupled state of the present invention.
4 is a perspective view showing a bottom surface of an inner fixing member according to the present invention.
5 is an exploded perspective view showing another embodiment of the present invention.
6A is a sectional view showing a state in which the present invention is installed on a ceiling slab.
FIG. 6B is a side view of FIG. 6A. FIG.
7 is a sectional view showing a state where the present invention is installed on a wall.
8 is a perspective view showing another embodiment of the inner fixing member according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the technical structure of the present invention will be described in detail with reference to the accompanying drawings.

1 to 8, a vacuum insulator fixing member according to the present invention includes a fixing plate 110 made of a long material so as to be attached to a building structure, and a connection member 110 formed in the center of the outer surface of the fixing plate 110 An inner fixing member (100) having a plate (120); A support plate 210 which is spaced apart from the fixing plate 110 and forms a fixing space G so that the vacuum insulation members 10 are fitted to both sides of the fixing plate 110; And an outer fixing member 200 including a fixing portion 220 having a fixing groove 221 to be fitted thereon.

The vacuum insulator fixing member of the present invention is fixed to a building structure such as the ceiling slab 1 or the wall 2 without using a nail or the like so as to prevent the vacuum of the vacuum insulator 10 from being damaged. The vacuum insulator fixing member is composed of an inner fixing member 100 and an outer fixing member 200. At this time, since the vacuum insulator fixing member of the present invention has a simple structure including the inner fixing member 100 and the outer fixing member 200 and is composed of two parts and is easy to assemble, the cost is saved economically And the workability can be improved at the same time.

The inner fixing member 100 is rigidly fixed to a building structure such as the ceiling slab 1 or the wall 2. The inner fixing member 100 includes a fixing plate 110 and a connecting plate 120.

The fixing plate 110 is made of a long material so as to be attached to the building structure. The fixing plate 110 is fixed to the ceiling slab 1 or the wall 2 by means of a concrete nail or an adhesive agent as shown in FIGS. 6A, And the like.

The connecting plate 120 is formed in a longitudinal direction at the center of the outer surface of the fixing plate 110. The fixing plate 220 is fixed to the connection plate 120 with a fixing groove 221 of the fixing portion 220 State. At this time, the fixing plate 110 and the connecting plate 120 are formed at right angles.

The outer fixing member 200 is connected to the inner fixing member 100 to fix the vacuum insulation member 10. The outer fixing member 200 includes a supporting plate 210 and a fixing portion 220.

The support plate 210 is spaced apart from the fixing plate 110 and forms a fixing space G so that the vacuum insulation members 10 are fitted to both sides of the support plate 210. The support plate 210 is formed to cover the outer surface of the vacuum insulation member 10 as a whole It plays a role of supporting firmly. 3, when the inner fixing member 100 and the outer fixing member 200 are connected to each other, the vacuum insulator 10 is fixed to both sides of the support plate 210 and the fixing plate 110 The vacuum insulator 10 can be simply and firmly fixed to the ceiling slab 1 or the wall 2 without using nails or the like so that the vacuum of the vacuum insulator 10 can be structurally damaged. And the like.

The fixing part 220 is formed at the center of the inner surface of the supporting plate 210. The fixing part 220 is formed with a fixing groove 221 to fit the connecting plate 120 therein. The fixing part 220 and the supporting plate 210 are formed at right angles and when the fixing groove 221 of the fixing part 220 is inserted into the connecting plate 120, the inner fixing member 100 and the outer fixing member 200 and the vacuum insulator 10 can be assembled easily and firmly at a time.

According to the present invention, as shown in FIG. 2, on both sides of the outer surface of the connection plate 120 and both sides of the inner surface of the fixing groove 221, scratches 121 and 222 for preventing mutual engagement in the longitudinal direction are formed in multiple stages . When the connection plate 120 and the fixing groove 2210 are engaged with each other, the connection plate 120 and the fixing groove 221 can be prevented from being separated from each other because the connecting plate 120 and the fixing groove 2210 are firmly coupled when the scratches 121 and 222 are engaged with each other. have.

According to the present invention, as shown in FIGS. 4 and 5, the connection plate 120 is formed with a long hole 122 to which the wire 20 is connected at an appropriate interval, and the outer fixing member 200 has a long hole 122 Respectively. 6A and 6B, the vacuum insulator 10 is fixed to the ceiling slab 1 by the upper and the outer fixing members 100 and 200. The upper inner fixing member 100 fixed to the slab 1 The upper ring 21 of the wire 20 is fixed to the elongated hole 122 of the wire 20 and the elongated hole 122 of the lower inner fixing member 100 is fixed to the lower ring 22 of the wire 20 in this state The lower outer fixing member 200 may be connected to the lower inner fixing member 100 fixed to the lower ring 22 of the wire 20 to fix the finishing material 30 or the like.

According to the present invention, the inner fixing member 100 and the outer fixing member 200 are made of metal. At this time, the inner fixing member 100 and the outer fixing member 200 are made of metal such as aluminum or stainless steel.

According to another embodiment of the present invention, as shown in FIG. 8, a nail fastening hole 111 is formed at both sides of the fixing plate 110 at appropriate intervals. At this time, the fixing plate 110 of the inner fixing member 100 can be easily fixed to the concrete structure with concrete nails by using the nail fastening holes 111.

The present invention constructed as described above is characterized in that the fixing plate 110 of the inner fixing member 100 is fixed to a building structure such as the ceiling slab 1 or the wall 2 and the inner fixing member 100 fixed to both sides of the inner fixing member 100 When the fixing part 220 of the outer fixing member 200 is inserted and inserted into the gap between the both sides of the vacuum insulator 10 in the state where the vacuum insulator 10 is disposed, The connecting plate 120 of the inner fixing member 100 is fitted into the fixing space G so that the vacuum insulators 10 on both sides are fitted into the fixing space G between the fixing plate 110 and the supporting plate 210 The vacuum insulator 10 can be easily installed on the building structure without using a nail or the like in order to prevent the vacuum of the vacuum insulator 10 from being damaged.

Accordingly, the present invention can provide a vacuum insulator (20) that is simpler and easier to use by using the inner fixing member (100) and the outer fixing member (200) without using a nail or the like so as not to damage the vacuum of the vacuum insulator There is an advantage that it can be firmly fixed to a building structure such as a ceiling slab 1 or a wall 2.

In addition, since the present invention has a simple structure including an inner fixing member 100 and an outer fixing member 200, it is easy to assemble, so that it is possible to improve workability structurally, .

Since the vacuum insulation panel 10 having a very excellent heat insulating property can be easily installed, the vacuum insulation panel 10 can be simply installed on the ceiling slab 1 and the wall 2 of various building structures, There is an advantage to be saved.

6A and 6B, the upper and lower fixing members 100 and 200 and the lower and inner fixing members 100 and 200 are fixed to the ceiling slab 1 by using the long hole 122 and the wire 20, The vacuum insulator 10 can be easily fixed to the upper and outer fixing members 100 and 200 and the lower and outer fixing members 100 and 200 can be easily fixed to the upper and lower fixing members 100 and 200. [ The finishing material 30 and the like can be easily fixed.

10: vacuum insulation material 20: wire
100: Inner fixing member 110: Fixing plate
111: Nail fastening hole 120: Connection plate
121: scratch 122: long hole
200: outer fixing member 210:
220: fixing part 221: fixing groove
222: Scratch G: Fixed space

Claims (5)

An inner fixing member 100 having a fixing plate 110 made of a long material to be attached to an architectural structure and a connecting plate 120 formed in a longitudinal direction at the center of the outer surface of the fixing plate 110;
A support plate 210 which is spaced apart from the fixing plate 110 and forms a fixing space G so that the vacuum insulation members 10 are fitted to both sides of the fixing plate 110; And an outer fixing member (200) comprising a fixing portion (220) having a fixing groove (221) to be fitted thereinto. The vacuum insulator according to claim 1, wherein scratches (121) (222) for preventing separation are formed on both sides of the outer surface of the connecting plate (120) and the inner surface of the fixing groove (221) Fixed member. The connector according to claim 1, wherein the connection plate (120) is formed with a long hole (122) through which the wire (20) is connected at an appropriate interval, and the outer fixing member (200) And the vacuum insulator fixing member. The vacuum insulator fixing member according to claim 1, wherein the inner fixing member (100) and the outer fixing member (200) are made of metal. The vacuum insulator fixing member according to claim 1, wherein a nail coupling hole (111) is formed at both sides of the fixing plate (110) at appropriate intervals.

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