JPH0235119Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Field of Application] This invention relates to a bag for vacuum insulation boards used for manufacturing vacuum insulation boards.

[Conventional technology]

BACKGROUND ART Vacuum insulation boards have been known in the past, in which powder such as perlite powder is filled in an air-impermeable bag and the inside of the bag is evacuated (for example, Japanese Patent Laid-Open No. 58-50394).

The non-breathable vacuum insulation board bag used to manufacture this vacuum insulation board is made by laminating two laminate films made by laminating a plastic film such as polyethylene, polypropylene, or polyethylene terephthalate and a metal foil such as aluminum foil. Those whose peripheral edges are heat-sealed to each other are used.

Figure 6 shows a vacuum insulation board obtained using a vacuum insulation board bag made of such a plastic-metal foil laminate film. A bag for insulation board is shown. This vacuum insulation board bag 2 is made of a plastic-metal foil laminate film (hereinafter abbreviated as laminate film) 6, which is made by laminating an aluminum foil 5 with a thickness of about 10 μm between two plastic films 3 and 4. The peripheral edge A of the vacuum insulation board bag 2 is made up of a fused portion where the films 6, 6 are fused together.

As is clear from FIG. 6, at the peripheral edge A of the vacuum insulation board bag 2, the aluminum foils 5, 5 of the respective laminate films 6, 6 are spaced apart from each other at intervals corresponding to the thickness of the plastic films 3, 4. They have a predetermined width all the way around and face each other. For this reason, the above interval is usually 0.1~
This peripheral area A is extremely small at 0.2 mm, and the aluminum foils 5 and 5 are close to each other.
In this case, the conduction of heat from one laminate film 6 to the aluminum foil 5 cannot be ignored. In addition, when the peripheral edge part A is fused, the plastic films 3, 3, 4, 4 are pressurized in a molten state, so the wall thickness of this part is reduced, and the two aluminum foils 5, 5 are The spacing will be smaller, which will also further increase heat transfer.

For this reason, the amount of heat flowing through the frame portion B of the vacuum insulation board increases and may exceed the amount of heat flowing through the surface portion C of the vacuum insulation board.

[The problem that the idea attempts to solve]

Therefore, an object of this invention is to provide a bag for a vacuum insulation board that can obtain a vacuum insulation board with a small amount of heat transfer in the frame portion of the vacuum insulation board.

[Means to solve the problem]

This problem was solved by using two laminate films, each consisting of a rectangular plastic film and a metal foil laminated except for the edges of one set of opposing sides.
Laminate the sheets so that the edges of one set of sides on which metal foil is not present on one laminate film and the edges on one set of sides on which metal foil is present on the other laminate film overlap each other, and the peripheral edges are Solved by fused together.

[Effect]

In the vacuum insulation board obtained using this vacuum insulation board bag, in the fused portion of the peripheral edges of two laminate films, there is metal foil on one laminate film side, but there is metal foil on the other laminate film side. There will be no metal foil. Therefore, there is almost no heat conduction in the fused portion, and the amount of heat flowing through the forehead is extremely small.

〔Example〕

1 to 3 show a laminate film constituting the bag for vacuum insulation board of this invention.

This laminate film 11 has a rectangular shape, and is made by laminating a polyethylene film 12, an aluminum foil 13 with a thickness of about 10 μm, and a polyethylene terephthalate film 14. and,
Here, the aluminum foil 13 covers the edges of one pair of sides 15a, 15b of the two pairs of opposing sides 15a, 15b and 16a, 16b of the laminate film 11, as shown by the broken line in FIG. It is provided on all sides except for This aluminum foil 13
The width of the excluded portion is set to be slightly wider than the width of the peripheral portion to be fused. Aluminum foil 13
For lamination, a normal dry laminating method, wet laminating method, fusion bonding method, etc. are used.

Such a laminate film 11 is
The sheets are arranged in a positional relationship as shown in FIG. 4, overlapped, and their three peripheral edges are fused to form a bag-like bag for a vacuum insulation board. That is, the edges of one set of sides 15a, 15b where the aluminum foil 13 of one laminate film 11 is not present, and one set of sides 16a, 16b where the aluminum foil 13 of the other laminate film 11 is present.
are overlapped so that their edges overlap each other. Further, it is preferable to stack the laminate films 11, 11 so that the polyethylene films 12 of each film are on the inside, since this facilitates fusing.

A method of making a vacuum insulation board using such a vacuum insulation board bag 17 is to fill powder such as perlite powder into the vacuum insulation board bag 17 from one unfused side and form it into a plate shape. There is a method such as evacuating the inside to a vacuum and then fusing one unfused side.

Figure 5 shows vacuum insulation board 1 obtained in this way.
8, in which reference numeral 19 indicates a powder such as pearlite powder, A indicates a fused peripheral portion, B indicates a forehead portion, and C indicates a surface portion. As is clear from FIG. 5, in this vacuum heat insulating board 18, the aluminum foil 13 is present in all parts of the peripheral part A, the frame part B, and the surface part C in the part of one laminate film 11, and The aluminum foil 13 is present in all parts of the film 11 except for the peripheral edge A. Therefore, in the peripheral edge A, the aluminum foil 13 exists only on one side of the laminate film 11, so that the heat conduction by the aluminum foil 13 in the peripheral edge A disappears, and the heat conduction in this part is reduced. There is almost no heat flow in the forehead area B, and the flow of heat is extremely weak. In addition, gas permeation is
Aluminum foil 13 is present on all of the surface part C and most of the forehead part B, and the only part where aluminum foil 13 is not present is the peripheral part A, which is unrelated to gas permeation. The result is comparable to that using a laminated film made by laminating foils.

In addition, regarding the vacuum insulation board bag of this invention,
The invention is not limited to the above-mentioned examples, and instead of aluminum foil, other metal foils such as copper foil, stainless steel foil, etc. can be used. Further, the lamination position of the aluminum foil 13 of the laminate film 11 is not limited to the above-mentioned example, and may be laminated on the outside of the plastic film. Further, as the plastic film constituting the laminate film 11, a plastic film whose entire surface is coated with a metal vapor-deposited film such as an aluminum vapor-deposited film can also be used. Furthermore, various other plastic films such as polyvinyl chloride film, polyvinyl alcohol film, nylon film, polyvinylidene chloride film, etc. can be used as the plastic film, and a laminate film is formed by laminating a plurality of these films in combination. It can also be used.

[Effect of idea]

As explained above, according to the vacuum insulation board bag of this invention, the amount of heat flowing along the forehead of the vacuum insulation board is extremely small, and a vacuum insulation board with excellent insulation performance can be obtained.

In addition, in manufacturing this bag for vacuum insulation boards, the same long laminate film is manufactured, cut to the desired length, and simply stacked so that the longitudinal direction is orthogonal to each other. Since a method of fusion bonding can be adopted, manufacturing is easy and manufacturing costs can be reduced.

[Brief explanation of drawings]

1 to 3 show examples of the laminate film constituting the bag for vacuum insulation board of this invention, in which FIG. 1 is a schematic plan view, FIG. 2 is a sectional view taken along the line -- in FIG. Fig. 3 is a sectional view taken along the line - - in Fig. 1, Fig. 4 is a perspective view showing how two laminated films are stacked, and Fig. 5 is a vacuum obtained using the bag for vacuum insulation board of this invention. FIG. 6 is a schematic sectional view showing a vacuum insulation board obtained using a conventional vacuum insulation board bag. 11... Laminate film, 12... Polyethylene film, 13... Aluminum foil, 14
...Polyethylene terephthalate film, 15
a, 15b, 16a, 16b...side, 17...bag for vacuum insulation board.

Claims (1)

[Scope of utility model registration request] Two laminate films made of rectangular plastic films with metal foil laminated on them except for the edges of one set of opposite sides, and the edge of one set of sides where the metal foil is not present on one of the laminate films. 1. A bag for a vacuum insulation board, characterized in that the two laminate films and the edges of one set of sides where the metal foil of the other laminate film is present are overlapped so as to overlap each other, and the peripheral edges are fused to each other.