KR101102332B1 - High Efficiency Multi-Layer Film for Heat Retaining - Google Patents

Abstract

The present invention relates to a heat insulating material, and more particularly to a multi-layer film that can be used for thermal insulation.

The multi-ply film of the present invention includes a gap plate made of a heat insulating material having a low thermal conductivity between a film commonly used for windproofing and thermal insulation, and forms a multi-ply film film.

The multi-ply film of the present invention is a multi-ply film sandwiched by a gap plate made of a heat insulating material, and a sealed air layer is formed between the film and the film, so that heat transfer does not occur well, and the gap plate is also made of a material having low thermal conductivity. Therefore, heat transfer due to conduction that occurs through the gap plate does not occur well, and thus excellent thermal insulation characteristics. In addition, the sealed air layer formed between the film acts as a good cushion air cushion, and absorbs the external impact caused by hail, etc., even if the external impact is not easily damaged.

Since the multi-layer film of the present invention can be produced in large quantities in a factory, the manufacturing cost is low, and it can be rolled and handled because of its flexibility, so it is easy to handle, store and use.

Insulation, Film, Multiple, Foam, Gap, Air Layer, Convection, Conduction, Heat Transfer

Description

High Efficiency Multi-Layer Film for Heat Retaining

The present invention relates to a heat insulating material, and more particularly to a multi-layer film that can be used for heat retention.

Transparent films such as vinyl are frequently used for thermal insulation and windbreak in plastic houses. In general, a single layer of PE film having a thickness of 0.05mm to 0.1mm is used in a vinyl house, and has excellent windproof function to block heat transfer by convection, and to pass solar heat through sunlight and visible light during the day. It is widely used because of its low price and low price.

However, the one-layer transparent film as described above has a low thickness and a low function of blocking heat transfer due to conduction, resulting in high heat loss at night or on a cloudy day without sunlight. In order to maintain the internal temperature of the plastic house at a constant temperature, heat must be applied to the boiler as much as the amount of heat transfer caused by conduction from the front surface of the vinyl. For this purpose, a large amount of fuel is consumed, and thus energy loss is high.

In addition, there is a problem that a single layer of film is easily broken by an external impact due to hail, strong wind, etc., and causes damage that cannot be recovered when the film is damaged in winter.

In order to solve the above problems, Korean Patent No. 10-0810118 (prefabricated double vinyl house) describes a double vinyl house adhered to the film on both sides of a certain thickness of the skeleton. However, such a double vinyl structure is expensive to build a skeleton, it is not easy to attach the vinyl on both sides. And when the aggregate is made of metal, the metal has a high thermal conductivity, there is a problem that can not prevent the heat loss initiated in the heat transfer by conduction through this aggregate.

In addition, Korean Patent Laid-Open No. 2003-0093606 (water film) describes a double film produced by bonding curved vinyl paper and flat vinyl paper, but there is no description on how to produce curved vinyl paper, and for general vinyl house If it is considered that such curved vinyl paper cannot be produced with the thin vinyl used, heat transfer by conduction of the film film cannot be prevented even with this production.

One-ply vinyl film used in a vinyl house is insufficient to prevent heat loss due to conduction as described above, and has a weak problem in external impact, so that both heat loss due to convection and conduction can be minimized. There is a need for a multi-layered film having a structure that can be easily produced in a large amount at low cost because it is not easily broken.

This invention is a multilayer film which solved the above technical subjects.

The multi-ply film of the present invention includes a gap plate made of a heat insulating material having a low thermal conductivity between the film and the film which is usually used for windbreaking to form a multi-ply film film.

The multi-ply film of the present invention is a multi-ply film sandwiched by a gap plate made of a heat insulating material, and a sealed air layer is formed between the film and the film, so that heat transfer does not occur well, and the gap plate is also made of a material having low thermal conductivity. Therefore, heat transfer due to conduction that occurs through the gap plate does not occur well, and the overall heat insulating property is excellent.

In addition, the sealed air layer formed between the film acts as a good cushion air cushion, and absorbs the external impact caused by hail, etc., even if the external impact is not easily damaged.

Since the multi-layer film of the present invention can be produced in large quantities in a factory, the manufacturing cost is low, and it can be rolled and handled because of its flexibility, so it is easy to handle, store and use.

When the vinyl house is installed using the multi-layer film of the present invention, since the vinyl house having the multi-layer film film can be installed in the same way as a normal film is placed on the normal vinyl house frame, the installation of the vinyl house is easy and easy to install. The cost is low.

As shown in Fig. 1, the multi-layer film of the present invention is composed of a gap plate 2 provided between the upper and lower two-layer film 1 and the two-layer film.

As the film 1, it is preferable to use a transparent film so that infrared rays of visible light and visible light pass well, and a transparent PE film having a thickness of 0.05 mm to 0.1 mm that is commonly used in a vinyl house can be used. When the multi-layered film of the present invention does not require light and is used for the purpose of pure windproof and warm insulation, an opaque film may be used as the film 1.

The gap plate 2 is manufactured by using a flexible and low thermal conductivity material. A narrow frame 21 is arranged at regular intervals and is formed in a plate shape to form a space 22 having a predetermined size between the skeletons. . The shape of the space 22 can be various shapes, such as a square and a rhombus. The thickness of the gap member is 5mm, 10mm, etc. as necessary.

Various materials may be used as the material of the gap plate 2, but it is preferable to use a synthetic resin foam obtained by foaming synthetic resin such as polyester and EVA at a high density. Such a synthetic resin foam has a myriad of small bubbles formed therein and stagnant air in these bubbles, so that the thermal conductivity is very low and flexible to meet the purpose of the present invention.

The gap plate 2 may be formed of a skeleton 21 pattern of various shapes such as a shape in which a pattern such as a rectangle, a triangle, a circle, and the like are continuously connected in addition to the rhombus as shown in FIG. 1. Such a gap plate 2 is formed by continuously foaming a synthetic resin using a mold having a skeleton patternon 21 formed thereon, and the synthetic resin foam molding technology of such a shape is widely used to manufacture various packaging materials and the like. .

If the gap between the skeleton 21 in the gap plate 2 is too narrow, there is a problem that the skeleton interferes with light, and if too wide, the strength of the film is weakened, so that the thickness of the skeleton 21 is taken into account in consideration of the thickness of the film used. Make sure the interval is appropriate. And the thickness of the gap plate is made thinner or thicker to change the height of the space 22, thereby changing the thickness of the air layer formed by the space 22 it is possible to control the warming effect.

When the adhesive is applied to the upper and lower surfaces of the gap plate 2 on which the skeleton 21 is formed as described above, the film 1 is adhered to and pressed on the upper and lower surfaces of the gap plate 2, and the double layer is attached to the upper and lower surfaces of the gap plate. The film is produced. If necessary, if the pressure plate is laminated by sequentially stacking the gap plate 2 and the film on the upper surface of the two-ply film, a multi-ply film can be manufactured.

Recently, a high frequency laminating method, which is an adhesive method using ultrasonic waves, has been developed as a method of bonding the film 1 and the film or other objects to the film. Using this high frequency laminating method, the multi-ply film of the present invention can be produced with high adhesive strength and in large quantities. Such mass-produced multi-ply film can be rolled into rolls for transport and storage.

The multi-ply film prepared as described above has a sealed air layer formed between the film 1 and the film, so that heat transfer does not occur well, and the gap plate 2 is also a material having low thermal conductivity. It does not happen well, and the overall insulation and heat insulation properties are excellent. In addition, the sealed air layer formed between the film 1 and the film acts as a good cushion air cushion, and absorbs external shocks due to hail, etc., so that the film is not easily damaged even when an external shock is applied.

The multi-ply film prepared as described above has a double plate structure in which an air layer is formed in the middle, and such double plate structure is very effective in blocking negative transmission due to high transmission loss. Therefore, the multilayer film of the present invention can be used as an acoustic material for the purpose of blocking the propagation of noise. When the multi-layered film is attached to a wall or ceiling of a building requiring quietness such as an apartment, a hotel, or an office building, the transmission loss of the wall or the ceiling as well as the insulation of the building is increased to block the transmission of the inter-room noise.

The multi-layered film of the present invention becomes a fire-safe material when using a flame-retardant material as the material of the film 1 and the gap plate 2 or when subjected to flame-retardant treatment.

The multi-layered film of the present invention can be used as a film for a vinyl house, and is used as a heat insulating and windproof material for various other uses.

The multi-layered film of the present invention can be used as a soundproofing material that prevents the transmission of sound in addition to the above-mentioned insulation.

1 is a block diagram of a multi-layered film for thermal insulation of the present invention.

※ Important Component Number

1: film, 2: gap plate, 21: skeleton, 22: space.

Claims (5)

Upper and lower layers of the film 1; And, made of a flexible foam produced by foaming a synthetic resin, the skeleton 21 of a predetermined width and thickness are continuously arranged at regular intervals, the space 22 of a predetermined size between the skeleton 21 is continuous A plate shape having a predetermined thickness, the gap plate being inserted between the two layers of films 1 and having an upper surface and a lower surface bonded to the surface of the film 1; The multi-layered film for heat insulation, which consists of a gap plate 2 between the film 1 and the film 1, holding the two films 1 of the upper and lower surfaces at fixed intervals. The method of claim 1, The said multi-layered film for heat insulation has a 3 or more layered film by sequentially adding a gap plate (2) and a film (1) to an upper surface, The multi-layered film for heat insulation, characterized by the above-mentioned. The method according to claim 1 or 2, The film (1) is a transparent film, characterized in that the multi-layer film for heat insulation. delete The method according to claim 1 or 2, The gap plate (2), characterized in that the space (22) in the form of a rhombus form continuously inside, multi-layer film for thermal insulation.

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