KR101955680B1 - Method For Manufacturing Honeycomb Insulator Panel - Google Patents

Abstract

The present invention relates to a heat insulating plate of a honeycomb type having a heat insulating effect and a sound insulating effect by vacuum, and an apparatus and a method for manufacturing the same. The configuration of the apparatus includes; An apparatus for manufacturing a honeycomb type vacuum insulation board including an upper plate, a lower plate, and a honeycomb board fixedly mounted between the upper plate and the lower plate, the inner space being maintained in a vacuum state; A chamber formed of a lower lid and an upper lid activated up and down to form an airtight working space capable of maintaining airtightness; A hot press mechanism installed inside the chamber to pressurize the upper plate, the lower plate and the honeycomb board, And a vacuum pump connected to the lower cover or the upper cover for removing air from the chamber to form a vacuum.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a honeycomb insulator panel,

The present invention relates to a vacuum insulation board, and more particularly, to a heat insulation plate of a honeycomb type having a heat insulation effect and a sound insulation effect by vacuum, and an apparatus and a method for manufacturing the same.

Insulation of the outer wall of the building is recognized as an essential requirement for energy saving. It has been reported that the energy required for heating and cooling the building can save more than 50% of the total energy through the insulation of the outer wall of the building and the window. Therefore, building exterior wall insulation is considered to be more important.

Existing building exterior wall insulation materials include polyurethane foam foaming agents such as CFC, styrofoam, and glass wool, and are superior in thermal insulation performance. They are used for vacuum insulation panels (VIP) and aerogels ). The insulation performance of vacuum insulation panel filled with glass fiber core is evaluated to be 16 times higher than that of glass fiber and superior in heat insulation performance than polyurethane foam or styrofoam. The structure of a vacuum insulation panel in general is a shielding material for maintaining the degree of vacuum in the interior, which is made of a highly rigid casing made of a synthetic resin or metal and a core material filled in the casing, and the inside of the casing has a structure for maintaining vacuum. As the core material, organic or inorganic powders or fibers are used, and polymer resins are used. However, they have a disadvantage in that the insulation performance is deteriorated in the case of environmental problems and long-term use.

The advantage of vacuum insulation panels is that they have high insulation effect, excellent fire resistance and heat resistance, and excellent soundproofing function. However, since the price is high and the rigidity is high, the weight of the panel increases, the panel size is limited, and the heat insulating function is completely lost due to partial damage (for example, vacuum fracture).

Korean Patent Application No. 10-2010-0073704 Korean Patent Application No. 10-2008-0114230

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a vacuum insulating plate having a honeycomb structure for insulation of a building outer wall, which has a high rigidity, a good vacuum holding capability, A vacuum insulating plate material of a honeycomb type in which the manufacturing cost is not excessively consumed, and a manufacturing apparatus and a manufacturing method thereof.

The above object is achieved by an apparatus for manufacturing a honeycomb type vacuum insulation board including an upper plate, a lower plate, and a honeycomb board fixed between the upper plate and the lower plate, the inner space being kept in a vacuum state;

A chamber formed of a lower lid and an upper lid activated up and down to form an airtight working space capable of maintaining airtightness; A hot press mechanism installed inside the chamber to pressurize the upper plate, the lower plate and the honeycomb board, And a vacuum pump connected to the lower cover or the upper cover for removing air from the chamber to form a vacuum.

Another object of the present invention is to provide a method of manufacturing a honeycomb type vacuum insulation board,

A first step of placing a honeycomb board on a lower plate on which an adhesive layer is formed, placing a plurality of spacing members on the honeycomb board, and placing a top plate on the lower surface thereof with an adhesive layer formed thereon;

A second step of installing the laminate in a vacuum chamber;

A third step of evacuating air inside the vacuum chamber to evacuate the vacuum chamber;

The upper plate and the lower plate are pressurized to adhere and fix the upper plate, the honeycomb board and the lower plate, and the spacing member is broken or the honeycomb board is crushed and embedded therein so as to make direct contact with the upper plate and the honeycomb, step;

The method of manufacturing a honeycomb type vacuum insulation board according to the present invention includes the steps of:

According to an aspect of the present invention, the adhesive layer may be in the form of a sheet impregnated with an adhesive.

According to another aspect of the present invention, the fourth step may be to apply heat with the pressure.

According to the present invention, there is provided a honeycomb type vacuum insulating plate material for insulating a building outer wall. In particular, it does not require a core material for shape maintenance, has a good vacuum holding capability, has no restriction on the size of the vacuum insulation board, and can be used as a vacuum insulation board, An apparatus for manufacturing a plate material and a method thereof are provided.

1 is a perspective view of a vacuum insulation board according to an embodiment of the present invention.
2 is an exploded perspective view of a vacuum insulation board according to an embodiment of the present invention.
3 to 7 are exploded perspective views of a vacuum insulation board according to an embodiment of the present invention. Is a cross-sectional view taken along the line AA in Fig. 1
8 is a sectional view of a vacuum insulation board according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. First, the structure of the vacuum insulating plate will be described with reference to Figs. 1 to 5 at the same time.

The vacuum insulation board according to the present invention includes a honeycomb board (1). The honeycomb board 1 is a planar honeycomb plate formed by folding a plurality of strips in a wavy shape and then inserting them in a zigzag manner. In general, the honeycomb board (1) is made to increase rigidity and is widely used in various fields. It is not often used alone, and it is interposed between two sheets and widely used for partition walls and partitions for interior construction.

The concrete form of the honeycomb board 1 is not limited to that shown and various forms are available.

The present invention has a great feature in an apparatus and a method for manufacturing a honeycomb type vacuum insulation board. Hereinafter, the production method thereof will be described first.

The first step is the step of forming the laminate 1 'as shown in Figs. The honeycomb board 1 is placed on the lower plate 11 on which the second adhesive layer 7 is formed on the upper surface of the layered product 1 and a plurality of spaced apart members 3 are placed on the honeycomb board 1, 1 is formed by placing an upper plate 9 on which an adhesive layer 5 is formed.

The upper plate 9 and the lower plate 11 may be the same material or different materials. These may be metal materials or synthetic resins.

According to the embodiment of the present invention, the first and second adhesive layers 5 and 7 are in the form of a sheet impregnated with an adhesive. It may be used that has properties such that it is activated when applying heat similar to glue to exhibit adhesive performance.

The spacing member 3 may be fixed by adhesion on the upper surface 1a of the honeycomb board 1 or simply by placing it on the upper surface 1a of the honeycomb board 1. The spacing member 3 may have a thickness of 3 to 5 mm, 30 mm. The separating member 3 may be made of a material that is broken or pressed to be compressed when it is pressed, but on the contrary, when a strong material is used, the honeycomb board 1 is crushed upon pressing, It is also possible to put it on the market. (Not shown) can also be placed on the lower surface 1b of the honeycomb board. In this case, since the ventilation space is provided at the upper and lower portions of the laminate, the vacuum can be formed more quickly, and the effect of preventing the separation of the back surface of the vacuum insulation plate can be obtained.

It is possible to allow the consumer to recognize at which point of the heat insulating plate the spacing member 3 is provided by shaping the mounting position of the spacing member 3. [ For this purpose, the upper surface of the upper plate 9 may be provided with a pattern (not shown) at the position where the spacing member is installed. The spacing member 3 is shown as a square but may also be in the form of a disc.

The second step is to install a laminate inside the vacuum chamber 17 (see FIG. 3). The stacked layer may be formed in the vacuum chamber 17, but it is also possible to form the stacked body first and then to put it into the vacuum chamber 17.

The third step is a step of vacuuming the vacuum chamber 17 by blowing the air into the vacuum chamber 17, and then removing the air inside the vacuum chamber 17 (see FIG. 4). According to the features of the present invention, the working space of the chamber 17 into which the laminate 1 'is put can be minimized. By minimizing the working space of the chamber 17, it is possible to shorten the time required for evacuation and consequently to improve the productivity.

In the fourth step, the upper plate 9 and the lower plate 11 are pressed so that the upper plate 9, the honeycomb board 1 and the lower plate 11 are adhered and fixed (see FIGS. 5 to 6). In this process, heat can be applied together with the pressure using the hot press (20). A method of bonding using an adhesive is exemplified, but an ultrasonic welding method or an electric welding method may be used.

After this process, the chamber is opened as shown in Fig. 7 to draw out the finished honeycomb type vacuum insulation board. Hereinafter, a manufacturing apparatus for the above method will be described.

The chamber 17 provided on the base 13 is constituted by a lower cover 15 and an upper lid 17 which is vertically moved up and down by a cylinder 21 to form a closed working space capable of maintaining airtightness. Sealing members 22 and 22 'may be installed at the end portions of the lower cover 15 and the upper cover 17 to maintain airtightness.

A vacuum pump 33 for evacuating air in the chamber 17 and forming a vacuum is connected to the lower cover 15 or the upper cover 19 of the chamber 17 via the pipe 31. [ When the chamber 17 is closed and then the vacuum pump 33 is operated, the inside of the chamber 17 including the inside of the laminate 1 'is evacuated.

A hot press (20) is installed inside the chamber (17). The hot press 20 is a device for applying heat and pressure to the laminate 1 'placed inside the chamber 17 while vertically moving. The upper and lower actuating cylinders of the hot press 20 are installed through the center of the upper cover 19 of the chamber 17. The hot press 20 operates in a state in which the inside of the laminate 1 'is kept vacuum by the operation of the vacuum pump 33. Therefore, the finished honeycomb-shaped insulating plate material becomes a vacuum state.

Upper plates 25 and 29 provided in a form suspended from an upper lid 19 which is moved up and down by a cylinder of the hot press 20 and a lower plate fixed to the upper surface 15a of the lower lid 15, And is composed of the pressure plates 23 and 25 and the heating plates 27 and 29.

According to the vacuum insulation board 100 of the present invention, a large number of vacuum cells are provided. All of these vacuum cells maintain a vacuum in an independent state. Therefore, even when the vacuum insulation board 100 is cut along the arbitrary line C as shown in FIG. 8, the portion where the vacuum is damaged is only the edge and the remaining portion is still in vacuum, so that it can be used as a vacuum insulation board It is.

The configuration shown and described above is merely a preferred embodiment based on the technical idea of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

1: Honeycomb board 1 ': Laminate
3: spacing member 5, 7: first and second adhesive layers
9: top plate 11: bottom plate
13: Base 17: Chamber
20: Hot press 33: Vacuum pump

Claims (4)

delete A method for manufacturing a honeycomb type vacuum insulation board, comprising:
A first step of placing a honeycomb board on a lower plate on which an adhesive layer is formed, placing a plurality of spacing members on the honeycomb board, and placing a top plate on the lower surface thereof with an adhesive layer formed thereon;
A second step of installing the laminate in a vacuum chamber;
A vacuuming step of extracting air inside the vacuum chamber, wherein the air in the honeycomb board is released to the outside through a space between the spacer and the upper plate;
The upper plate and the lower plate are pressurized to adhere and fix the upper plate, the honeycomb board and the lower plate, and the spacing member is broken or the honeycomb board is crushed and embedded therein so as to make direct contact with the upper plate and the honeycomb, step;
;
Wherein a large number of vacuum cells that maintain a vacuum in an independent state are provided.
The method according to claim 2, wherein the adhesive layer is in the form of a sheet impregnated with an adhesive.
3. The method of claim 2, wherein the fourth step applies heat with pressure.

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