KR200418725Y1 - Heat insulating material for heating element - Google Patents

Abstract

The present invention relates to a heat insulating film for heat insulation, and more specifically, is installed in the lower portion of the heat generating film is installed on the floor for the purpose of heat dissipation to block the current of the heat generating film to the floor, the heat generating film and the heat insulating material It relates to a heat insulating material to prevent the generation of static electricity between.

Insulation material for a heat generating film of the present invention having the above object is in the heat insulating material installed on the bottom of the heating film is installed on the floor for heating, PE foam layer and the PE foam layer is attached to the PE film and the silver powder is printed on the upper surface It consists of a PET film layer, a coating layer for protecting the silver powder printed on the PET film layer, and a HEIDEN film layer attached to the lower portion of the PE foam layer and printed with silver powder on the lower surface, to block cold air at the bottom and to generate a current of the heating film. It prevents the electricity to the floor, characterized in that to prevent the generation of static electricity between the heat generating film and the heat insulating material.

PE foam, PET film layer, silver powder, synthetic resin film layer, HEIDEN film layer, coating layer, identification letter, heating film, insulation

Description

Heat insulating material for heating element

1A is an exploded perspective view showing that a conventional heat insulator is constructed,

Figure 1b is a cross-sectional view showing a heat insulating material used in the construction of a conventional planar heating element,

Figure 2 is a cross-sectional view of the heat insulating material for a heating film according to an embodiment of the present invention,

Figure 3 is a cross-sectional view of the heat insulating material for a heating film according to another embodiment of the present invention,

Figure 4 is a perspective view showing a part of the heat insulating film cutaway according to an embodiment of the present invention,

5 is a perspective view showing that the heat insulating material for a heating film according to an embodiment of the present invention is installed.

<Explanation of symbols for the main parts of the drawings>

10: PE foam layer 20: HEIDEN film layer

30: silver powder 40: PE film

50: PET film layer 60: coating layer

70: synthetic resin film layer 100: heat insulating material

200: heating film 300: floor finishing material

400: identifier

The present invention relates to a heat insulating film for heat insulation, and more particularly, to a heat insulating material installed in the lower portion of the heat generating film to be installed on the floor for heat dissipation to block the cold air of the floor and to heat the heat generated from the heat generating film. .

In general, the heat insulating material used in the construction of a heating film for heating which is installed under the floor finishing material of a building or floor of a building such as a house or an office and heats when it is supplied with a power supply line is used, which is formed by coating an aluminum foil on one surface of a PE foam. The heat generating film includes a planar heating element consisting of an electrode wire and a carbon band and a linear heating element in which an electric wire is built in the entire heating film, such as an electric sheet.

When the planar heating element is constructed of the heating film with reference to the drawings as follows.

1A is an exploded perspective view showing that a conventional heat insulating material is constructed, and FIG. 1B is a cross-sectional view showing a heat insulating material used in the construction of a conventional planar heating element.

A printing paper 1 having various patterns printed on the upper surface, and a planar heating element 2 coated with carbon yarns and carbon black and attached with a plurality of electrode lines 5 and 5 'on the surface of the base paper, and having a lower surface of the surface heating element. Insulation material 3 was installed in the bottom surface 4.

The heat insulating material installed as described above uses aluminum foil or aluminum foil combined with PE foam by an adhesive or thermocompression bonding to block cold air at the bottom and to keep the heating element warm by constructing it as the planar heating element. It worked.

However, the aluminum bonded to the heat insulator does not completely block the current, the static electricity is easily generated, and generates static electricity between the heating element and the heat insulating material, the current of the heating element is energized to the floor, the risk of fire and inconvenience in use Is being raised.

The present invention was devised to solve the conventional problems as described above, to prevent the condensation phenomenon or moisture of the floor and at the same time is installed in the lower portion of the heating film to provide a heat-insulating material for the thermal film to prevent static electricity and electricity. have.

The present invention for achieving the above technical problem, in the heat insulating material installed on the bottom of the heating film is installed on the floor for heating, the PE foam layer and the PE foam is attached to the upper portion of the PE film via the medium and the silver powder on the upper surface The printed PET film layer and the coating layer for protecting the silver powder printed on the PET film layer and the PE foam layer is attached to the lower portion, characterized in that made of a Heide film layer printed silver powder on the lower surface.

In addition, in the heat insulating material installed on the bottom of the heating film to be installed on the floor for heating, the PE foam layer and the PE foam layer is attached to the upper via a PE film, silver powder is printed on the upper surface to prevent wrinkles and deformation of the surface The coating layer for protecting the silver powder printed on the synthetic resin film layer and the synthetic resin film layer formed so as to be attached to the lower portion of the PE foam layer, characterized in that consisting of a Heide film layer printed silver powder on the lower surface.

Preferably, the silver powder printing surface of the PET film layer is characterized in that the identification line indicating the attachment surface of the heating film and the identification line is further printed in the lattice direction.

Preferably, the silver powder printing surface of the synthetic resin film layer is characterized in that the identification line and the identification line indicating the adhesion surface of the heating film is further printed in the lattice direction.

<Example>

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment and another embodiment according to the present invention; However, in adding reference numerals to the components of each drawing, it should be noted that the same components as possible, even if displayed on the other drawings have the same number as possible.

2 is a cross-sectional view of the heat insulating film for heat insulating material according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the heat insulating film for heat insulating material according to another embodiment of the present invention, Figure 4 is a heat generation according to an embodiment of the present invention It is a perspective view which shows what cut out a part of heat insulating materials for films.

As shown in the figure, the heat insulating material according to an embodiment of the present invention, the upper surface of the PE foam layer 10 and the PE foam layer 10, the PET film layer 50 and the upper surface of the PET film layer 50 It is made of a coating layer 60 formed on, the lower portion of the PE foam layer 10 is made of a HEIDEN film layer 20 is further attached.

In the above configuration, the PE foam layer 10 is formed of a predetermined thickness of PE foam (Poly Ethylene), which is generally used as a heat insulating material and a cushioning material to block cold air and moisture coming from the bottom and to buffer it when an impact is applied from the top. Will be

In addition, the PET film layer 50 is made of PET poly (Poly Ethylene Terephthalte), which is obtained by dimerization of propylene and has excellent heat resistance and electrical properties. Blocking and blocking the heat emitted from the heat generating film is in contact with the cold of the floor.

In the above configuration, the silver powder 30 is printed on the upper surface of the PET film layer 50. At this time, the silver powder 30 is printed for the purpose of painting a beautiful appearance of the white PET film layer 50, but the silver powder 30 is a material having heat resistance, so that it is also effective to reinforce the heat resistance.

In addition, a coating layer 60 is further formed on the upper surface of the PET film layer 50 on which the silver powder 30 is printed, and the coating layer 60 is formed on the PET film layer to protect the printed silver powder 30 ( 50) is made by coating the surface.

Meanwhile, in the above configuration, the HEIDEN film layer 20 is further attached to the lower portion of the PE foam. The HEIDEN film layer 20 is a film layer made of high density polyethylene (HDPE: HDPE) is excellent in moisture resistance is to prevent moisture from rising from the bottom. At this time, the silver powder 30 is further printed on the lower surface of the HEIDEN film layer 20 to enhance the appearance and reinforce the heat resistance.

Hereinafter, described in detail for the heat insulating material for a heat generating film according to another embodiment of the present invention.

Heat insulating material for a heating film according to another embodiment of the present invention is configured in the same manner as in the above-described embodiment, the PET film layer 50 is formed instead of the synthetic resin film 70 is attached.

The synthetic resin film layer 70 is made of a synthetic resin film formed by synthesizing a fabric or pulp having a certain strength and PET poly (Poly Ethylene Terephthalte) having excellent heat resistance and electrical properties, thereby preventing the surface of the heat insulating material from being easily wrinkled.

In addition, when the surface of the floor finishing material is soft during the construction of the heat insulating material, the heat insulating material may be deformed due to the impact of the upper part. Therefore, the synthetic resin film layer 70 may be formed to deform the upper surface of the heat insulating material. Will be prevented.

Hereinafter, looking at the coupling relationship of the heat insulating material for a heat generating film of the present invention having the above configuration as follows.

First, the PE film 40 is laminated on the upper surface of the PE foam layer 10. The PET film layer 50 or the synthetic resin film layer 70 is laminated on the upper surface of the PE film 40 stacked in this way and bonded by heat compression through a T-Die sheet molding machine.

When the bonding is completed as described above, the silver powder 30 is printed over the entire surface of the PET film layer 50, the identification character 400 and the identification line is printed at regular intervals on the silver powder printing surface. At this time, the printing method of the silver powder 30 and the printing method of the identification character 400 and the identification line is irrelevant even if a conventional known printing method (gravure printing, silk printing, etc.) is omitted.

When the printing of the silver powder 30 is completed as described above, the surface of the silver powder printing surface is coated with a PE coating method or a PE laminating coating method to prevent the silver powder 30 from being damaged.

Meanwhile, the HEIDEN film layer 20 is bonded to the lower surface of the PE foam layer 10 through a thermal fusion method, a thermal roller bonding crimping method, or a thermal melt lamination method, and the like of the HEIDEN film layer 20. The silver powder 30 is printed over the entire lower surface. At this time, the printing of the silver powder 30 applies the above-described conventional printing method.

When the silver powder 30 is printed as described above, it is dried for a predetermined time to complete the heat insulating material 100.

Hereinafter, the state in which the heat insulating material for heat generating film of the present invention is installed will be described with reference to the following drawings.

5 is a perspective view showing that the heat insulating material for a heat generating film according to an embodiment of the present invention is installed.

First, the heat insulating film 100 for heat generating film of the present invention is installed over the entire floor surface to be constructed. At this time, when the insulation 100 is installed on the bottom surface protruding or concave in the room, it is possible to cut through the identification line printed on the upper surface of the insulation 100, and the identification letter printed on the upper surface of the insulation (100) 400 is an identification letter 400 for guiding the attachment surface of the heating film 200, such as "heating element attachment surface" is printed so that the heating film 200 is stacked and installed on the upper surface of the heat insulating material 100, and When the floor plate or another floor finishing material 300 is stacked and installed as the upper part of the heat generating film 200, the construction of the flooring is completed.

When the construction is completed as described above, the heat insulating material 100 of the present invention prevents electricity flowing from the heat generating film 200 to the floor, and to block the static electricity between the heat insulating material 100 and the heat generating film 200. do.

On the other hand, the heat insulating material 100 may be applied differently according to the material of the bottom finish material 300, when the bottom finish material 300 includes a cushioning material, as described in another embodiment of the present invention, a synthetic resin film layer ( By using the heat insulating material 100 including 70, when the impact is applied to the floor finishing material 300, the impact is applied to the heat insulating material 100 installed in the lower portion to prevent the heat insulating material 100 from being damaged and deformed.

In addition, when using a hard wood pattern finish material of the floor finishing material 300, as described in the embodiment of the present invention, using the heat insulating material 100 including the PET film layer 50, the heat insulating material 100 serves to cushion the impact of the upper portion.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

The heat insulating material for a heat generating film of the present invention as described above, including a PET film layer has the effect of preventing the electric current generated in the heat generating film to the floor and to prevent static electricity generated between the heat generating film and the heat insulating material. .

In addition, the heat insulating material of the present invention has an effect of preventing the heat insulating material from being easily wrinkled by including the synthetic resin film layer and preventing the heat insulating material from being damaged by the impact of the upper bottom finish material.

In addition, the heat insulating material of the present invention guides the position of the heating film during construction by printing the identification letter and the identification line on the upper surface, and the cutting is easy through the identification line when cutting the heat insulating material.

Claims (4)

In the heat insulating material 100 installed in the lower portion of the heating film 200 is installed on the floor for heating, PE foam layer 10; A PET film layer 50 attached to the upper portion of the PE foam layer 10 via a PE film 40 and printed with silver powder 30 on an upper surface thereof; A coating layer 60 for protecting the silver powder 30 printed on the PET film layer 50; A HEIDEN film layer 20 attached to a lower portion of the PE foam layer 10 and printed with silver powder 30 on a lower surface thereof; Insulating material for a heating film, characterized in that consisting of. In the heat insulating material 100 installed in the lower portion of the heating film 200 is installed on the floor for heating, PE foam layer 10; A synthetic resin film layer 70 attached to the upper portion of the PE foam layer 10 through a PE film 40 and printed with silver powder 30 on the upper surface to prevent wrinkles and deformation of the surface; A coating layer 60 for protecting the silver powder 30 printed on the synthetic resin film layer 70; A HEIDEN film layer 20 attached to a lower portion of the PE foam layer 10 and printed with silver powder 30 on a lower surface thereof; Insulating material for a heating film, characterized in that consisting of. The method of claim 1, The silver powder printing surface of the PET film layer 50 is characterized in that the identification letter 400 indicating the attachment surface of the heat generating film 200 and the identification line is further printed in the lattice direction. The method of claim 2, The silver powder printing surface of the synthetic resin film layer 70, the identification character 400 indicating the attachment surface of the heat generating film 200 and the heat insulating film for heat generating film, characterized in that the identification line is further printed in the lattice direction.

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