KR100923716B1 - Plane heating sheet with electrically conductive part consisting of powdered silver and method of the same - Google Patents

Abstract

PURPOSE: A plane heating sheet with an electrically conductive part consisting of powdered silver and a method of the same are provided to adhere a conductive part firmly to be a carbon layer by forming a conductive part made of the powdered silver. CONSTITUTION: A plane heating sheet with an electrically conductive part consisting of a powdered silver and a method of the same are comprised of the steps: arranging a first reinforcing sheet(20) and a second reinforcing sheet(50); covering a carbon composition with a carbon(30) on the first reinforcing sheet, drying it, and forming the carbon layer; forming a conductive part(40) made of the powdered silver by printing and drying it; and attaching a second reinforcing sheets on the conductive part.

Description

PLANE HEATING SHEET WITH ELECTRICALLY CONDUCTIVE PART CONSISTING OF POWDERED SILVER AND METHOD OF THE SAME

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a planar heating sheet and a method of manufacturing the same, and more particularly, to a planar heating sheet having a silver powder electrical conducting portion and a method of manufacturing the same.

Planar heating sheets are generally used as internal heating materials for supplying thermal energy to buildings, as well as floor heating materials for accommodations, office heating materials, and floor and wall heating materials inside functional food fermenters. It is used wherever heating is needed.

The interior of the building is basically required heat energy, accordingly, a lot of heating using a variety of boiler devices or electrical devices are applied in order to have a thermal insulation by the heat energy.

However, the heating method for supplying thermal energy using the boiler device or the electric device has a disadvantage in that excessive cost is generated due to the large consumption of oil or electricity, and the heating method using the boiler device or the electric device is energy. Since only the part supplied with heating is used, the situation is extremely limited.

In order to overcome this problem, not only the heating property is excellent, but also the electricity consumption is low, thereby reducing the cost of heating, the development of alternative materials using carbon sheets and electrical conductors have been made.

In particular, as a planar heating sheet using a carbon sheet and an electric conducting wire, research on a planar heating sheet which not only ensures sufficient thermal energy with a smaller amount of electricity but also reduces the risk of electricity during use has been actively conducted. .

However, the existing planar heating sheet includes a structure in which metal wires such as copper wires are bonded to the carbon sheet, which is a heating element, by means of an electrical conductor wire, and the carbon sheet and the electrical conductor wire are not only in close contact with each other. Although it must be maintained continuously, there is a problem that the carbon sheet and the electric conductive line are easily separated from each other due to external impacts, and when the sheet is folded and transported, the electric conductive wire is bent, causing a problem of poor contact or even There is a problem that the electric conductor is cut, and also if there is a problem of poor contact or flowing electricity to the cut electric conductor, there is a risk of sparking and thereby a fire.

Therefore, there is an urgent need for the application of technology that can improve or supplement these problems.

Accordingly, the present application provides a planar heating sheet having a silver powder conductive portion and a method of manufacturing the same, which can solve the problems of the prior art.

In order to achieve the above object, the present application provides the following invention.

The present application provides a planar heating sheet having a silver powder conductive portion, which is composed of a first reinforcing sheet, a carbon layer, a silver powder conductive portion, and a second reinforcing sheet from below.

In the present application, in the planar heating sheet, the silver powder electrically conductive portion contains silver powder and an acrylic resin, wherein the solid content is 53 wt% to 60 wt%, and the volume resistivity is 1 × 10 ⁻⁵ Pa · cm to Provided is a planar heating sheet, which is formed by printing a silver powder composition having a viscosity of from 2.0 × 10 ⁻⁴ Pa · cm to 5,000 cps to 15,000 cps on a carbon layer.

In addition, the present application provides a planar heating sheet, wherein the silver powder conductive portion has a width of 10 mm to 15 mm and a thickness of 60 µm to 100 µm in the planar heating sheet.

In addition, the present application provides a planar heating sheet, wherein the first reinforcing sheet and the second reinforcing sheet of the planar heating sheet is composed of a reinforcing layer, a nonwoven fabric, and a reinforcing layer from below.

In addition, in this application

(a) preparing a first reinforcing sheet and a second reinforcing sheet;

(b) coating and drying a carbon composition on the first reinforcing sheet to form a carbon layer;

(c) printing and drying the silver powder composition on the carbon layer to form a silver powder conductive portion; And

(d) adhering the second reinforcing sheet onto the silver powder conductive portion;

It provides a method for producing a planar heating sheet having a silver powder electrical conductive portion comprising a.

In the present application, in the method for producing the planar heating sheet, the silver powder composition contains silver powder and acrylic resin, the solid content is 53% by weight to 60% by weight, and the volume resistance is 1 × 10 ⁻⁵ Pa · cm to 2.0. Provided is a method for producing a planar heating sheet, wherein the sheet has a viscosity of 10 ⁻⁴ Pa · cm and a viscosity of 5,000 cps to 15,000 cps.

In addition, the present invention is to provide a method for producing a planar heating sheet in which the printing is by a gravure printing method or a silk printing method in the method for producing a planar heating sheet.

In the present application, the step of preparing the first reinforcing sheet and the second reinforcing sheet in the manufacturing method of the planar heating sheet is composed of a polyethylene composition, a polypropylene composition and a polyethylene terephthalate composition on the upper and lower portions of the nonwoven fabric, respectively. Provided is a method for producing a planar heating sheet, wherein a resin composition selected from the group is applied and dried to form a reinforcing layer.

According to the present invention, the silver powder conductive portion formed by printing and drying the silver powder composition containing fine silver powder on the carbon layer is included instead of the conventional metal electrical conductive wire such as a conventional copper wire to solve the above problems of the prior art. In addition, other various beneficial effects can be obtained.

That is, in the conventional planar heating sheet, there is a problem that the carbon sheet and the electrically conductive wire, which is a longitudinally long metal wire adhered on the carbon sheet, are easily separated from each other by an impact from the outside, but according to the present invention, fine silver powder is formed on the carbon layer. By printing and drying using the silver powder composition containing these to form a silver powder electrically conductive part, the electrically conductive part is reliably attached to a carbon layer, and the effect that a silver powder electrically conductive part is not easily separated from a carbon layer can be acquired.

In addition, in the conventional planar heating sheet, when the sheet is folded and transported, there is a problem of contact failure or even a break in the electric conductive wire due to the bending of the electric conductive wire, which is a metal wire long in the longitudinal direction, but according to the present invention, the metal wire Even when the sheet is folded and transported by using fine silver powder instead of using the phosphorus conductive wire, the problem of cutting the conductive portion does not occur, thus preventing the problem of poor contact.

In addition, in the conventional planar heating sheet, when the electrical conductors, which are metal wires, are spaced apart from the carbon sheet and they are bent, or when electricity is flowed to the electrical conductors after the electrical conductors are cut, there is a risk of sparking and a fire. However, according to the present invention, since the silver powder conduction portion is not easily separated from the carbon layer, and the silver powder conduction portion composed of fine silver powder is not feared to be cut, there is no possibility of the above-described conventional risks, and therefore, the conventional planar heating sheet Compared with the conventional planar heating sheet, a long service life is ensured compared to the conventional planar heating sheet.

In particular, the planar heating sheet of the present invention has an advantage of excellent electrical conductivity compared to the planar heating sheet using a conventional copper wire due to the use of silver having a much higher electrical conductivity than copper, and also uses silver powder, not silver metal wire. By forming an electrically conductive portion there is an advantage that the sheet itself including this is more flexible. In addition, according to the planar heating sheet of the present invention, it is possible to obtain advantages of light weight and smoothness that do not impair the wall or the floor.

In addition, according to the manufacturing method of the planar heating sheet of the present invention, the silver-containing conductive layer is formed by printing and drying the silver-containing composition only on the carbon layer. Compared with the conventional method for producing a planar heating sheet to be bonded by using, it is advantageous in that work-related troublesomeness is eliminated.

Hereinafter, the planar heating sheet which has the silver electrically conductive part of this application is demonstrated first, and then, the manufacturing method of the planar heating sheet which has the silver powder electrically conductive part of this application is demonstrated.

1 is a longitudinal cross-sectional view of a planar heating sheet 10 having a silver electrical conducting portion of the present invention, whereby the planar heating sheet 10 having the silver electrical conducting portion of the present invention is a first reinforcing sheet 20, carbon from below. Layer 30, silver electrical conducting portion 40 and second reinforcing sheet 50.

The first reinforcing sheet 20 is the lowermost layer of the planar heating sheet 10 of the present invention, which forms a lower layer of the carbon layer 30 that is a heating element, is an insulating member, and is a layer that protects the carbon layer 30. .

This first reinforcing sheet 20 is again composed of three layers, consisting of a reinforcing layer 21, a nonwoven fabric 22, and a reinforcing layer 23 from below. The reinforcement layers 21 and 23 consist of a polyethylene resin composition, a polypropylene resin composition, a polyethylene terephthalate resin composition, etc.

The carbon layer 30 is a layer formed on the first reinforcing sheet 20 and is a portion that is responsible for the heating element function in the planar heating sheet 10 of the present invention.

This carbon layer 30 is formed by applying and drying a common carbon composition known to those skilled in the art containing graphite, a conductive material, a curing agent, an adhesive, and a diluent on top of the first reinforcing sheet 20.

Preferable carbon layer 30 has a thickness of 80 µm to 100 µm. When the thickness of the carbon layer 30 is out of such a numerical range, sufficient heat generation is required to heat the carbon layer by supplying electricity through the silver powder conduction part after constructing a planar heating sheet having a silver powder conduction part of the present invention on the bottom. This may not be done.

The silver powder conductive portion 40 is formed on the carbon layer 30 and is a portion for supplying electricity to the carbon layer 30 which is a heating element in the planar heating sheet 10 of the present invention.

This silver powder conductive portion 40 is formed by printing and drying a silver powder composition containing fine silver powder. The silver powder composition contains silver powder and acrylic resin, has a solid content of 53% by weight to 60% by weight, a volume resistivity of 1 × 10 ⁻⁵ Pa · cm to 2.0 × 10 ⁻⁴ Pa · cm, and has a viscosity of 5,000 Preferably cps to 15,000 cps. The silver powder composition may contain an adhesive, a diluent, a curing agent, etc. in addition to the silver powder and the acrylic resin described above. As such silver powder compositions, products such as DOTITE D-500 and D-550 (trade name of FUJIKURA KASEI (Japan)) or SHINTRON K-3040 (trade name of SHINTOPAINT (Japan)), which are currently marketed and traded, can be used. However, the present invention is not limited thereto, and any silver powder composition satisfying the above-described solid content, volume resistance and viscosity may be used.

It is preferable that the width of a silver powder electrically conductive part is 10 mm-15 mm, and it is preferable that the thickness of a silver powder electrically conductive part is 60 micrometers-100 micrometers.

If the solid content, volume resistance and viscosity of the silver powder composition forming the silver powder conductive portion and the width and thickness of the silver powder conductive portion fall outside the above numerical ranges, a planar heating sheet having the silver powder conductive portion of the present invention will be constructed later. Then sufficient electrical conduction may not be achieved when supplying electricity through the silver conduction.

The second reinforcing sheet 50 is a top layer of the planar heating sheet 10 of the present invention, and is a layer for protecting the carbon layer 30 as an insulating member forming the upper layer of the carbon layer 30 which is a heating element and the silver powder conductive part. to be.

The second reinforcement sheet 50 is further composed of three layers, which are composed of a reinforcement layer 51, a nonwoven fabric 52, and a reinforcement layer 53 from below. The reinforcement layers 51 and 53 consist of a polyethylene resin composition, a polypropylene resin composition, or a polyethylene terephthalate resin composition.

Since the second reinforcing sheet 50 is the uppermost layer of the planar heating sheet 10 of the present invention as described above, the non-woven fabric 52 printed with patterns of various designs can be used to increase the effect in terms of interior and advertising. have.

The planar heating sheet 10 having the silver powder conductive part of the present invention, which is composed of the first reinforcing sheet 20, the carbon layer 30, the silver powder conductive part 40, and the second reinforcing sheet 50, has an electric supply device. And a temperature control device, whereby electric supply and temperature control are performed.

Next, the manufacturing method of the planar heating sheet 10 which has the silver powder electrically conductive part of this application is demonstrated.

The manufacturing method of the planar heating sheet 10 which has the silver powder electrically conductive part of this application is

(a) preparing a first reinforcing sheet 20 and a second reinforcing sheet 50;

(b) coating and drying the carbon composition on the first reinforcing sheet 20 to form a carbon layer 30;

(c) printing and drying the silver powder composition on the carbon layer 30 to form a silver powder conductive portion 40; And

(d) adhering the second reinforcing sheet 50 onto the silver powder conductive portion 40

It is made, including.

In order to manufacture the planar heating sheet 10 having the silver powder conductive portion of the present application, first, the first reinforcing sheet 20 and the second reinforcing sheet 50 are prepared.

The first reinforcement sheet 20 is composed of three layers, the reinforcement layer 21, the nonwoven fabric 22, and the reinforcement layer 23, as described above, and the second reinforcement sheet 50 also has three layers, from below. It consists of the reinforcement layer 51, the nonwoven fabric 52, and the reinforcement layer 53, where the reinforcement layers 21, 23, 51, 53 consist of a polyethylene resin composition, a polypropylene resin composition, or a polyethylene terephthalate resin composition.

The first reinforcing sheet 20 is coated with a resin composition selected from the group consisting of a polyethylene resin composition, a polypropylene resin composition, and a polyethylene terephthalate resin composition on the upper and lower portions of the nonwoven fabric 22, respectively, to reinforce the layers 21 and 23. To prepare).

The second reinforcing sheet 50 is coated on the upper and lower portions of the nonwoven fabric 52 and the resin composition selected from the group consisting of a polyethylene resin composition, a polypropylene resin composition and a polyethylene terephthalate resin composition, respectively, and dried to reinforce the layers 51 and 53. To prepare). At this time, by printing a pattern of various designs on the nonwoven fabric 52 of the second reinforcing sheet 50, the effect in terms of interior and advertising can be enhanced.

After preparing the first reinforcing sheet 20 and the second reinforcing sheet 50 in this manner, the carbon layer 30 is formed on the first reinforcing sheet 20.

The carbon layer 30 is formed by applying and drying a common carbon composition known to those skilled in the art containing graphite, a conductive material, a curing agent, an adhesive, and a diluent on the first reinforcing sheet 20.

Preferable carbon layer 30 has a thickness of 80 µm to 100 µm.

After the carbon layer 30 is formed, the silver powder conductive portion 40 is formed on the carbon layer 30.

The silver powder composition containing fine silver powder is printed and dried on the coating layer 30 to form the silver powder conductive portion 40.

The silver powder composition contains silver powder and acrylic resin, has a solid content of 53% to 60% by weight, a volume resistance of 1 × 10 ⁻⁵ Pa · cm to 2.0 × 10 ⁻⁴ Pa · cm, and a viscosity of 5,000 cps It is preferably from 15,000 cps. The silver powder composition may contain an adhesive, a diluent, a curing agent, etc. in addition to the silver powder and the acrylic resin described above. As such silver powder compositions, products such as DOTITE D-500 and D-550 (trade name of FUJIKURA KASEI (Japan)) or SHINTRON K-3040 (trade name of SHINTOPAINT (Japan)) which are currently marketed and marketed can be used. However, the present invention is not limited thereto, and any silver powder composition satisfying the above-described solid content, volume resistance and viscosity may be used.

In order to form the silver powder conductive portion 40 on the carbon layer 30, the silver powder composition is printed using printing techniques commonly known in the art. Such printing techniques include a gravure printing method or a silk printing method.

The silver powder conductive portion is preferably formed to have a thickness of 60 µm to 100 µm so as to have a width of 10 mm to 15 mm.

After the silver powder conductive portion 40 is formed on the carbon layer 30, the second reinforcement sheet 50 prepared above is attached onto the first reinforcing sheet having the carbon layer 30 and the silver powder conductive portion 40 formed thereon. . Preferably, a second reinforcing sheet is placed on the first reinforcing sheet and heat-melted polyethylene flows therebetween to compress them using a roller.

In this way, the carbon layer 30, the silver powder conductive part 40 and the second reinforcing sheet 50 are laminated on the first reinforcing sheet 20 to produce a planar heating sheet 10 having the silver powder conductive part of the present invention. After that, hot air at a temperature of 40 ° C to 65 ° C is added for about 72 hours to cure and dry the resin composition.

The planar heating sheet having the silver electrically conductive portion of the present application manufactured by the manufacturing method of the present application including all such processes has a property of exhibiting a very excellent space heating effect, and thus can contribute to energy saving, and furthermore, It is intended to broaden the range of applications and applications in various space heating applications.

BRIEF DESCRIPTION OF THE DRAWINGS The longitudinal cross-sectional view of the planar invention sheet which has the silver powder electrically conductive part of this invention.

(Short description of drawing symbols)

10: planar heating sheet 20: first reinforcing sheet

21: reinforcing layer 22: nonwoven fabric

23: reinforcing layer 30: carbon layer

40: silver powder conductive part 50: second reinforcing sheet

51: reinforcing layer 52: reinforcing layer

53: reinforcing layer

Claims (8)

A planar heating sheet having a silver powder conductive portion, comprising a first reinforcing sheet, a carbon layer, a silver powder conductive portion, and a second reinforcing sheet from below, wherein the silver powder conductive portion contains silver powder and acrylic resin, and has a solid content of 53% by weight. To 60% by weight, volume resistivity of 1 × 10 ⁻⁵ Pa · cm to 2.0 × 10 ⁻⁴ Pa · cm, with a viscosity of 5,000 cps to 15,000 cps, on the carbon layer, width 10 mm to 15 mm and thickness A planar heating sheet which is formed by printing at 60 µm to 100 µm. delete delete The planar heating sheet according to claim 1, wherein the first reinforcing sheet and the second reinforcing sheet are composed of a reinforcing layer, a nonwoven fabric, and a reinforcing layer from below. (a) preparing a first reinforcing sheet and a second reinforcing sheet; (b) coating and drying a carbon composition on the first reinforcing sheet to form a carbon layer; (c) containing silver powder and acrylic resin, with a solids content of 53 to 60% by weight, a volume resistivity of 1 × 10 ⁻⁵ Pa · cm to 2.0 × 10 ⁻⁴ Pa · cm, and a viscosity of 5,000 cps to 15,000 cps Printing and drying the phosphorus powder composition on the carbon layer with a width of 10 mm to 15 mm and a thickness of 60 to 100 µm to form a silver powder conductive portion; And (d) adhering the second reinforcing sheet onto the silver powder conductive portion; The manufacturing method of the surface heating sheet which has a silver powder electrically conductive part containing these. delete The method of manufacturing a planar heating sheet according to claim 5, wherein the printing is by a gravure printing or silk printing method. The process of preparing a 1st reinforcement sheet and a 2nd reinforcement sheet of Claim 5 or 7 consists of a polyethylene resin composition, a polypropylene resin composition, and a polyethylene terephthalate resin composition in the upper part and the lower part of a nonwoven fabric, respectively. The manufacturing method of the surface heating sheet | seat which apply | coats and selects the resin composition chosen, and forms a reinforcement layer.

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