KR200339058Y1 - Plane heater - Google Patents

Abstract

The present invention relates to a planar heating element coated with a polymer insulating material, comprising a carbon fiber heating paper; A pair of electrodes disposed on one surface of the carbon fiber heating paper and spaced apart from each other to apply electricity to the carbon fiber heating paper; The carbon fiber heating paper and the pair of electrodes are wrapped around the outside, and the joints are characterized in that it comprises an insulating member that is mutually hermetically compressed.

As a result, while eliminating the disadvantage of not using the planar heating element due to the short circuit of the heating wire, the heating efficiency can be increased while maintaining the temperature distribution of the planar heating element uniformly.

Description

Plane heater coated with polymer insulation

The present invention relates to a planar heating element coated with a polymer insulating material, and more particularly, to solve the disadvantage that the planar heating element cannot be used due to a short circuit of the heating wire, and at the same time, while maintaining the temperature distribution of the planar heating element uniformly, its heating efficiency It relates to a planar heating element to increase the.

Ordinary planar heating elements that generate electricity by heating are not only sanitary because they do not pollute the air, but their mattresses, pads, bed mattresses, thermal blankets, blankets, apartments, or generals require heat generation because they are easy to control and have no noise. It is widely used for residential heating devices such as houses.

In addition, the heating of commercial buildings such as offices and shops, industrial heating devices such as workshops, warehouses, barracks, and various industrial heating devices, agricultural equipment such as vinyl houses and agricultural product drying systems, and melting snow or preventing freezing of roads and parking lots In addition to various freeze protection devices that can be used, it is also used for leisure, cold protection, home appliances, anti-fog of mirrors and glass, health supplement, livestock.

As a heat generating source of such a planar heating element, a heating line such as nichrome is used according to the prior art. However, in the planar heating element made of a heating wire such as nichrome, since electricity flows continuously through the line, when any part of the heating line is short-circuited, the planar heating element cannot be used because electricity is not energized.

In addition, in the conventional planar heating element using a heating wire such as nichrome, when the heating wire is short-circuited, there is a risk of fire because the electrical resistance in the corresponding portion is greatly reduced and generates severe heat. Thus, in order to prevent the short circuit of the heating wire, the insulation of the surface of the heating wire or between the heating wires is completely insulated by an electric conductor having a sufficient thickness. There is a disadvantage.

In addition, since the planar heating element using a heating wire such as nichrome has a structure in which only a corresponding portion of the heating line generates heat, there is a problem in that the temperature distribution of the planar heating element is uneven.

In addition, the planar heating element used in the past has a structure that is actually vulnerable to the waterproof, there is a defect that can not be easily used in the presence of water or moisture.

Accordingly, an object of the present invention is to provide a planar heating element which can solve the disadvantage of not using the planar heating element due to the short circuit of the heating wire and at the same time maintain the temperature distribution of the planar heating element uniformly while increasing the heat generating efficiency.

In addition, another object of the present invention is to provide a planar heating element that is waterproof to be used safely even in the presence of water or moisture.

1 is a schematic cross-sectional view of a planar heating element according to the present invention,

2 is a plan view of the carbon fiber heating paper of the planar heating element shown in FIG.

* Explanation of symbols for the main parts of the drawings

1: carbon fiber 2: pulp member

5: dense part 6: dense part

10 carbon fiber heating paper 20 insulation member

30a, 30b: electrode 40: thermo-compression part

The above object, according to the present invention, carbon fiber heating paper; A pair of electrodes disposed on one surface of the carbon fiber heating paper and spaced apart from each other to apply electricity to the carbon fiber heating paper; It is achieved by a planar heating element characterized in that it comprises an insulating member which is wrapped around the carbon fiber heating paper and the pair of electrodes from the outside while the joints are hermetically sealed.

Here, the insulating member is composed of the upper and lower portions disposed on the upper and lower surfaces with the carbon fiber heating paper therebetween, it is advantageous that the thermocompression unit is formed on the mutual junction of the upper and lower portions.

The insulating member is composed of a urethane material mainly as a polymer insulating material.

The carbon fiber heating paper includes a pulp member and carbon fibers that are formed on the pulp member and generate heat by a power source applied by the pair of electrodes.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

1 is a schematic cross-sectional view of a planar heating element according to the present invention, Figure 2 is a plan view of the carbon fiber heating paper of the planar heating element shown in FIG.

As shown in these figures, the planar heating element according to the present invention, the carbon fiber heating paper 10 and the carbon fiber heating paper 10 is disposed on one surface of the carbon fiber heating paper 10 in a spaced apart state to the carbon fiber heating paper 10 An insulating member in which the pair of electrodes 30a and 30b for applying electricity, the carbon fiber heating paper 10 and the pair of electrodes 30a and 30b are externally wrapped and the joints are crimped together with each other. 20).

In addition, the insulating member 20 is composed of an upper portion 20a and a lower portion 20b disposed on the upper and lower surfaces with the carbon fiber heating paper 10 interposed therebetween, and the material is mainly made of a urethane material. Is formed.

For reference, the polymer material is, for example, polyester, acrylic, ABS, cellulose, carbon fluoride, polyethylene, polypropylene, polystyrene, rubber, polyvinyl chloride (PVC), polyvinyl fluoride, polyamide, polyimide, It refers to a large compound of extremely high molecular weight (usually 10,000 or more) such as urethane, epoxy, epoxy resin impregnated glass fabric.

Although high molecular compounds have various structures and properties, they are roughly classified into organic polymer compounds and inorganic polymer compounds, which are further divided into natural polymer compounds and synthetic polymer compounds. Glass or artificial dogs are processed into natural products and can be said to belong to an intermediate being.

Such polymer compounds are applied to plastic and various textile products, synthetic rubber products such as tires and tubes, safety glass, adhesives, paints, building materials, pipes, various vessels, insulating materials, electrical and electronic products, and the like.

Thus, in the present invention, the insulating member 20 of the planar heating element is formed by using a polymer compound having such characteristics. Among them, urethane and epoxy are particularly used.

For example, if the planar heating element is used for low temperature (about 80 ℃ or less), it is preferable to form the insulating member 20 using urethane, and if it is used for high temperature (about 100 ℃ ~ 160 ℃) using epoxy It is advantageous to form the insulating member 20.

That is, the upper portion 20a and the lower portion 20b made of urethane or epoxy are disposed on the upper and lower surfaces with the carbon fiber heating paper 10 interposed therebetween, and the upper and lower portions 20a and 20b are joined to each other. What is necessary is just to form the thermocompression bonding part 40 for waterproofing.

At this time, if the insulating member 20 is made of urethane, the thermocompression-bonding part 40 may be formed by applying a pressure of 10 Kg / cm ² at a temperature of about 150 ° C.

If the insulating member 20 is made of epoxy, the thermocompression part 40 can be easily formed by gradually applying a pressure of 190 Kg / cm ² from a low temperature to a high temperature at a temperature of about 160 ° C. for about 1 hour and 30 minutes. have.

When the thermocompression-bonding part 40 is formed in this way, since the joints of the upper and lower parts 20a and 20b are hermetically compressed to the outside, the planar heating element can be used safely even in the presence of water or moisture.

Meanwhile, as shown in FIG. 2, the carbon fiber heating paper 10 provided in the insulating member 20 is formed in the pulp member 2 and the pulp member 2 and has a pair of electrodes 30a and 30b. It consists of carbon fiber 1 which generate | occur | produces by the power supply applied by ().

Of course, when manufacturing the carbon fiber heating paper 10, it is preferable to arrange the carbon fibers 1 in the pulp member 2 at regular intervals, as shown in Figure 2, the carbon fiber 1 In manufacturing, a relatively dense portion 6 and a low density portion 5 may be arbitrarily formed.

The carbon fiber 1 is a fiber made by heating and carbonizing an organic fiber in an inert gas, and raw materials such as cellulose, acrylic fiber, vinylon, and pitch are used. Molecular arrangements and crystals change depending on the raw materials used or the processing temperatures. In general, hexagonal rings of carbon form a layered lattice successively, and have a metallic luster and black or grey.

Strength 10-20 g / d, specific gravity 1.5-2.1. Excellent heat resistance and impact resistance, resistant to chemicals and high resistance to pests. Molecular weights such as oxygen, hydrogen, nitrogen, etc. are lost during the heating process, so that the weight is lighter than that of metal (aluminum), while the elasticity and strength are superior to that of metal (iron).

Due to these characteristics, carbon fiber (1) is used for sports goods (fishing rods, golf clubs, tennis rackets), aerospace industry (heat-resistant materials, aircraft fuselage), automobiles, civil construction (light weight materials, interior materials), electrical and electronics (antenna) ), It is widely used as a high performance industrial material in various fields such as environmental industry (air purifier, water purifier).

Thus, by uniformly dispersing the carbon fibers 1 having a diameter of 5 to 50 µm and a length of 0.5 to 20 mm, which are much longer than the diameter, in the pulp member 2, uniform heat generation is possible on the entire surface of the planar heating element. Therefore, it is possible to solve the nonuniform temperature distribution due to the partial heat generation of only the heating wire portion, which is a problem of the conventional planar heating element using a heating wire such as nichrome.

In addition, since the carbon fiber (1) is much more easily contacted with each other than the carbon black powder of the particle shape during dispersion, it is possible to change the content of the dispersed carbon fiber (1) in a much wider range, so that various heat generation characteristics It is possible to manufacture a planar heating element having.

In order to manufacture a planar heating element having such a configuration, first, the carbon fiber 1 is closely disposed and fixed to the pulp member 2 to produce the carbon fiber heating paper 10, and then the carbon fiber 1 can be contacted. A pair of electrodes 30a and 30b are provided on the heat generating paper 10.

Then, the upper and lower portions 20a and 20b of the insulating member 20 are disposed to cover the carbon fiber 1 heat generating paper 10 and the electrodes 30a and 30b from the outside, and then the joints The thermal compression part 40 is formed by the method described above.

After the planar heating element is manufactured as described above, when the power is applied to the pair of electrodes 30a and 30b, the carbon fiber 1 generates heat at a relatively high temperature while the heat is applied. By releasing to the outside through), the planar heating element can be used according to the purpose.

As described above, according to the planar heating element of the present invention, it is possible to solve the disadvantage of not using the planar heating element due to the short circuit of the heating wire, and at the same time, while maintaining the temperature distribution of the planar heating element, the heating efficiency can be increased. It can also be used safely in the presence of water or moisture.

In the above embodiment, a separate drawing and description are omitted, but it is obvious that a separate power line must be connected to apply electricity to the pair of electrodes 30a and 30b.

As described above, according to the present invention, there is provided a planar heating element that can solve the disadvantage of not using the planar heating element due to the short circuit of the heating wire and at the same time maintain the temperature distribution of the planar heating element uniformly while increasing its heating efficiency.

In addition, according to the present invention, there is provided a planar heating element waterproof to be used safely even in the presence of water or moisture.

Claims (2)

Carbon fiber heating paper; A pair of electrodes disposed on one surface of the carbon fiber heating paper and spaced apart from each other to apply electricity to the carbon fiber heating paper; The carbon fiber heating paper and the pair of electrodes wrapped around the outside of the polymer insulating material, characterized in that the upper and lower portions of the carbon fiber heating paper and the insulating member is made of an insulating member to each other at the edge of the electrode Planar heating element coated with insulating material. The method of claim 1, The insulation member is made of a urethane material when the surface heating element is a low temperature use (about 80 ℃ or less), and coated with a polymer insulation material, characterized in that made of epoxy material for high temperature applications (about 100 ℃ ~ 160 ℃) Planar heating element.