KR20020086158A - Electric heating plate - Google Patents

Abstract

The present invention relates to a heating element using carbon fibers, comprising: a first heating plate composed of a fiber made of carbon fibers for supplying electricity, the carbon fiber being cut into equal lengths, and connected in parallel to power supply plates on both sides; ,

A second heating plate in which one side power supply plate of the first heating plate is a common node, and carbon fibers plied together with the other power supply plate are cut to the same length and arranged in parallel;

An insulating plate for insulating the first and second heating plates;

It consists of an insulating cover body which covers a 1st and 2nd heating plate,

Provides an electric heating plate to generate heat from the carbon fiber by applying power through the power supply plate except the common node.

Description

Electric heating plate

The present invention relates to an electric heating plate, comprising a carbon fiber for supplying electricity in parallel to the front and rear sunshine, one side of the front and rear sunshine to form a common node, the other side to provide different electrodes before and after parallel Fibers are related to the electric heating plate to maximize the heat generation by forming the same distance from each other.

Commonly used heating elements, that is, electric wires that pass electricity, but the resistance value is high, the heating element that generates heat in the conductor itself, such as nickel wire or copper wire is used, the use of the invention converts electrical energy such as electric mat into thermal energy It is used where to use. However, when the heat generation time has elapsed or the excessive load is applied, the physical properties of the heating element itself are changed due to overheating, which results in higher overheating or rapid deterioration in heat transfer efficiency, which is a cause of excessive power consumption. If you use the heating element for a long time, the metal wire is oxidized and the resistance becomes unstable.

In addition, a planar heating element was developed in which the carbon powder was precisely coated on a film or cloth in a liquid state, and formed a positive electrode and a negative electrode at both ends, but it was difficult to raise its temperature above 70 degrees or surface temperature above 51 degrees. It does not fit well with our customary heating habits, and the thickness of carbon applied to the surface of film or cloth is not constant, so the electric resistance value between each element is not constant and there is a problem of property change.

In order to solve this problem, as disclosed in Korean Patent Publication No. 96-7905, in a heating hull in which an insulator is coated on the periphery of a group of carbon fibers in which fine fibers of carbon are spliced, and a silicone rubber coating layer is formed outside the coating layer, A heating element has been developed in which a carbon fiber group incorporating carbon fibers has a resistance value of 60 ohms or less per meter and a carbon fiber group having the resistance value is spliced into one or more groups. This constitutes a conductive portion 1 formed by hydrothermally combining fine-thick carbon fibers as shown in FIG. 1, and forms a coating layer 2 as an insulator on the periphery of the conductive portion 1, and mainly has excellent heat resistance to the outside. The coating layer 3 was made of a material such as silicon, which is applied to the electric mat 10 as shown in FIG.

However, this technology generates high heat and provides an ondol effect, but it combines carbon fiber groups to cover the insulator. Therefore, if the carbon fiber group is partially disconnected during long time use, an arc is generated and the electromagnetic wave There was a possibility of occurrence.

The present invention is intended to solve this problem, an object of the present invention is to provide an electric heating plate without the generation of arc even if a portion of the carbon fiber group is disconnected. To this end, according to the present invention, the first heating plate and the one power supply plate of the first heating plate, which are cut in a certain length and are connected in parallel to the opposite power supply plates, are made of a common node. A second heating plate is also formed in parallel with other power supply plates in parallel to connect the haptic carbon fibers to a predetermined length.

1 is a partially cutaway perspective view of a conventional heating carbon wire,

Figure 2 is a perspective view of the mat using Figure 1,

Figure 3 is a perspective view showing an example of the carbon braided yarn forming the present invention,

4 is a partially cutaway perspective view of the present invention;

FIG. 5 is a magnetic field diagram illustrating the magnetic removal principle of the present invention in the A-A line state of FIG. 4. FIG.

Explanation of symbols for the main parts of the drawings

11; Unit Carbon Fiber 12; Unit Plywood Carbon Fiber

13, 13-1; carbon fiber 20 flocked; first heating plate

21; power supply plates 22, 32; power supply plates

30; second heating plate 40; insulating plate

50; insulating cover

That is, according to the present invention, in the heating element using the carbon fiber, the carbon fiber for supplying electricity is composed of fibers that have been spliced, and the spliced carbon fibers are cut to the same length and connected in parallel to the power supply plates on both sides. Heating plate,

A second heating plate in which one side power supply plate of the first heating plate is a common node, and carbon fibers plied together with the other power supply plate are cut to the same length and arranged in parallel;

An insulating plate for insulating the first and second heating plates;

It consists of an insulating cover body which covers a 1st and 2nd heating plate,

It is to provide an electric heating plate to heat the carbon fiber by applying power through a power supply plate except the common node.

Hereinafter, the present invention will be described in detail with reference to the drawings.

3 is a perspective view of the carbon fiber used in the present invention, wherein the unit-plyed carbon fiber 12 obtained by primary plying the unit carbon fiber 11 is configured to form the plywood carbon fiber 13.

4 is a main configuration diagram of the electric heating plate of the present invention,

Unit carbon fibers for supplying electricity are composed of carbon fibers 13 that are braided, and the carbon fibers 13 that are braided are cut to the same length and connected to power supply plates 21 and 22 on both sides in parallel at a predetermined interval. One first heating plate 20,

A second one in which the one side power supply plate 21 of the first heat generating plate 20 is made of a common copper foil and the carbon fibers 13-1 spun together with the other power supply plate 32 are cut to the same length and arranged in parallel. Heating plate 30,

An insulating plate 40 that insulates the first and second heating plates 20 and 30;

It consists of the insulating cover body 50 which covers the 1st and 2nd heat generating plates 20 and 30,

It is configured to generate heat from the carbon fibers 13 and 13-1 plyed by applying power through a pair of power applying plates 22 and 32 except for one side power applying plate 21 forming the common copper foil.

The present invention configured as described above has a flow of current as shown in FIG. 4 when the power is applied through the power supply plates 22 and 32, and thus indicates one moment. That is, the power is transferred from the power applying plate 22 to the power applying plate 21 to the first heating plate 20 through the parallel carbon fiber 13, and the power applying plate 21 forms a common node. It is connected to the heating plate 30 of the to form a current flow to return to the other power supply plate (32). That is, evenly heat is generated at the same time through the loop of the current through the power applying plate 22, the carbon fiber 13, the power applying plate 21, the carbon fiber 13-1 and the power applying plate 32. Calculation of the resistance for the heat generation is a conventional technique, so it is omitted in the present invention. However, the present invention uses the configuration of FIG. 3 in which carbon fibers 13 and 13-1 are spliced, so that even if the unit carbon fiber 11 is partially cut, other carbon fibers 11 are spliced to form a spliced state. The flow continues and there is no spark. In addition, in the present invention, since the power supply plates 22 and 32 are connected in parallel with carbon fibers 13 and 13-1 at predetermined lengths, the same potential is maintained to generate heat and prevent generation of electromagnetic waves. This may be represented as shown in FIG. 5. FIG. 5 is an enlarged view of the AA line of FIG. 4, wherein the first heating plate 20 is made of the braided carbon fiber 13 forming one side of the power applying plate 21 forming a common copper foil, and the other side. The second heating plate 30 made of a fused carbon fiber 13-1 (in fact, the state in which both the heating plate 20, 30 unfolded to form one heating plate or to distinguish the front and rear for convenience) When electric current passes through the spliced carbon fibers 13 and 13-1, magnetic fields are generated by the right-hand rule of framing.

Specifically, the upper and lower magnetic fields b1 and b2 by the carbon fibers 13 constituting the first heat generating plate 20 cancel each other, so that the magnetic field disappears, and the carbon fibers 13-1 forming the second heat generating plate 20. The upper and lower magnetic fields a1 and a2 caused by) are also mutually canceled and the magnetic field disappears. In addition, since both sides are offset by mutual magnetic fields (c1, c2) to form an electric heating plate that can remove the influence of the magnetic field.

The present invention described above is not limited to the above-described embodiments and drawings, and various permutations, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those who have

As described above, since the present invention uses a braided carbon fiber in which unit carbon fibers are plyed together when constructing a heating element using carbon fiber, even if the unit carbon fibers are cut by use, they are in intimate contact with each other. No,

Since the plywood carbon fiber is configured in parallel, there is no potential difference between both ends to provide a constant heating effect, and since the front and rear carbon fibers maintain a constant interval, mutual magnetic fields are canceled to prevent the generation of electromagnetic waves.

Claims (2)

A heat generating element using carbon fibers, comprising: a first heat generating plate composed of fibers in which carbon fibers for supplying electricity are spliced, cut in pieces of carbon fibers in the same length, and connected in parallel to power supply plates on both sides; A second heating plate in which one side power supply plate of the first heating plate is a common node, and carbon fibers plied together with the other power supply plate are cut to the same length and arranged in parallel; An insulating plate for insulating the first and second heating plates; It consists of an insulating cover body which covers a 1st and 2nd heating plate, An electric heating plate, characterized in that to generate heat from the carbon fiber by applying power through a power supply plate except the common node. The electric heating plate according to claim 1, wherein the carbon fibers constituting the first and second heating plates are arranged at equal intervals.