KR200408349Y1 - Plane heater - Google Patents

Abstract

By forming a wider carbon portion coated on the insulating film to lower the resistance of the carbon portion, a planar heating element is disclosed in which current flows smoothly to gradually generate heat of the carbon portion. In the disclosed planar heating element, a plurality of carbon parts are provided at predetermined intervals in the horizontal direction in the insulating film, and copper foils are connected to the power supply in the vertical direction at both ends of the carbon parts, and a silver part is provided between the carbon parts and the copper foil plates. In the planar heating element having a, the upper and lower widths of the carbon portion is characterized in that it is formed wide in 3.5cm to 5.5cm to lower the resistance value to facilitate the flow of current.

Insulation film, carbon part, silver part, copper foil, heat generation

Description

Planar heating element {PLANE HEATER}

1 is a perspective view of a conventional planar heating element,

2 is a plan view of FIG.

3 is a perspective view of a planar heating element according to the present invention,

4 is a plan view of the planar heating element according to the present invention.

Explanation of symbols on the main parts of the drawings

1: insulation film 3: silver part

4: copper foil 5: electric wire

100: carbon part

The present invention relates to a planar heating element, more specifically, by forming a wide width of the carbon coated on the insulating film to lower the resistance value of the carbon, the current flows smoothly to increase the rapid temperature rise of the carbon The heat dissipation area can be prevented, and the heat is generated uniformly, so that the heating element and the thermal efficiency are significantly improved.

In general, the heat conversion method used in bedding or mattresses was to use a heating wire. That is, when heating wires are arranged at regular intervals and power is applied through a temperature controller, heat is generated from the heating wires to heat or generate heat.

However, the heat conversion method using a heating wire has a problem that the heat distribution is very high around the heating wire and low between the heating wire, causing a severe temperature deviation. In severe cases, burns occur due to high temperature heat generated from a heating wire.

In order to solve this problem, a planar heating element that generates heat by applying carbon to the insulating film at regular intervals on the insulating film is widely used. Since the planar heating element generates heat in area compared to the heating wire method, the heat generation rate is excellent, so the power consumption rate is low, and there is little generation of harmful electromagnetic waves, and it has smoothness and durability. It is applied to various fields such as being used to prevent sexual love by installing on

1 and 2 show an example of a conventional planar heating element. Referring to this, the conventional planar heating element is suitable for transversely applying a liquid carbon paste, which is a high resistance material, to the upper surface of the insulating film 1-1 having excellent insulation. After coating at intervals to form the carbon portion 2, the conductive silver paste is applied to both ends of the carbon portion 2 in the longitudinal direction, respectively, to form the silver portion 3, and then silver The copper foil plate 4 is applied to the part 3, and the insulating film 1-2 is coated. In the conventional planar heating element configured as described above, when power is supplied through a wire and a current flows in the copper thin plate, current flows through the silver part to flow the current to the carbon part, and heat of resistance is generated in the carbon part.

However, in the conventional planar heating element, since the width A of the carbon part, which is the heating element, is formed to be narrow as about 1 cm, the resistance value of the carbon part is high when the power is applied, so that the current does not flow smoothly. Accordingly, there is a problem in that a high temperature heat of resistance is suddenly generated in the carbon portion and resistance heat is generated extremely in the carbon portion, which not only causes a risk of burns, but also consumes electric energy and causes power waste.

In addition, the width of the carbon portion is increased compared to the heating wire to improve the heat distribution state to some extent compared to the heating wire, but there is a problem that the distribution of heat dissipated is not uniform because the carbon portion is still formed in a narrow width of about 1cm.

The present invention is devised to solve the above problems, the object of the present invention is to lower the resistance value of the carbon portion, the current flows smoothly to prevent the sudden temperature rise of the carbon portion and the temperature rise can be made gradually It is to provide a planar heating element.

In addition, it is to provide a planar heating element that has a large heat generating area so that the heat is evenly distributed as a whole, which can greatly improve the feeling of heat and thermal efficiency.

The object of the present invention is a plurality of carbon portions in the horizontal direction in the insulating film is provided at a predetermined interval, the copper foil is provided in the longitudinal direction at both ends of the carbon portion, the silver portion between the carbon portion and the copper foil plate In the planar heating element having a configuration, the upper and lower widths of the carbon portion can be achieved by providing a planar heating element, characterized in that it is formed wide in 3.5cm to 5.5cm to smooth the flow of current by lowering the resistance value.

The object of the present invention described above will become more apparent from the preferred embodiment of the present invention described below with reference to the accompanying drawings.

Hereinafter, the planar heating element according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a perspective view of the planar heating element according to the present invention, Figure 4 is a plan view of the planar heating element according to the present invention. For convenience, the same components as in the prior art will be described with the same reference numerals.

The planar heating element according to the present invention is formed by widening the upper and lower width of the carbon coated on the insulating film to lower the resistance value of the carbon, thereby smoothly flowing the current on the carbon to prevent a sudden temperature rise of the carbon A gradual temperature rise is made in the carbon portion, and the heat generation area is wide, so that the heat is uniformly dissipated as a whole, thereby greatly improving the feeling of heat and thermal efficiency.

3 and 4, the planar heating element according to the present invention is coated on the upper surface of the insulating film (1-1) with excellent insulation properties by applying a liquid carbon paste of a high resistance at a suitable interval in the horizontal direction at the carbon portion (100) After forming a), in order to improve the thermal conductivity in the longitudinal direction of both ends of the carbon portion 100 by applying a conductive silver paste to form a silver portion, and then put a copper foil (4) on the silver portion 3, It is prepared by coating the insulating film (1-2).

Here, the present invention is characterized in that the upper and lower width (B) of the carbon portion 100 is widened to 3.5cm to 5.5cm to lower the resistance value to the carbon portion 100 to facilitate the flow of current. That is, the current flows smoothly through the widely formed carbon part 100 to prevent the sudden temperature rise of the carbon part, and the local resistance heat of the carbon part is not generated, so that the carbon part gradually increases in temperature. .

Now, the operation and effect of the present invention configured as described will be described.

Referring to the illustrated figure, when power is supplied through the wire 5, a current flows in the copper thin plate 4 serving as an electrode, and the current is transmitted to the carbon portion 100 through the silver portion 3 The carbon unit 100 is heated. At this time, the carbon portion 100 is generated by the heat of resistance, but the carbon portion of the conventional planar heating element is formed in a narrow width (A) so that the current flow is not smooth, so that the high temperature resistance heat is rapidly generated in the carbon portion. Unlike the extreme heat of resistance generated in the carbon portion, the present invention has a wide upper and lower width (B) of the carbon portion 100 is formed in a wide range of 3.5cm to 5.5cm to lower the resistance value of the carbon portion carbon portion 100 Since the current flows smoothly, it is possible to prevent a sudden temperature rise of the carbon portion and there is no local resistance heat of the carbon portion, the carbon portion has the advantage that the temperature rises gradually.

In addition, the present invention has a merit that the heat dissipation is more uniform since the heat dissipation in a larger area than the conventional planar heating element carbon part, so that the feeling of heat and thermal efficiency is greatly improved.

As described above, the planar heating element according to the present invention is formed by widening the width of the carbon portion applied on the insulating film to lower the resistance value of the carbon portion, the current flows smoothly to increase the rapid temperature rise of the carbon portion It is prevented and the carbon part gradually generates heat, thereby increasing the temperature, and since the heat is generated uniformly, the heat is generated uniformly.

Claims (1)

In the insulating film, a plurality of carbon parts are provided at predetermined intervals in the horizontal direction, and copper foil plates are provided at both ends of the carbon parts in a vertical direction, and a silver plate is provided between the carbon parts and the copper foil plates. To The upper and lower widths of the carbon portion is a planar heating element, characterized in that it is formed wide in 3.5cm to 5.5cm to lower the resistance value to facilitate the flow of current.

Images