KR900005033Y1 - Plate heater - Google Patents

Abstract

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Description

Planar heating element

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

2 is an enlarged explanatory diagram showing the weave structure of a portion of the woven fabric and braided lines;

3 is an enlarged cross-sectional explanatory diagram of the A-A line of FIG.

* Explanation of symbols for main parts of the drawings

1: woven fabric 2: red line

4, 4: engaged 5, 5: seized

6, 6: square weave structure 7, 7: small gap

8: braided line 9, 9: pseudo rectangular tissue

10, 10: small gap

This invention relates to the improvement of the planar heating element which apply | coated the electrically conductive paint like coating material to a woven fabric.

It is used as a warming material for rugs and others.

Conventionally, the woven fabric used for such a planar heating element is made entirely of citron cloth, and the weaving structure is relatively dense, which may result in insufficient adhesion of the front and back insulation sheets after the carbon coating is applied.

In other words, the insulating sheets on the front and back of each other are not directly bonded to each other, and there is a high possibility of causing interlayer peeling. Moreover, the interlayer peeling portion promotes damage to the heating element when used for a long time, causing abnormal heat generation.

In addition, the conventional planar heating element uses a twisted wire twisted with about 6-9 fine wires as electrode wires, but the twisted wire weaves cannot be traced to any other woven parts. Concave-convex irregularities are generated, and there is a possibility that uniform coating may not be performed during the application of the conductive paint, or the adhesion work of the insulating sheet is not natural, and the interlayer peeling is likely to occur.

The present invention has been studied to solve the drawbacks of the conventional planar heating element as described above, and basically forms a small gap in the four corners of the rectangular woven tissue formed by the venetian weave and thin the electrode wire. A flexible stretchy braided venice fabric that changes the organization of locomotion and reversal yarns on both sides of the braided line, forming a small gap over the two edges of the pseudo-square tissue formed by the changed veneers. Applying a conductive paint to the entire surface of the woven fabric to form a heating element body, and by insulating the insulating sheet on both sides of the heating element body directly in a small gap position, all the defects of the conventional planar heating element is eliminated, At the same time, the number of weaves of the electrode wire is consumed less, and at the same time, a faster operation can be achieved.

In addition, in the planar heating element in which the flow of current is biased to the cross yarns of the woven fabric, the thin and flexible stretchable braided wire is woven in a stable state by making the base structure into a very stable Venice fabric by deformation of the plain fabric. Coating work of conductive paint and bonding of insulation sheet can be done uniformly and flexibly. Also, the horizontal thread is not inclined, and it can generate heat without heat spots. The fluctuation was completely prevented and stabilized.

When described in detail according to the drawings and examples below, the woven fabric 1 is used by using the same excellent impregnation as a cotton cloth, and is formed by weaving the electrode wire 2 to the anode in the working direction of the woven fabric 1, The central portion 3 of the woven fabric 1 is veneered with four engagements (4, 4) and four crosses (5, 5), and a small gap in the four corners of the square tissue (6, 6) formed by the Venice. (7, 7), the electrode wire (2) is made of thin flexible stretchable braids (8, 8) braided copper, tin-plated wire, etc., and the braids (8) and braids (8) The weaving tissues of the locomotives (4, 4) and the crossbreeds (5, 5), which are distributed on both sides, are pseudo venous tissues (organizations in which the two lobes (4, 4) in the braided line 8 are woven). Small gaps 10 and 10 are formed at two or more edges of 9 and 9.

In this way, as the electrode wires 2, the thin and flexible stretchable braided wires 8 and 8 are woven into the changed Venice fabric, and a conductive paint 11 such as carbon paint is applied to the front surface of the woven fabric 1 having the center portion of the Venice fabric. The heat generating body is constituted.

The insulating sheets 13 and 13, such as a vinyl sheet, and the insulating sheets 13 and 13 are placed on both surfaces of the heating element body 12 at least in part or in all of the small gaps 7, 10 and 10. It is formed by being partially bonded directly at.

Moreover, the number of heads of the engaging body 4 and the horizontal thread 5 which comprise the square structure 6 can be arbitrarily determined.

In the present invention as described above, the central portion of the woven fabric (1) is the veneer of the engagement (4) the transverse yarn (5), and the small gap (7) of the four corners of the square weave (6) formed by the veneer. Even when the conductive paint 11 is applied, the small gaps 7 and 10 of the small gaps (10 and 10 degrees are the same) are not filled, but the thin holes are drilled. It is stable because it does not cause delamination by directly adhering to each other through direct adhesion.

In addition, since the thin and flexible stretchable braided wire 8 is used as the electrode wire, since the braiding wire itself stretches and conforms well with other woven fabric parts, irregularities such as waves do not occur, so the coating work of the conductive paint is smooth, It is possible to flexibly bond the insulating sheet.

This braided line is a venice fabric which is changed by the working and transverse yarns on both sides. Small gaps are formed on two or more edges of the pseudo-square fabric, and the insulating sheets are directly bonded to each other through the small gaps. The braided wire is integrated, and the fluctuation of the elastic braided wire is completely prevented, so it is stable and does not cause delamination, and is excellent in durability.

In addition, in the planar heating element in which the current flow is biased to the weaving yarns, the weaving structure of the woven fabric as the base is a plain weave fabric that has a very stable weaving structure by the deformation of the plain weave, so that the weaving yarns are always inclined without heat. It is possible to obtain heat generation without spots, and to be excellent in durability.

Claims (1)

In the case where the insulating sheets 13 and 13 are adhered to both surfaces of the heating element body 12 in which the electrode wires 2 are incorporated in both sides of the woven fabric 1 in the engaged (4, 4) directions and the conductive paint 11 is applied. , The central part of the woven fabric 1 is a Venice fabric and forms small gaps 7 and 7 at the four edges of the square weave 6 and 6, and the electrode wires 2 are thin and flexible stretchable braided lines 8 and 8. The fabrics of the entanglement (4, 4) and the cross (5, 5), which are distributed on both sides of this braid, are changed venices and have a small gap (more than 2 edges of the pseudo rectangular tissue (9, 9)). 10 and 10, wherein the front and back insulating sheets 13 and 13 are bonded to the heat generating body main body 12 so as to be directly bonded at these small gaps (7, 7) and (10, 10) positions.