KR100472301B1 - Plane heater - Google Patents

Abstract

The present invention relates to a woven heating element.

The present invention is to weave the carbon heating yarn made of carbon with the fiber yarn to have a certain pattern to form a woven plate and to suppress the generation of electromagnetic waves during the heating of the carbon heating wire, and at the same time heat transfer can be evenly and quickly transmitted to the human body To prevent the harmfulness and increase the heat transfer efficiency.

Description

Woven Heating Element {PLANE HEATER}

The present invention relates to a woven heating element, and more particularly, a carbon heating yarn made of carbon is woven together with a fiber yarn to have a predetermined pattern to form a woven plate, and at the same time to suppress the generation of electromagnetic waves during the heating of the carbon heating wire. The present invention relates to a woven heating element that enables heat transfer to be evenly and quickly so as to prevent harmful effects and increase heat transfer efficiency of the human body.

In general, a plate-like planar heating element is a pattern made by arranging conductive heating wires on a woven board fabricated in the form of a string and a string, so that power is supplied to the heating wires through a lead terminal. It is applied in various items and places requiring heating such as blankets, barracks, etc.

This heating element is a fiber yarn is woven with a string and a blade as shown in Figure 1 so that the woven plate (1) is made, the heating wire (2) on the woven plate (1) arranged at a predetermined interval in the string or blade direction In order to supply power by cutting the heating line 2 at appropriate lengths according to the heating value and the resistance value of the heating line, they are connected in parallel with the power line 3.

However, the heating element has a problem in that it does not perform the heating function when a part of the heating line is short-circuited during folding and storage, and also because the length of the heating line is rather long, it is not possible to achieve even heat transfer, and a large amount of electromagnetic waves are emitted during power supply. Harmful to human body There has been a problem to add.

Therefore, the present invention was devised to solve the above problems, and the first object of the present invention, the carbon heating wire woven board woven with fiber yarns having the same length and equal intervals in the string or the direction of the string, respectively, in a plurality of patterns It is to ensure that the power supply of the carbon heating wire, which is made into a single and a pair of carbon heating wires, is supplied in a cross manner through different conductive wires, so that electromagnetic wave shielding, fast heat generation and heat generation are kept constant.

A second object of the present invention is to prevent storage of carbon yarns even when the woven plate is folded or bent to facilitate storage.

In order to achieve the above object, the present invention, in the weaving heating element for arranging the carbon heating wire on the woven plate woven in the form of a string yarn and a blade, so that power is supplied to the carbon heating wire through the inlet terminal, when weaving the woven plate Weaving so that a gap of a predetermined width is formed along one longitudinal end; Carbon heating wires on the woven plate are arranged in parallel to each other in a pair of parallel patterned pattern, each end of one carbon heating wire constituting a pair extends to the upper woven board centering the gap and the other side of the carbon heating wire Each end is arranged to extend into the lower weave plate; The gap Coupling first and second conductive wires which are respectively orthogonal to the carbon heating wire to upper and lower woven plates centering on a bird to enable energization with one ends of the carbon heating wire; A conductive wire is provided so that the other ends of the carbon heating wires are in contact with the other end of the woven plate; Inserting and fixing insulating paper in the gap to block contact between the first and second conductive lines; One end of each of the first and second conductive wires of the upper and lower woven boards may be connected to an electrical lead terminal to allow the carbon heating wire to generate heat through the conductive wires.

The conductive wires provided at the other end of the woven plate are formed to have upper and lower woven plates having a gap in the same manner as the one end of the woven plate, and the other end of the carbon heating wire connected to the first conductive wire is arranged on the upper woven plate. The other end of the carbon heating wire connected to the third conductive wire and the second conductive wire is connected to the fourth conductive wire, and at the same time, there is further provided with an insulating paper and an electrical lead terminal for introducing electricity into the third and fourth conductive wires, respectively. It is characterized by.

The carbon heating wire is a carbon fiber is bundled in a plurality of branches to be woven together with the fiber yarn on the woven plate.

According to another aspect of the present invention, the conductive wires are woven together with a fiber yarn in the upper and lower woven boards centered on the gap of the woven board, the copper wires are bundled in a plurality of branches and the bundled copper wires are arranged in at least two or more lines. It is in.

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

2 or 3, according to the present invention, the fiber yarn has a string and the shape of a string, the woven plate 100 is tightly woven, and the woven plate 100 with the fiber yarn weave in the string direction or the file direction And the first and second conductive wires 300 and 320 that are woven to one end of the carbon heating wire 200 and the one end of the woven plate 100 so as to apply a current to each one end of the carbon heating wire 200. And, the conductive wire 400 is woven in the other end of the woven plate 100 in contact with the other ends of the carbon heating wire 200, and the first conductive wire 300 and the second conductive wire 320 And insulating paper 500 to be isolated and first and second lead terminals 600 and 620 to supply current to the first and second conductive wires 300 and 320.

The first and second lead terminals 600 and 620 are provided with lead wires connected to an electric supply device.

The weave plate 100 is a woven fiber fiber in the direction of the string and the woven line is woven so that the gap 120 of a predetermined width is formed at one end of both.

The carbon heating wire 200 is formed by agglomeration of carbon into a plurality of branches, and are arranged at equal intervals in the direction of a string or a blade with the fiber yarns on the woven plate 100.

The carbon heating wire 200 is a pair of parallel pairs of the carbon heating wire 200 is equally spaced and is patterned in one direction over the entire surface of the woven plate 100.

The first conductive wire 300 is woven onto the upper weave plate 140 based on the gap 120 provided on one side of the weave plate 100 to provide a current to one end of a pair of carbon heating wires 200. Will be supplied.

The second conductive wire 320 is woven into the lower weave plate 160 based on the gap 120 provided on one side of the weave plate 100, so that the second conductive wire 320 is at one end of the pair of carbon heating wires 200. Supply current.

The insulating paper 500 is provided in the gap 120 between the upper weave plate 140 and the lower weave plate 160 to supply power to the first and second conductive wires 300 and 320. It prevents electrical contact between them.

Referring to the weaving process and use state of the woven heating element configured as described above are as follows.

At the time of weaving, the carbon heating wire 200 is woven together with the fiber yarn so that the carbon heating wire 200 has the direction of the string or the cutting line and is equally spaced in parallel in a pair, and at the same time one end of the both ends, Weaving so that a predetermined gap 120 is formed in a direction orthogonal to the carbon heating wire 200. Continuously weaving the upper and lower woven plates 140 and 160 centered on the gap 120 so that the first and second conductive wires 300 and 320 as conductors are arranged, but the ends of the carbon heating wire 200 are arranged. Weave them in contact with each other. Subsequently, the conductive wire 400 in contact with the other end of the carbon heating wire 200 is also woven into the other end of the woven plate 100. After the insulating paper 500 is inserted into the one side gap 120, the first and second electrical lead terminals 600 and 620 are coupled to one end of each of the first and second conductive wires 300 and 320. do. When the insulating material is coated on both sides of the woven plate 100 in succession, the configuration is completed.

In use, the power may be applied to the first and second electrical lead terminals 600, 620. When the current is supplied to the first and second conductive wires 300 and 320 and simultaneously supplied to the carbon heating wire 200 connected to the first and second conductive wires 300 and 320, the woven plate is continuously Since the conductive wire 400 woven from the end portion of the tank 100 supplies current to the carbon heating wire 200, heat generated by the resistance is generated in the carbon heating wire 200.

4 is another embodiment of the present invention, the conductive wire 400 provided on the other end of the woven plate 100, the upper and lower woven plate having a gap 720, the same as the one end of the woven plate 100 ( 740, 760, and the other end of the carbon heating wire 200 connected to the first conductive wire 300 and the third conductive wire 420 arranged on the upper weave plate 740, and The other end of the carbon heating wire 200 connected to the second conductive wire 320 is connected to the fourth conductive wire 440, and at the same time, the insulating paper 800 and the third and fourth conductive wires 420 and 440 therebetween. The apparatus further includes electrical drawing terminals 900 and 920 for drawing electricity into each of the terminals.

This reduces the power consumption by moving the current quickly when the power is applied, and minimizes the generation of electromagnetic waves as well as even heat generation.

Therefore, the woven heating element according to the present invention has a carbon heating wire woven plate made of fiber yarn, the same length and the same interval in the string or blade direction in the direction of the string or a string, respectively, patterned in a plurality of pairs and the power supply of the carbon heating wire to form a pair By supplying the conductive wires in a crossover manner, there is an effect of maintaining a constant amount of heat generation as well as an electromagnetic shielding effect.

In addition, when the woven plate is made of a fiber material and a carbon heating wire which is a flexible material, there is no short circuit of the carbon heating wire even when folded or bent, so that it is easy to store and use.

1 is a perspective view of a state of use of a conventional woven heating element,

2 is a cutaway perspective view of the woven heating element according to the present invention;

3 is a cross-sectional view of the coupling state of FIG.

4 is a cross-sectional view of another embodiment according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: woven plate 120: gap

140: upper weave plate 160: lower weave plate

200: carbon heating wire 300: first conductive wire

320: second conductive line 400: conductive line

500: insulating paper 600: first incoming terminal

620: second incoming terminal

Claims (4)

In the weaving heating element to arrange the carbon heating wire on the woven board woven in the form of a string and a blade, so that power is supplied to the carbon heating wire through the inlet terminal, When weaving the woven plate, weaving such that a gap having a predetermined width is formed along a longitudinal direction at one end portion; The carbon heating wires are parallel to each other in a pair of carbon heating wires, and the plurality of patterns are patterned, and each end of one carbon heating wire constituting a pair extends to the upper woven board centering on the gap, and the other side of the carbon heating wire Each end is arranged to extend into the lower weave plate; Coupling first and second conductive wires which are respectively orthogonal to the carbon heating wires to upper and lower woven boards centering the gaps so as to conduct electricity with one ends of the carbon heating wires; A conductive wire is provided so that the other ends of the carbon heating wires are in contact with the other end of the woven plate; Inserting and fixing insulating paper in the gap to block contact between the first and second conductive lines; One end of each of the first and second conductive wires of the upper and lower woven plate is connected to an electrical lead terminal, so that the carbon heating wire is heat generated through the conductive wires. The method of claim 1, The conductive wires provided at the other end of the woven plate are formed to have upper and lower woven plates having a gap in the same manner as the one end of the woven plate, and the other end of the carbon heating wire connected to the first conductive wire is arranged on the upper woven plate. The other end of the carbon heating wire connected to the third conductive wire and the second conductive wire is connected to the fourth conductive wire, and at the same time, there is further provided with an insulating paper and an electrical lead terminal for introducing electricity into the third and fourth conductive wires, respectively. Weaving heating element characterized in that. The method according to claim 1 or 2, The carbon heating wire is a woven heating element, characterized in that the carbon fiber is bundled in a plurality of branches and woven together with the fiber yarn on the woven plate. The method according to claim 1 or 2, The conductive wire is a woven heating element, characterized in that the copper wire is bundled in a plurality of branches and the bundled copper wire is arranged in at least two or more lines and woven together with the fiber yarn on the upper and lower woven board centered on the gap of the woven board.