KR20130005578U - Carbon Fiber Texture with resistance value of carbon fiber - Google Patents

Abstract

The present invention relates to a carbon heating woven body having a resistance range of carbon yarns, and in a carbon heating woven body having a resistance range of carbon yarns according to a used voltage and an electric wire spacing, the carbon heating woven body includes a plurality of warp yarns and a plurality of warp yarns. The weft yarn is made of a woven fabric to occupy a certain width and a certain area with the weft yarn, wherein the weft yarn is disposed spaced one by one and has a certain width at a vertically inclined position where the weft yarn meets the vertically facing carbon fiber. To, but opposite to each other on the front and rear surfaces of the carbon heat generating weave includes a wire fixedly arranged to overlap and cover the predetermined width portion, characterized in that the plurality of wires are spaced apart.

Description

Carbon fiber texture with carbon fiber woven fabric having a resistance range of carbon yarns

The present invention relates to an exothermic carbon fiber woven fabric having a resistance value range of carbon yarn, and more particularly, in a woven fiber body interwoven with warp and weft yarns, the woven fiber body usually has a high density (or many) warp yarns. The present invention relates to a carbon heating exothermic fabric having a resistance value range of carbon yarns depending on the use voltage and the wire spacing to provide an appropriate range of heating fabric according to the resistance of the carbon fiber by varying the spacing of the overlapping wires.

Woven paper or woven fabric consists of warp and weft yarns. Weaving bodies may be classified as plain weave, depending on the weaving method. General terms will be described below. In a woven fabric produced by weft and warp crosses each other, the warp yarn is a thread forming the blade of the woven fabric, also called a warp yarn, and is a thread that is vertically stretched at regular intervals. Weft, for example, is a thread that weaves horizontally when weaving cloth with a loom, and creates a pattern. to be. In other words, in the loom, the yarn in the transverse direction is a weft yarn or warp yarn, and the yarn in the longitudinal direction is a warp yarn or weft yarn.

On the other hand, in general, the electric heating element provides heat energy for heating or keeping warm by using heat generated when a current flows to a conductor having a predetermined size of resistance. It has the advantage that noise does not occur due to operation.

Therefore, the electric heating element is widely used throughout the daily life, such as beddings such as bed mattresses and thermal blankets, clothing such as a warming vest, indoor heating and steamer, cold protection, leisure, anti-fog, health care .

According to the prior art in this field, according to the carbon fiber heating woven fabric of the Republic of Korea Patent Registration No. 10-1013069 (registration date January 28, 2011), heating vests and heating bedding having the same, in the form of thick heating wire or wire It is not provided, but is provided in the form of a kind of woven fabric, which can be mass-produced and easily applied to clothes or bedding, and the carbon fibers are evenly distributed over the entire surface of the heating fabric, and are corroded by strong tensile force or water acting upon washing. Disclosed is a carbon fiber heating woven body, a heating vest having the same, and a heating bedding.

However, the heat generating woven fabric as described above is difficult to control the resistance of the heat generating woven fabric as the connection between the heating element and the wire as a whole, the heat generation time takes a lot from the beginning, the local heating does not occur, the heat generating woven body Since the control of the resistance is not calculated, there is a problem that the consumption of the battery is inefficiently consumed.

An object of the present invention is proposed to improve the problems in the prior art as described above, by manufacturing the heating woven fabric by adjusting the distance of the wires connected to the carbon fiber yarn to adjust the resistance value to constant and different heat consumption The present invention provides an exothermic carbon fiber woven fabric having a resistance range of a new type of carbon that can regulate power.

Another object of the present invention is to provide a heating carbon fiber woven fabric having a resistance value range of a new type of carbon yarn that can be easily adjusted and controlled by separating the heating fabric into a plurality of pieces and connecting them in parallel. .

According to a preferred embodiment of the present invention for achieving the object as described above,

Exothermic carbon fiber woven fabric with a carbon fiber resistance range

In the carbon heating woven body having a resistance value range of the carbon yarn according to the voltage used and the wire spacing,

The carbon heating woven body is made of a woven fabric woven so as to occupy a certain width and a certain area with a plurality of warp yarns and a plurality of weft yarns,

The weft yarn is arranged spaced one by one, the carbon fiber that generates heat when energized,

It has a predetermined width in a vertically meeting inclined position to meet the weft yarn, and includes a wire that is fixed to overlap the cover and the predetermined width portion while facing each other on the front and back of the carbon heat generating weave,

The wire is characterized in that a plurality of spaced apart.

Preferably,

The spacing between the plurality of spaced apart wires and the wire is characterized in that the same.

Also preferably,

The spacing between the plurality of spaced apart wires and the wire is characterized in that different.

Also preferably,

The spacing between the plurality of spaced apart wires and the wire is characterized in that the one having the same interval and the other having a different interval alternately arranged.

Also preferably,

The fabric obtained by the wire and the distance between the wires can calculate the power consumption according to the wire spacing and the unit area of the fabric formed by the wire, according to the voltage, current, resistance value / unit area, number of heat generation / unit Characterized in that the relationship with the area can be known.

According to the carbon heating fiber woven fabric having a resistance value range of the carbon yarn according to the present invention as described above, when manufacturing the carbon fiber heating woven fabric by adjusting the interval of the wire connected to the carbon fiber yarn to adjust the resistance value to a constant and different By doing so, it is possible to control and control the heating power consumption.

In addition, by separating the carbon fiber heating fabric into a plurality of pieces in parallel with each other there is an effect that can easily control the resistance control.

1 is a plan view showing an example of a carbon heating fiber woven body according to the present invention.
Figure 2 is a plan view showing another example of a carbon heating fiber woven body according to the present invention.
Figure 3 is a plan view showing another example of a carbon heating fiber woven body according to the present invention.
4 is a plan view showing an example of a product to which the carbon heating fiber woven body according to the present invention is applied.
5 is a plan view showing another example of a product to which the carbon heating fiber woven body according to the present invention is applied.
6 and 7 are a plan view showing another example of a product to which the carbon heating fiber woven body according to the present invention is applied.

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

Referring to Figure, the carbon heating fiber woven body according to the present invention

In the carbon heating woven body having a resistance value range of the carbon yarn according to the voltage used and the wire spacing,

The carbon heating woven body is made of a woven fabric woven so as to occupy a certain width and a certain area with a plurality of warp yarns and a plurality of weft yarns,

The weft yarns are arranged spaced one by one, carbon fiber (or carbon heating yarn) that generates heat when energized,

It has a predetermined width in a vertically meeting inclined position to meet the weft yarn, and includes a wire that is fixed to overlap the cover and the predetermined width portion while facing each other on the front and back of the carbon heat generating weave,

The wire is characterized in that a plurality of spaced apart.

The inclination is alternately arranged between the normal chamber and the carbon heating company, and the wires are arranged at regular intervals among the weft yarns.

The wire has a certain width, it is made of a conductive material having a certain width, the wire may be manufactured in a woven form as shown in Figure 1,

One wire having a predetermined width may be fixedly disposed on the front and rear surfaces of the woven fabric to be in contact with each other while covering the carbon fiber and the general chamber.

The spacing between the plurality of spaced apart wires and the wires may be the same or different from each other, two or three consecutive intervals in the same form in a mixed form and one may be arranged in a wider interval. The arrangement of the wires having different distances from each other is one of the key technical features of the present invention, which is as shown in Table 1 through the arrangement of the wires between the wires obtained by the distance between the wires and the wires. It is possible to calculate the power consumption according to the unit area of the fabric formed by the wires and wires, and the relationship between the voltage, current, resistance value / unit area, and number of heat generation unit / unit area can be known.

The user can cut and use the carbon heat-generating fabric which has the wires with the proper interval according to the voltage requirement (battery size). In use, connect the wire between the battery and the battery at one end of the wire with the connecting wire and solder it at the wire connecting part so that DC electricity can flow. In this way, when the electricity is passed (a pair of wires connected to each other), the heating fiber woven body heats for a predetermined time, the temperature rises, and maintains the heating state.

Referring to Table 1, the table shows the results of the experiment by actually testing the relationship between voltage, wire spacing, wire width, unit area, power consumption / unit area, current, resistance value / unit area, and heat generation number / unit area. .

For example, the voltage was tested when the direct current of 5V, 7.4V, 12V and 24V. This is based on current commercial batteries (batteries). Numerical values outside the above voltage range may be inferred.

As shown in the table, each figure shows that it can be applied variously by applying current commercially available batteries, and as many carbon fiber fabrics can be inferred by varying wire spacing or inferring the voltage and resistance according to the table. Can be used to cut objects. In addition, the cut carbon fiber fabrics are connected in parallel to each other (one single weave is connected in series so that the set resistance is fixed) so that the desired values, for example, power consumption and resistance, are matched. It can be arranged in the order form to use a heating fiber woven body.

On the other hand, according to the present invention, the wide wire spacing is a wide variation in the thermal conductivity it can be seen that it should be applied to products that are not sensitive to the purpose. Therefore, the heating fiber woven fabric according to the present invention may be used by setting an appropriate value in Table 1 because different resistance values according to heat conduction are arranged in a table.

Meanwhile, in the present invention, the connecting wire of the battery and the wire of the woven body are connected by soldering, and this part is processed so that the silicon hot melt does not fall off, and the circumferential part of the cut woven body is wrapped with tape, but the whole of the woven body The entire covering of the waterproof cloth and the high-frequency heat treatment (instead of the silicone tape) by pressing the sealing and waterproofing, and then the process of sewing on the fabric endothelium may be added.

That is, the wire according to the present invention is a plurality of strands are woven in the form of woven or twill weave, but instead of this method can be fixed by placing on the front and back of the woven fabric directly woven in the form of warp and weft in the form of a plate. Of course, it is possible to finish again by sealing with another coating agent in front and back of the woven body again.

Referring to Figure 4, as showing an example of the product to which the carbon heating woven body of the present invention is applied,

Carbon heating weave

A plurality of wires 42-1, 42-2, 42-3, 42-4, 42-5 are arranged at regular intervals. The electric wire is connected to the battery (not shown) through the jack through the wire cord (52-1, 52-2, 54-1, 54-2), the DC power supply by the operation of the switch (on / off) provided in the battery It is operated by receiving. Some of the plurality of wires (42-1,42-2,42-3)

Are spaced apart from each other, and the distance between the wires 42-3 and 42-4 is different. In this way, the heat generation time and the total heat amount (power) at different intervals are different. The capacity of the battery used by the manufacturer should be a carbon fiber heating woven fabric with appropriately spaced wires depending on the area where heating is required. Reference numeral 62 is a local heating product incorporating such a carbon fiber heating fabric.

Referring to FIG. 5, a plurality of fragmented carbon fiber heating woven fabrics applied in a blanket of a large area are arranged in parallel. The plurality of heating woven fabrics 220 have the same wire spacing and generate the same amount of power when a DC power is supplied. The manufacturer controls the supply of power to the battery (not shown) through the operation switch 530 by connecting the wires of several carbon fiber heating woven body 220 in parallel through the wire cord 520.

Referring to Figure 6, the carbon fiber heating woven fabric pieces of the present invention are connected to each other by a wire can be seen a structure in which the wire cord (72, 74, 82, 84, 92) is soldered in part. Since the spacing between the wires 61-1 and 61-2, the spacing between the wires 62-1 and 62-2, and the spacing between the wires 63-1 and 63-2 are the same and similar in size, the amount of heat generated is almost the same. Similarly, the manufacturer calculates the amount of power consumed in advance and cuts it accordingly. This is an example of the arrangement of the heating vest on the shoulder. The carbon fiber heating woven fabric disposed in this way may be subjected to high frequency welding on a fabric paper 720 (heating vest inner fabric, the base portion where the carbon fiber heating woven fabric is arranged in the drawing) on which the front and rear surfaces are previously covered by a sealing material. (Sealing for sealing and adhesion to reduce the thickness of the fibers).

Referring to FIG. 7, as shown in FIG. 6, the carbon fiber heating fabric pieces are connected to each other by wires, and the wire cords 512, 514, 522, and 524 are soldered in part. Since the wire spacing of carbon fiber heating woven fabrics (310, 320, 330) of the three pieces are all the same and similar in size, the heating power is almost similar, so the manufacturer calculates the power consumption of the pre-required matters and cut and arrange them accordingly. It is an example of the appearance placed on the shoulder of the heating vest. The carbon fiber heating woven fabric disposed in this way is fixed with tape to the endothelial member 350 (heating vest inner fabric, the base portion where the carbon fiber heating woven fabric is arranged in the drawing) after the rim is covered by silicone tape. do. Reference numerals 412 and 422 denote wire cords connected to the wires, and are then connected to a battery (not shown) to be supplied with DC power from the battery to generate heat. The fabric is then sewn, placed, or secured to the fabric base on which the fabric is based, to complete the finished product.

11 (11-1,11-2,11-3,11-4): Electric wire
4: carbon fiber yarn
5,6: general room (bevel, weft)

Claims (5)

In the carbon heating woven body having a resistance value range of the carbon yarn according to the voltage used and the wire spacing,
The carbon heating woven body is made of a woven fabric woven so as to occupy a certain width and a certain area with a plurality of warp yarns and a plurality of weft yarns,
The weft yarn is arranged spaced one by one, the carbon fiber that generates heat when energized,
It has a predetermined width in a vertically meeting inclined position to meet the weft yarn, and includes a wire that is fixed to overlap the cover and the predetermined width portion while facing each other on the front and back of the carbon heat generating weave,
The wire is a carbon heating woven body having a resistance value range of the carbon yarn, characterized in that a plurality of spaced apart.
The method of claim 1,
Carbon spacing woven fabric having a resistance value range of the carbon yarn, characterized in that the spacing between the plurality of spaced spaced wires and the same wire.
The method of claim 1,
Carbon spacing woven fabric having a resistance value range of the carbon yarn, characterized in that the spacing between the plurality of spaced apart wires and the wires are different from each other.
The method of claim 1,
The spacing between the plurality of spaced wires and wires is a carbon heating woven fabric having a resistance value range of carbon yarns, characterized in that arranged alternately having the same spacing with each other.
The method of claim 1,
The fabric obtained by the wire and the distance between the wires can calculate the power consumption according to the wire spacing and the unit area of the fabric formed by the wire, according to the voltage, current, resistance value / unit area, number of heat generation / unit Carbon heat-generating woven fabric having a carbon steel resistance value range, characterized in that the relationship with the area.

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