KR20180032795A - Woven Heating device having concentrated heating function - Google Patents

Abstract

The present invention relates to a woven heating element for improving heating efficiency by applying a concentrated heating method. According to the present invention, rapid heating can be early performed by forming a dense zone of carbon yarns by controlling the arrangement interval of the carbon yarns and continuous heating performance can be shown by propagating heat from the dense zone whose temperature is increased to the surroundings.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a woven heating device having concentrated heating,

The present invention relates to a weaving heating element, more specifically, a technique of making carbon fiber yarn densified in a specific region to enable early quick heating and to propagate heat to a surrounding area in a dense region where the temperature rises, Lt; / RTI >

The conventional heating system or heating system used in the conventional heating system can be an ondol system, a hot water circulation system, or an electric heater system. However, due to various problems such as installation difficulty, increase of maintenance cost, electromagnetic wave generation and indoor oxygen combustion There has been a growing demand for new methods of heating.

In order to improve the problems of the conventional heating system and to improve the power consumption efficiency, it is evaluated that it is beneficial to the human body through the sterilization, antibacterial and deodorizing functions as well as the heating function through the emission of far infrared ray (Or " fabric heating element ") is being actively studied.

As shown in FIG. 1, a conventional weave heating element uses a principle in which heat is generated when weaving is performed using plain yarn and carbon yarn and power is supplied to the carbon yarn through a conductive yarn.

At this time, in the conventional weave heating element, the carbon yarns form an equal interval over the entire region of the weave heating element. In this case, since the energy is dispersed in the entire heat generating area, there is a problem that it is difficult to raise the temperature at an early stage because the amount of heat generated per area is small.

On the other hand, Korean Patent Laid-Open No. 10-2006-0111228 (October 26, 2006, "Weaving yarn heating body") relates to a technique related to a weave heating body.

The present invention has been conceived to solve the problems of the prior art as described above, and it is an object of the present invention to provide a carbon fiber manufacturing method and a carbon fiber manufacturing method, So that heat can be continuously transmitted to the weft heating body.

In order to accomplish the above object, the present invention provides a weave heating body, which is woven using regular yarns and carbon yarns as weft yarns, and weaving the weft yarns at a predetermined interval, A heat generating section divided into zones; And a conductive part connected to the carbon yarns to allow current to flow through the carbon yarns of the heating part.

Here, when power is supplied to the carbon yarn through the conductive portion, rapid heating of the dense region of the carbon yarn occurs, and heat is transmitted to the dense region from the dense region where the temperature is increased, so that continuous heating can be performed.

According to the present invention, carbon yarns are densely gathered at specific point intervals in a heat generating portion formed by weaving with ordinary yarn and carbon yarn to weave the carbon yarn into dense regions and non-dense regions, The higher temperature can be propagated to the non-dense zone and the continuous heating performance can be expected.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view for explaining a conventional general weave heating element; FIG.
2 is a view for explaining a weave heating body according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, some configurations which are not related to the gist of the present invention may be omitted or compressed, but the configurations omitted are not necessarily those not necessary in the present invention, and they may be combined by a person having ordinary skill in the art to which the present invention belongs. .

2 is a view for explaining a weave heating body according to an embodiment of the present invention. 2, the weaving heating body according to the embodiment of the present invention includes a heating portion 20 where carbon yarns 22 are disposed to generate heat, and a conductive portion 30 that supplies current to the carbon yarn 22 do.

The heating unit 20 is formed by weaving the plain yarns 21 and the carbon yarns 22 in a weir while the plain yarns 21 are weaved. Here, the carbon yarns 22 are densely gathered and woven at a predetermined interval in the longitudinal direction. Accordingly, the heat generating portion 20 is divided into the dense zone 23 and the dense zone 24 of the carbon yarn 22.

The conductive portion 30 is connected to the carbon yarns 22 of the heat generating portion 20 to supply electric current to the carbon yarns 22. The conductive part 30 is formed by weaving a plurality of conductive yarns with weft yarns of regular yarns 21, which are arranged in a plurality of warp yarns and extend in the heat generating part 20. [ The conductive yarn of the conductive portion 30 can be a metal yarn made of a metal. For example, a copper wire is used as the metal wire.

Each of the conductive yarns constituting the inclination of the conductive portion 30 of the woven structure is made by twisting finer copper fine strands so that they are free to bend. Each of the copper wires constituting the inclination of the conductive portion 30 of the woven structure is brought into close contact with each other without making a gap with the copper wires adjacent to each other. Therefore, the copper lines of the conductive portion 30 are not separated from the entire single copper line, and all the copper lines are integrally connected. Copper lines constituting the inclination of the conductive portion 30 closely contact with each other to form a band structure having a predetermined width. The conductive parts 30 are connected to a power source and are formed of a positive electrode (+) or a negative electrode (-).

When power is supplied to the conductive portion 30 of the fabric heating element, current flows to the carbon yarns 22 to start generating heat and emit radiant heat. At this time, the carbon yarns 22 are concentrated at a specific point in the heat generating portion 20, that is, only at the dense portion 23 and not at the dense portion 24. Of course, the carbon yarn 22 may be arranged in the non-dense zone 24, but the carbon yarns 22 are not concentrated like the dense zone 23, Respectively.

When power is supplied to the carbon yarn 22 and heat generation is started, the density of the carbon yarns 22 is rapidly increased. That is, the initial high-speed heat is generated. Also, when the temperature rises rapidly in the dense zone 23, heat is propagated to the dense zone 24 around the dense zone 23.

As a result, it is more preferable that the carbon yarns 22 are concentrated and the densely-packed region 23 is formed as in the present invention, as compared with the conventional arrangement in which the carbon yarns are uniformly arranged at regular intervals. And the like.

As described above in detail, the weaving heating element according to the present invention is formed by densely weaving the carbon yarn 22 at a specific point interval in the heat generating portion 20 made of the general yarn 21 and the carbon yarn 22 The carbonaceous yarn 22 is divided into the dense zone 23 and the non-dense zone 24 so that the user feels the initial rapid heat generation and the increased temperature at the dense zone 23 Is propagated to the densified region (24), so that a constant warming effect can be expected.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And additions should be considered as falling within the scope of the claims of the present invention.

20:
21: General History
22: carbon fiber
23: dense area
24: Dense area
30:

Claims (2)

The carbon yarns are weaved at regular intervals and are weaved so that the carbon yarns are divided into a dense zone of carbon yarn and a confined zone of the carbon yarn; And
And a conductive part connected to the carbon yarns to flow a current to the carbon yarns of the heating part.
The method according to claim 1,
Wherein when the carbon yarn is supplied with power through the conductive portion, rapid heating of the dense region of the carbon yarn occurs, and heat is continuously transmitted to the non-dense region from the dense region where the temperature is increased. .

Images