KR101954261B1 - Structure of fiber having conductive function - Google Patents

Abstract

The present invention relates to a fiber structure having a conductive function, which comprises a conductive fiber constituting a core of a multi-layered fiber structure and composed of a flexible conductive material and transmitting a current applied thereto; An insulating fiber which surrounds the outer circumferential surface of the conductive fiber with the conductive fiber as a center and which is made of an insulating material and blocks the current flow through the outer circumferential surface of the conductive fiber; And a twisted fiber that surrounds the outer circumferential surface of the insulating fiber and has an alternating structure of a heat insulating material and a color material.

Description

TECHNICAL FIELD [0001] The present invention relates to a fiber structure having a conductive function,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fibrous structure, and more particularly, to a fibrous structure having a conductive function.

In addition to the global oversupply, the textile industry is moving away from the conventional classical textile industry, and the demand for the development of high performance and high performance fiber material is increasing with the convergence with IT, NT, and BT technology along with the technical mega trend of wearable. However, it is a reality that the progress of domestic textile related technology has not been largely deviated from the classical style.

The related prior art patent is examined. Patent Document 1 (Registration No. 10-1140005) discloses a method of manufacturing a fabric using a reverse rotating device and a reverse rotating device of a loom. In Patent Document 1, a pair of inclined beams are provided in a conventional weaving machine, a reverse rotation device is provided to rotate one inclined beam in the opposite direction, and all the supplied warp yarns and curtain portions at the intersection of the supplied weft yarns are weighed The slant part is woven by the intersection of the weft yarn and the warp yarn, and the connecting part is formed by connecting the warp yarn supplied from the warp beam provided with the reverse rotating device to the warp yarn, And then the reversing device is operated to pull the connecting portion in the reverse rotation so as to constitute a fabric which is constructed integrally with the slat portion protruding with respect to the curtain portion of the planar structure so that the fabric is cut into a certain area, , Venetian blinds, roll blinds, roman shades, etc., or various kinds of bedding, curtains, etc. And to provide a textile material that can be used as a textile material.

Patent Document 2 discloses a weaving machine in which a stationary ring is coupled to an end portion of a bearing protruding through an opening of a cover, (load) to the stationary ring, thereby reducing wear on the bearing outer surface or the inner surface of the cover opening.

Patent Document 3 (Registration No. 10-1695135) discloses an apparatus for detecting warp defect in a loom. Patent Document 3 is directed to providing a warp defect detecting apparatus installed in a fabric weaving machine capable of easily detecting defects in warp with low investment cost and minimizing malfunction occurring during operation to improve the quality and productivity of the fabric, A wire connected to the first current input terminal and disposed on the inflow path of the tilt; and an engagement plate disposed at the rear of the wire with respect to the inflow direction of the tilt and connected to the second current input terminal, And is capable of stopping the operation of the weaving machine due to current flow when it is pushed rearward and brought into contact with the contact plate.

These prior art technologies are merely techniques for producing and fabricating classical fiber fabrics and fabrics that do not meet the technical trends of smart devices and wearable devices and wearable units.

Korean Patent No. 10-1140005 Korean Patent No. 10-1369304 Korean Patent No. 10-1695135

The fiber structure having a conductive function according to the present invention has been devised to solve the above-described conventional problems, and has the following problems to be solved.

First, we propose a fiber structure that can be converged with IT technology such as smart wearable device.

Second, we want to have a technical structure for not only a technical structure for convergence with IT technology but also aesthetic function.

Third, we want to have functionality such as insulation.

The solution of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

A fiber structure having a conductive function according to the present invention has the following problem solution to the above-mentioned problem to be solved.

A fiber structure having a conducting function according to the present invention comprises a conductive fiber constituting a core of a multi-layered fiber structure and made of a flexible conductive material and flowing an applied electric current; An insulating fiber that surrounds the outer circumferential surface of the conductive fiber with the conductive fiber as a center and that is made of an insulating material and blocks current flow through the outer circumferential surface of the conductive fiber; And a twisted fiber that surrounds the outer circumferential surface of the insulating fiber and has an alternating structure of a heat insulating material and a color material.

The conductive fiber of the fiber structure having the conductive function according to the present invention may include a conductive polymer resin to cause a current to flow through the conductive polymer resin.

The conductive polymer resin of the fiber structure having the conductive function according to the present invention may include a plurality of metal particles and lower the electrical resistance value of the conductive polymer resin through the plurality of metal particles .

The twisted fiber of the fiber structure having a conducting function according to the present invention is made of a transparent material and has a polygonal cross section and is provided with a colored dye therein and has a plurality of polygonal cross- Fiber; And a plurality of heat insulating fibers formed to cross the polygonal fibers and made of a heat insulating material.

The plurality of polygonal fibers of the fiber structure having the conductive function according to the present invention may have a triangular cross section and the triangular cross section of the transparent material may reflect the incident light by bending the incident light at a certain angle.

The fiber structure having the conductive function according to the present invention having the above-described structure provides the following effects.

First, the present invention provides a fiber capable of fabricating a smart wearable device mountable through a conductive fiber forming a core in a fiber structure having a multilayer structure.

Secondly, the outer shell of the conductive material is provided with an insulator so as to provide an effect that the conductive function of the conductive fiber is not hindered.

Third, the shell of the multi-layered structure has a polygonal fiber and a heat insulating fiber that provide three-dimensional visual aesthetics, thereby providing not only an aesthetic function through an optical function but also a function as a heat insulating functional material.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a partially exploded perspective view of a fabric structure having a conductive function according to an embodiment of the present invention.
2 is an enlarged view of a twisted fiber, which is a component of a fabric structure having a conducting function according to an embodiment of the present invention.
3 is a perspective view illustrating a polygonal fiber of a fabric structure having a conductive function according to an embodiment of the present invention.
4 is another embodiment of a conductive fiber which is a component of a fiber structure having a conductive function according to an embodiment of the present invention.

The fabric structure having the conductive function according to the present invention may have various modifications and various embodiments, and specific embodiments will be illustrated in the drawings and described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

1 is a partially exploded perspective view of a fabric structure having a conductive function according to an embodiment of the present invention. 2 is an enlarged view of a twisted fiber, which is a component of a fabric structure having a conducting function according to an embodiment of the present invention.

3 is a perspective view illustrating a polygonal fiber of a fabric structure having a conductive function according to an embodiment of the present invention. 4 is another embodiment of a conductive fiber which is a component of a fiber structure having a conductive function according to an embodiment of the present invention.

The fabric structure having the conductive function according to the present invention is formed by mounting smart wearable devices and transferring electric current to these mounted devices and interposing the fibers Organization.

As shown in FIG. 1, a fiber structure having a conductive function according to the present invention includes a conductive fiber 110, an insulating fiber 120, and a twisted fiber 130.

First, a fabric structure having a conductive function according to the present invention constitutes one fiber strand, and may be used to construct a fabric or may be used as a constitution of a thicker thread. Therefore, it is preferable that all the structures of the fiber structure having the conductive function according to the present invention are made of a flexible material.

The fiber structure having the conducting function according to the present invention is a multi-layered fiber structure. Conductive fiber 110 forms the core of the multi-layered fiber structure.

The conductive fiber 110 is made of a flexible conductive material, and allows the current to be externally applied through the conductive fiber 110.

The insulating fiber 120 is also made of a flexible material so that the fiber structure 100 can be used as a structure of other threads or made of a single fiber strand forming a fabric.

As shown in FIG. 1, the insulating fiber 120 is formed to surround the outer circumferential surface of the conductive fiber 110 with the conductive fiber 110 as a center. That is, the insulating fiber 120 serves as an outer covering of the conductive fiber 110.

The insulating fiber 120 physically protects the outer circumferential surface of the conductive fiber 110 as the outer surface of the conductive fiber 110 and blocks the flow of current flowing through the outer circumferential surface of the conductive fiber 110, Thereby imparting a uniformity to the electrical resistance and the current flow.

The twisted fiber 130 is also preferably made of a flexible material for the same reason.

1 and 2, the twisted fiber 130 is configured to surround the outer circumferential surface of the insulating fiber 120. As shown in FIG.

The twisted fibers 130 are formed by winding the outer circumferential surfaces of the insulating fibers 120 while mutually intersecting the two materials. The detailed shape of the twisted fibers is the same as that shown in FIG.

As shown in FIG. 2, when observed under a microscope of 100 micrometers, two kinds of tissues cross each other. One is that the outer circumferential surface of the insulating fiber 120 is wound to the left, and the plurality of fibers and the other is a plurality of fibers traveling in the longitudinal direction while winding the outer peripheral surface of the insulating fiber 120 to the right.

The insulating fiber 120 is wound on the outer circumferential surface of the insulating fiber 120 in the longitudinal direction of the insulating fiber 120 while being wound to the left and the outer circumferential surface of the insulating fiber 120 is wound to the right, It is preferable that the material is made of a heat insulating material and a color material (and vice versa) in the longitudinal direction.

In the case of the conductive fiber 120, as shown in FIG. 4, it is made of the conductive polymer resin 111, and the electric current as described above is caused to flow through the conductive polymer resin 111.

In the case of the conductive polymer resin (111), it has a conductive function by delocalization of (-) - electron density by having a conjugation structure in which C-C bonds and C═C bonds are alternately present.

In the case of the conductive polymer resin constituting the conductive fiber 110, which is a constitution of the present invention, the amount of charge can be controlled through a doping process, and it is preferable that the electrical property is controlled through the doping process.

Representative examples of the conductive polymer resin 111 include polyacetylene, polypyrrole, polythiophene, poly (3,4-ethylene dioxythiophene) (PEDOT), and polyaniline.

In the case of the conductive polymer resin (111), it is preferable to use PEDOT: PSS which enhances doping and dispersion stability by using an ionic electrolyte called PSS in the process of polymerizing PEDOT.

As shown in FIG. 4, the conductive polymer resin 111 may include a plurality of metal particles 112 for the purpose of increasing its electrical properties.

An increase in the density of the metal particles 112 contained in the conductive polymer resin 111 has the advantage of lowering the electrical resistance value but the flexible function of the conductive fiber 110 can be canceled as the metal particles 112 increase Therefore, the person who intends to practice the present invention should appropriately adjust the density of the metal particles 112 to the conductive polymer resin 111 in accordance with the application and purpose of the present invention.

The twisted fiber 130 may include a plurality of polygonal fibers 131 and a plurality of the heat insulating fibers 132 in the fiber structure having the conducting function according to the present invention.

The plurality of polygonal fibers 131 are made of a flexible and transparent material.

Each of the polygonal fibers 131 has a polygonal shape at its ends and has a colored dye therein to wrap the outer circumferential surface of the insulating fiber 120 in the longitudinal direction of the insulating fiber 120.

In another embodiment, the polygonal fiber 131 is preferably triangular in cross section (see FIG. 3).

When the polygonal fiber 131 has a polygonal or preferably triangular cross section, due to this polygonal cross section of the polygonal fiber 131 constituting a part of the outer surface of the fiber structure 100, Refracts the incoming light, reflects the refracted light to the outside at various angles, and has an optical function that causes the saturation and brightness of the dye to be different depending on the visible position.

In the case of the heat insulating fiber 132, as shown in FIG. 2, it is composed of a plurality of things in a direction intersecting with the polygonal fiber 131.

In the case of the heat insulating fiber 132, the insulating fiber 120 is wound in the longitudinal direction of the insulating fiber 120 by winding the outer circumferential surface of the insulating fiber 120 as described above.

The heat insulating fiber 132 has an adiabatic characteristic to reinforce the heat insulating function of the fiber structure 100 and complements the high thermal conductivity due to the conductive fiber 110 as the conductive material.

The heat insulating fiber 132 and the polygonal fiber 131 are also made of a flexible material so that even when the fiber structure 100 is formed of a bundle of fibers or used as a fabric material, the flexibility as a fiber bundle and the flexibility as a fabric property So that it can survive as it is.

It is preferable that the heat insulating fibers 132 and the polygonal fibers 131 are laminated by ultrasonic bonding to each other. For this purpose, these materials are preferably made of a material such as polypropylene (PP), polyethylene terephthalate (PET) . When ultrasonic fusers are approached in a mutually intersected state and ultrasonic waves are applied, the materials in these mutually intersected regions cause mutual fine surface protrusions to be heated quickly. The ultrasonic welder allows the fine surface protrusions to concentrate the stress more than other portions and consumes most of the large strain and vibration energy so that the fine surface protrusions are melted and fused around the portions .

The scope of the present invention is defined by the claims, the parentheses used in the claims are not used for optional limitation but are used for the definite components and the description in parentheses is also interpreted as an essential component .

100: Fiber structure with conduction function
110: Conductive fiber
111: conductive polymer resin
112: metal particles
120: Insulation fiber
130: Twisted fiber
131: multiple fiber
132: Adiabatic fiber

Claims (5)

A conductive fiber constituting a core of a multi-layered fiber structure and made of a flexible conductive material so that an applied current flows;
An insulating fiber that surrounds the outer circumferential surface of the conductive fiber with the conductive fiber as a center and that is made of an insulating material and blocks current flow through the outer circumferential surface of the conductive fiber;
And a twisted fiber that surrounds the outer circumferential surface of the insulating fiber and has an alternating structure of a heat insulating material and a color material,
Wherein the conductive fiber comprises:
Conductive polymer resin and causes a current to flow through the conductive polymer resin,
The conductive polymer resin may contain,
A plurality of metal particles contained in the plurality of metal particles to lower the electrical resistance value of the conductive polymer resin through the plurality of metal particles,
Wherein the twisted fiber comprises a plurality of polygonal fibers made of a transparent material and having a polygonal cross section and having colored dyes therein and surrounding the outer circumferential surface of the insulating fiber with a winding; And
And a plurality of heat insulating fibers formed of a heat insulating material, each of the heat insulating fibers being formed to intersect the plurality of polygonal fibers and to wind the outer peripheral surface of the insulating fiber,
Wherein the plurality of polygonal fibers are formed by:
Wherein the triangular cross-section of the transparent material reflects and refracts incoming light in multiple angles. delete delete delete delete

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