KR20110010527A - Conductive textile paper and its manufacturing method - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a conductive textile paper and a method for manufacturing the same, and in particular, even when the conductive wire is woven together with the weaving yarn and / or the warp yarn, the conductive textile paper and the manufacturing method thereof can ensure stable insulation and prevent abrasion or damage. Is to provide.

In the present invention, the conductive woven paper is woven into the woven fabric body with the weaving and / or inclining the fiber yarn, at least one strand of the conductive wire including the woven weaving and / or inclined of the woven fabric body, the conductive wire is at least one strand The above protective yarn is formed in one bundle, characterized in that it comprises woven on the fiber yarn.

According to this, even if weaving the conductive wires with the weaving and / or inclined together with the fiber yarns, the conductive wires are not directly rubbed with the fiber yarns woven by the protective yarns, so that stable insulation can be secured, and no damage or abrasion occurs and durability is achieved. And safety is improved.

Conductive textile paper, protective yarn, conductive yarn, weft yarn, warp yarn

Description

Conductive textile paper and its manufacturing method {ELECTRIC CONDUCTION WOVEN FABRICS AND MANUFACTURING METHOD THREROF}

The present invention relates to a conductive textile paper and a method of manufacturing the same, and more particularly, a conductive textile paper that can ensure stable insulation and prevent wear or damage even when weaving the conductive wire in a weft and / or inclined together with the fiber yarn and It relates to a manufacturing method.

In general, fabrics such as knitted fabrics and woven fabrics used in the manufacture of garments and jewelry are manufactured by natural or synthetic fiber yarns, and their types are varied, and each has its own properties and properties. It is intended to perform a certain function in the state of being completed with clothing by having elasticity, etc.

However, as the industrial society is advanced and advanced, it is possible to apply electric current in addition to heat insulation, absorbency, and elasticity so that various electronic devices can be installed and used conveniently. Despite the thin thickness, they are looking forward to smart clothing that can be worn regardless of the season.

Accordingly, in the textile sector, various efforts and R & D activities have been carried out to satisfy the social demands and lead the future textile sector. Electronic clothing attached to the device has been developed to easily use the device.

The heat generating garment is configured to install a planar heating element made of carbon fiber yarn or heating wire such as copper wire in a pocket sewn or separately provided in the garment, and perform heat generation by using resistance heat by electric current supplied from the power supply. Since the heating element does not have elasticity, it can be limitedly installed only on the back part or the belly part of the human body that does not require relatively elasticity. As a result, it is limited to specific clothes such as fishing vests, which are not required to be relatively active, and cannot be applied to diving suits, work clothes, combat clothes, sports clothes, etc., which require activity because they cannot be sufficiently durable because they are not elastic. There is a situation.

The garment attached to the electronic device includes an electronic device, an operation button, and a power supply unit in the garment, and is manufactured by installing a conductive wire in the form of a cable for transmitting current and electric signals to the electronic device. However, such clothing attached to the electronic device has a bad feeling of wearing the clothes because the conductive wire is installed inside the clothing, it is very inconvenient to use because the conductive wire and the operation button, etc. installed in the clothing should be removed during washing, Since the conductive wires installed on the garments do not have elasticity, sufficient activity and durability could not be secured.

In addition, the conventional smart clothing, as described above, since the conductive wire for supplying power must be separately installed in the garment, it is encountered in fundamental problems such as difficulty in manufacturing, poor fit, and lack of activity, thus reaching the limit of development. Is in a state. In order to solve this problem, there may be a method of weaving together by supplying a conductive wire in a weft or warp when weaving fabric paper, which is a fabric for forming a garment, but friction in the process of weaving a conductive paper by weft or warp. As a result, the conductive line is easily damaged or broken.

In addition, the woven fabric including the conductive wire is easily damaged by the tensile force applied to the conductive wire interwoven with the fiber yarn when the wearer is active in the state of making the garment, and it is unable to secure stable insulation due to the damage of the insulating coating layer. There is a problem that the risk of leakage and the reliability of the heating function or operation of the electronic device is lowered.

In addition, as the conductive wire is exposed to the surface of the textile paper, there is a high risk of damage and a problem of causing skin troubles upon contact with the skin.

The present invention has been conceived to solve the conventional problems as described above, to ensure stable insulation even when weaving the conductive wire in the weft and / or inclined together with the fiber yarn, to prevent wear or damage to improve durability and safety It is an object of the present invention to provide a conductive textile paper and a method of manufacturing the same.

Another object of the present invention is to provide an electrically conductive textile paper and a method of manufacturing the same, which can ensure insulation and safety and at the same time expand and contract the tensile force to improve the wearing comfort and durability.

Conductive textile paper for achieving the object of the present invention as described above, in the conductive textile paper, weaving into a textile paper body with a weft and / or inclined fiber yarn, at least one strand of conductive in the weft and / or inclination of the fabric paper body Wire is included and woven, the conductive wire is characterized in that at least one strand or more of the protective yarn is formed in one bundle and woven on the fiber yarn.

Here, the protective yarn may be composed of a fiber yarn having a diameter larger than the diameter of the conductive wire.

The protective yarn may be disposed in contact with the conductive wire, and may be selected and configured in any one form among the left, right, up and down directions, and up, down, left and right directions.

The conductive wire, the core yarn located in the inner center; And it may include a conductive yarn wound in the form of a coil along the longitudinal direction on the outer peripheral surface of the central yarn.

In addition, the conductive wire is characterized in that it is configured to have elasticity.

The conductive wire, the center yarn is located in the inner center consisting of a flexible wire; And it may include a conductive yarn wound in the form of a coil along the longitudinal direction on the outer peripheral surface of the central yarn.

At this time, the conductive yarn may be composed of a plurality of strands, some strands are wound in a clockwise direction, the remaining strands may be wound in a counterclockwise direction.

The conductive wire may further include an outer skin layer formed by winding a fiber yarn on the outside of the conductive yarn.

The core yarn may be composed of a plurality of strands, and the conductive yarn may be wound alternately between the core yarns.

The conductive wire may be formed of a linear member by cutting any one of a conductive metal sheet, a woven paper coated with a conductive material, a film coated with a conductive material, and a conductive polymer film.

The textile paper body may be composed of at least one auxiliary yarn interwoven with warp and / or weft yarns among auxiliary yarns consisting of a light emitting line, an optical fiber, a shape memory alloy yarn, and a shape memory resin yarn.

The conductive wire may be arranged in a wavy structure along the longitudinal direction.

On the other hand, the protective yarn may be composed of a stretchable polymer yarn having a hollow portion therein.

Some of the weft yarn and / or the fiber yarn supplied to the warp yarn may be a stretchable polymer yarn.

On the other hand, the front and / or back of the fabric paper body is characterized in that at least one or more of the female Velcro fasteners having a plurality of hooks and a plurality of Velcro fasteners having a plurality of hooks are configured to have a predetermined distance along the length direction. It is done.

The male and female velcro fasteners may be formed of a conductive yarn and woven on the conductive wire to be electrically connected to each other.

The female and male velcro fasteners may be formed by the conductive wire that is supplied as weft and / or warp yarns during the weaving process of the textile paper.

The method for producing a conductive textile paper for achieving the object of the present invention as described above, in the manufacturing method of the textile paper weaving the textile paper by supplying the weft and warp yarns, at least one strand or more of the conductivity as the weft and / or warp The wire is further supplied, wherein the conductive wire is characterized in that to supply at least one strand of at least one protective yarn formed in a bundle.

In this case, the protective yarn may be implemented by a fiber yarn having a diameter larger than the diameter of the conductive wire.

The protective yarn is plyed to be in contact with the conductive wire, but may be woven in a fiber yarn supplied in the weft and warp yarns to be spun so that any one of the form arranged in the left, right, up and down, and up, down, left and right directions.

According to the conductive fabric paper according to the present invention and the manufacturing method according to the present invention, even if weaving the conductive wire in the weft and / or inclined with the fiber yarn, the conductive wire is not directly rubbed with the fiber yarn to be intertwined by the protective yarn to ensure stable insulation It is possible to do not cause damage or wear, and there is an effect of improving durability and safety.

In addition, when the conductive wire is configured to have elasticity, even if an external force is applied, the elastic wire is stretched without breaking, thereby improving durability. Further, when the conductive fabric is applied to a fabric such as clothing or jewelry, the wearing comfort may be improved. Can be. In particular, when the conductive textile paper according to the present invention is composed of heat-generating clothing or smart clothing, the risk of leakage is reduced, and the reliability of the heat-generating function and the operation of the electronic device is significantly improved, and the conductive wire is applied to the surface of the textile paper. Since it is not exposed, skin trouble can be prevented.

Best Mode for Carrying Out the Invention Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings, Figs. 1-9b, and like reference numerals designate like elements in Figs. Meanwhile, the drawings and detailed descriptions of configurations, operations, and effects that can be easily understood by those skilled in the art from general technology in each drawing are briefly or omitted, and are illustrated based on parts related to the present invention.

1 is a view showing the technical spirit of the conductive textile paper according to the present invention, Figure 2 is a perspective view for explaining the conductive textile paper according to the first embodiment of the present invention, the inclination of the fabric in the following embodiments Means a line arranged in the longitudinal direction of the weft means a line woven in a direction perpendicular to the inclination.

1 and 2, the conductive textile paper 1 according to the present invention refers to a natural fiber yarn or a synthetic fiber yarn (where the fiber yarn refers to a conventional fiber yarn in the form of a thread composed of a plurality of fine fiber tissues). And weaving into the weaving paper body 11 by supplying the weft thread 111 and the warp yarn 112 to the weaving paper body 11, wherein at least one strand or more conductive wires 12 are used as the weft and / or warp yarn of the paper body 11. We supply more and weave and configure.

At this time, the conductive wire 12 is characterized in that at least one strand of the protective yarn 13 is plied to form, supplied and woven in one bundle.

On the other hand, the conductive wire 12 may be composed of a metal wire such as copper, silver, gold, stainless steel, fibrous yarn, the conductive material is deposited, coated or plated, a preform formed of a conductive polymer, etc., the outer surface is an insulating coating layer Is formed.

In addition, the conductive wire 12 may be formed of a linear member by cutting any one of a conductive metal sheet, a woven paper coated with a conductive material, a film coated with a conductive material, and a conductive polymer film. At this time, the cutting width is preferably about 10 to 100 µm.

And, if the conductive wire 12 is conductive and at the same time having a thickness that can be woven by a weaving machine, a variety of wires can be selected and configured without limitation, in the present embodiment 10 / 1000mm in diameter with the current commercially available copper wire The thing of -40 / 1000mm is used. The copper clad wire is formed with an insulating coating layer of approximately 0.1 to 1 m.

The protective yarn 13 is characterized by being composed of fiber yarns having a diameter larger than the diameter of the conductive wire 12. In other words, the protective yarn 13 is formed by using a denier of fiber yarn (that is, 1 denier when the weight of the fiber yarn having a length of 9000 m is 1 g) larger than the diameter of the conductive wire 12.

Accordingly, the protective yarn 13 is composed of a fiber yarn having a diameter equal to or greater than the thickness of the selected copper wire when the conductive wire 12 is composed of one strand of copper wire, and the conductive wire 12 is constituted by weaving a plurality of strands of copper wire. In this case, a fiber yarn having a diameter of at least the entire thickness of the bundle is used.

3A to 3C are diagrams for explaining the arrangement of the protective yarn of the conductive textile paper according to the first embodiment of the present invention, in which the protective yarn 13 does not specifically indicate the fine fiber strands so as to be distinguished from the weft and the warp yarn. .

The protective yarn 13 is disposed in contact with the conductive wire 12, but is in close contact with the left and right sides of the conductive wire 12, as shown in Figure 3a. The protective yarn 14 configured as described above becomes a bundle together with the conductive wire 12, and when the pressing force by the fiber yarns supplied as weft or warp are alternately applied to the warp or weft in the process of weaving or weaving the conductive wire 12. It is pressed by the outer circumferential surface and is in close contact. Accordingly, since the conductive wire 12 is not directly in contact with the fiber yarn, it is possible to prevent damage due to contact in advance, and even if the fiber yarns 111 and 112 (weft and warp yarns) are stretched by the tensile force in the state of being made of woven paper, the frictional force is applied. Since this does not work, the conductive wire 12 is protected from damage, short circuit, and the like.

And, the protective yarn 13 is configured to be in close contact with each of the up and down direction side of the conductive wire rod 12, as shown in Figure 3b, or close to the top, bottom, left and right directions of the conductive wire rod 12, respectively as shown in Figure 3c Can be configured. In addition, the arrangement direction and the number of the protective yarn 13 can be applied in various modifications, such that the arrangement of the protective yarn can be changed depending on the weaving shape, weaving thickness, purpose of use, etc. of the woven paper, conductive weave In consideration of the type and shape of the woven paper (1), it is configured by selecting a suitable form that does not apply an external force to the conductive wire (12).

4 is a perspective view showing another example of the protective yarn applied to the conductive textile paper according to the first embodiment of the present invention, as shown therein, the protective yarn 13 has a structure in which a hollow part 131 is formed therein.

Preferably, the protective yarn 13 is composed of a stretchable polymer yarn to have elasticity. When the protective yarn is formed in the structure having the hollow portion 131 by the elastic polymer yarns as described above, even if the pressing force by the fiber yarns 111 and 112 interlaced with each other is applied, the conductive wire 12 shrinks and expands in the direction of the action of the external force. Blocking direct contact with the fiber yarn prevents damage to the conductive wire.

In addition, the hollow part 131 formed in the protective yarn 13 forms an air chamber therein, thereby providing a cushioning function to the fabric paper and absorbing it when an external force or impact is applied. In addition, the hollow portion 131 may perform a function of the insulation chamber to exert the insulation effect.

Meanwhile, the conductive textile paper 1 may further include an auxiliary yarn (not shown) that performs light emission, shape memory, light transfer, etc. as the weft 111 and / or the warp 112. For example, the assistant may include a light emitting line (not shown) configured to be turned on by an applied power source. The emission line may be configured by using organic EL (Electro Luminescence) or inorganic EL (Electro Luminescence). In addition, the auxiliary yarn may be composed of an optical fiber, a shape memory alloy company, and a shape memory resin, and the function of such an auxiliary yarn is general, and thus its detailed description is omitted.

In addition, briefly looking at the manufacturing method of the conductive textile paper according to the first embodiment described above, the manufacturing method of the conductive textile paper is a preparation step of preparing the weft 111 and the warp 112, which is the material for forming the textile paper body 11 It includes a weaving step of performing a weaving process using the prepared material, and a finishing step of performing a finishing operation on the conductive textile paper woven by the weaving step.

In the preparing step, the fiber yarn and the conductive wire 12 used as the weft 111 and the warp 112 are prepared by winding a feed roll (not shown, a thread winding failure or a carrier), and the feed roll is made of a conductive fabric paper. It is a step of fixing to the feed roll holder (not shown) provided on the thread supply side of the weaving machine to fit the weaving form.

The weaving step is a step that is automatically performed according to the operation of the weaving machine, and the fiber yarn wound on the supply roll is pulled and unwound to form a cotton fabric body 11, wherein the weft yarn and / Alternatively, at least one strand of the conductive wire 12 is further supplied as a warp. In addition, when the conductive wires 12 and the protective yarns 13 are provided in contact with the left, right, up, down, left, and right directions of the conductive wires 12, the conductive wires 12 and the protective yarn 13 form a bundle, so that the conductive wire 12 The weft or warp yarns 111 and 112 that are woven in the) side are not directly in contact with the conductive wire 12, but are woven in close contact with the protective yarns 13 disposed adjacent thereto.

In addition, since the protective yarn 13 is formed to have a larger diameter than the conductive wire 12, the weft and warp yarns 111 and 112 and the conductive wire 12 are woven together while being covered with the outer circumferential surface of the conductive wire 12 in the process of being woven together. ) Function to block the friction of each other.

5 is a view for explaining a conductive textile paper according to a second embodiment of the present invention. Hereinafter, specific types and structures of the fiber yarns and protective yarns 13 constituting the conductive textile paper according to the second embodiment may be similarly applied to those shown in the above-described first embodiment, and the detailed description thereof is omitted. do. The same reference numerals are given to the structures similar to those of the first embodiment.

Referring to Figure 5, the conductive textile paper according to the second embodiment of the present invention is supplied to the weaving yarn and the warp loom weaving into a textile paper body, at least one strand of conductive wire as a weft and / or warp of the fabric paper body (12) further provided, wherein the conductive wire 12 is formed in one bundle of at least one strand of protective yarn 13, and is woven in a form similar to that of the first embodiment described above. It is characterized in that it is configured to be.

To this end, some of the fiber yarn supplied to the weft 111 and the warp 112 is composed of a stretchable polymer yarn such as span yarn. For example, when the conductive textile paper 1 is intended to be stretched in the longitudinal direction, when the stretchable polymer yarns are arranged in the longitudinal direction, that is, a plurality of strands are inclined, the stretchable polymer yarns are stretched in the longitudinal direction. In addition, when the conductive textile paper is intended to be stretched in the longitudinal direction and the width direction, when the stretchable polymer yarns are arranged in a plurality of strands in the longitudinal direction and the width direction, that is, the warp and the weft yarns, the stretchable bidirectional fibers are stretched in both directions.

On the other hand, the conductive textile paper 1 should be formed of a structure having a stretchable conductive wire 12 is also provided with a weft or inclined to ensure a stable stretch. As a representative structure of the conductive wire rod 12 to satisfy this, as shown in an enlarged portion of FIG. 5, the conductive wire rod 12 is a conductive yarn 121 wound in a coil shape along the longitudinal direction, and the conductive yarn 121 is formed. It is made of a structure having a central yarn 122 disposed in the inner center of the.

6A to 6E are perspective views showing other examples of the conductive wire rod applied to the conductive textile paper according to the second embodiment of the present invention.

First, as shown in FIG. 6A, the conductive wire 12 includes a conductive yarn 121 wound in a coil shape along a longitudinal direction, and a central yarn 122 disposed at an inner center of the conductive yarn 121. The core yarn consists of flexible wire rods. For example, the core yarn may be composed of stretchable high-injection, such as span yarn. The conductive wire 12 having such a structure can be produced using a weaving machine called a loom. That is, when the center yarn 122 is supplied to be moved in the vertical direction of the loom, and at the same time, the center yarn 122 is operated so that the supply roll (carrier) in which the conductive yarn 121 is wound around the center yarn 122 is rotated. ), The conductive wire 12 of the form in which the conductive yarn 121 is wound can be obtained.

Meanwhile, the conductive wire illustrated in FIG. 6A may further include an outer skin layer (not shown) formed by winding a plurality of fiber yarns outside the conductive yarns. Since the sheath layer is protected by surrounding the outer circumferential surface of the conductive yarn, the conductive yarn can be protected from external impact or friction, and the insulation can be further improved.

As shown in FIG. 6B, the conductive wire 12 is formed by winding a plurality of conductive yarns 121 (a form in which two conductive yarns are wound for convenience in FIG. 6B) on the outer circumferential surface of the central yarn 122, but the conductive yarn Some strands of 121 may be wound in a clockwise direction and the remaining strands may be wound in a counterclockwise direction. As such, when the conductive yarn 121 is wound in the forward direction and the reverse direction, the core yarn 122 may be prevented from swinging in one direction during the winding process, so that a stable winding operation may be performed, and the conductive wire 12 may be in a state in which the winding operation is completed. ), There is an advantage that can prevent the twisting or loosening of the conductive yarn 121.

In addition, when two or more strands of conductive yarn 121 are wound around the central yarn 122, a conductive wire 12 having positive polarity (+) and negative polarity (−) may be obtained on one linear member.

Meanwhile, as shown in FIG. 6C, the conductive wire 12 includes a central yarn 122 and a conductive yarn 121 wound around the outer circumferential surface thereof, and the central yarn 122 is composed of a plurality of strands. The plurality of conductive yarns 121 are wound so as to be staggered (approximately eight characters) between the two.

In addition, the conductive wire 12 has a form in which two strands of conductive yarns 121 are woven together without having a central yarn as shown in FIG. 6D, or three or more conductive yarns 121 as shown in FIG. 6E. ) May be configured to be intertwined with each other in the form of a dendrite without having a center yarn.

FIG. 7 is a view for explaining the conductive textile paper according to the third embodiment of the present invention, wherein the fiber yarn, the protective yarn 13, and the conductive wire rod 12 constituting the conductive textile paper 1 according to the third embodiment. Specific types and structures are applicable similarly to the structures shown in the above-described first and second embodiments, and the detailed description thereof will be omitted.

Referring to FIG. 7, the conductive textile paper 1 according to the third embodiment of the present invention has at least one strand of at least one protective yarn 13 and the conductive wire 12 formed in a bundle so that the weft and / or ramp with the fiber yarn By supplying to the weaving machine, but woven into the woven body, the conductive wire 12 is characterized in that the woven to be arranged in a wavy structure along the longitudinal direction.

The conductive wire 12 is woven to have a plurality of bent portions 123 having a periodic wave structure along the longitudinal direction to have elasticity against external force (tensile force) acting in the longitudinal direction. In this case, the waveform may be configured by selecting from sin, sin, cosine, pulse, sawtooth, and U-shaped repeated up and down. In addition, the conductive wire 12 may be applied to those of the type shown in the first and second embodiments. At this time, the protective yarn 13 is comprised by the bundle so that it may become any form among the forms arrange | positioned at the left-right direction, the up-down direction, and the up-down left-right direction side of the conductive wire 12.

8 is a view for explaining a conductive fabric paper according to a fourth embodiment of the present invention, Figures 9a and 9b is a view for explaining a Velcro fastener is configured in a conductive fabric paper according to a fourth embodiment of the present invention, It is an enlarged view which simplified the main part. The specific types and structures of the fiber yarns 111 and 112 (weft warp yarns), the protective yarn 13, and the conductive wire rod 12 constituting the conductive textile paper 1 according to the fourth embodiment are the first and second described above. It can be applied similarly to the structure shown in the embodiment and a detailed description thereof will be omitted.

Referring to FIG. 8, in the conductive textile paper 1 according to the fourth embodiment of the present invention, the conductive wire 12 having one or more strands of protective yarn 13 in a bundle is supplied with weft and / or inclined together with the fiber yarn. It is composed of a cotton fabric body 11, the fabric body 11 is provided with a Velcro fastener 15 for binding at a position spaced at a predetermined distance along the longitudinal direction.

Velcro fastener 15 may be composed of a male Velcro fastener 151 having a plurality of hooks 151a, or a female Velcro fastener 152 having a plurality of hooks 152a, as is widely known as a binding means. . At this time, the Velcro fastener 15 may be formed on the front or back of the conductive textile paper 1, or alternately formed on the front and back.

The male velcro fastener 151 has a plurality of hook hooks 151a having a hook shape as shown in FIG. 9A, and is formed on the fabric support body 11. After weaving the ring-shaped hook body by using the wire rod 12, the cutting hook 151a is formed in such a manner that the cut portion 151b is formed through the cutting process.

The female velcro fastener 152 is a plurality of hooks 152a having a ring shape as shown in Figure 9b is formed in the fabric paper body, the formation process of the hook 152a is ring-shaped in the fabric paper body 11 It is formed by weaving to have.

In addition, the aforementioned male and female Velcro fasteners 152.151 may be woven to the textile paper body by a separate conductive yarn (not shown) to be woven with the conductive wire 12 to be electrically connected to each other. Thus, when the male and female Velcro fasteners (152.151) are made of conductive yarns, when the female and male Velcro fasteners are bound, they are electrically energized with each other. It can be easily applied.

On the other hand, the above-mentioned female and male Velcro fasteners (152.151) is the conductive wire 12 is supplied as a weft and / or inclined without separately supplying a conductive yarn for forming the hook or hook hook of the Velcro fastener in the weaving process of the fabric body ) Itself may be formed as a hook 151a or a hook 152a.

That is, when the female velcro fastener 152 is to be formed, the weaving of the conductive fabric paper is supplied by supplying the metal wire as the conductive wire 12 and setting the weaving program of the weaving machine so that the metal wire is woven in the form of a hook at the velcro fastener forming portion. And at the same time it is possible to form a female Velcro fastener having a plurality of hooks. And, in order to form a male velcro fastener 151, the metal wire is woven so as to be woven into the ring-shaped hook body, and then cut and formed so that the cutout 152b of the hook 151a is formed through a cutting process. Can be.

As described above, the conductive fabric paper according to a preferred embodiment of the present invention and a manufacturing method thereof are shown in accordance with the above description and drawings, which are just described for example and various within the scope without departing from the technical spirit of the present invention. It will be understood by those skilled in the art that variations and modifications are possible.

1 is a view showing the technical spirit of the conductive textile paper according to the present invention,

2 is a perspective view for explaining a conductive textile paper according to a first embodiment of the present invention;

3A to 3C are diagrams for explaining a protective yarn arrangement form of the conductive textile paper according to the first embodiment of the present invention;

4 is a perspective view showing another example of a protective yarn applied to a conductive textile paper according to a first embodiment of the present invention;

5 is a view for explaining a conductive textile paper according to a second embodiment of the present invention;

6A to 6E are perspective views showing other examples of the conductive wire rod applied to the conductive textile paper according to the second embodiment of the present invention;

7 is a view for explaining a conductive textile paper according to a third embodiment of the present invention;

8 is a view for explaining a conductive textile paper according to a fourth embodiment of the present invention;

9A and 9B are views for explaining a Velcro fastener formed on the conductive textile paper according to the fourth embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

1: conductive fabric paper 11: fabric paper

111: Weft 112: Slope

12: conductive wire rod 121: challenger

122: Central Examiner 13: Guardian

It is a Velcro fastener

Claims (20)

In conductive textile paper, Weaving the weaving paper body with the weft and / or warp yarns, At least one strand of conductive wire is included and woven in the weft and / or inclination of the textile paper body, The conductive wire is conductive fabric paper, characterized in that at least one strand of the protective yarn is formed in one bundle and woven on the fiber yarn. The method of claim 1, The protective yarn is a conductive textile paper, characterized in that the fiber yarn having a diameter larger than the diameter of the conductive wire. The method of claim 2, The protective yarn is disposed in contact with the conductive wire, conductive fabric paper, characterized in that selected in any one of the form arranged in the left, right, up and down, and up, down, left and right directions. The method of claim 1, The conductive wire, A central yarn located in the inner center; And Conductive fabric paper comprising a conductive yarn wound in the form of a coil along the longitudinal direction on the outer peripheral surface of the central yarn. The method of claim 1, The conductive wire is conductive fabric paper, characterized in that it is configured to have a stretch and a manufacturing method thereof. The method of claim 5, The conductive wire, A core yarn located in the inner center and composed of flexible wire rod; And Conductive fabric paper comprising a conductive yarn wound in the form of a coil along the longitudinal direction on the outer peripheral surface of the central yarn. The method of claim 6, The conductive yarn is composed of a plurality of strands, some strands are wound in a clockwise direction, the other strand is a conductive fabric paper, characterized in that wound in a counterclockwise direction. The method of claim 6, The conductive wire is a conductive fabric paper, characterized in that it further comprises an outer skin layer formed by winding a fiber yarn on the outside of the conductive yarn. The method of claim 6, The core is composed of a plurality of strands, And wherein the conductive yarn is wound alternately between the center yarns. The method of claim 2, The conductive wire is conductive fabric sheet, characterized in that formed of a linear member by cutting any one of a conductive metal thin plate, a conductive paper plated conductive material, a conductive material coated film, a conductive polymer film. The method of claim 2, The textile paper body is conductive textile paper, characterized in that at least one or more of the auxiliary yarns made of light-rays, optical fibers, shape memory alloy yarns, and shape memory resin yarns are woven with warp and / or weft yarn. The method of claim 2, The conductive wire is conductive textile paper, characterized in that weave arranged in a wavy structure along the longitudinal direction. The method of claim 3, The protective yarn conductive fabric paper, characterized in that consisting of a stretchable polymer yarn with a hollow portion formed therein. The method according to any one of claims 1 to 13, Conductive textile paper, characterized in that some of the weft and / or the fiber yarn supplied to the warp yarn is a stretchable polymer yarn. The method of claim 14, At least one of a female velcro fastener having a plurality of hooks and a plurality of velcro fasteners having a plurality of hooks is formed on the front and / or back of the fabric paper body to have a predetermined separation distance along its longitudinal direction. Conductive textile paper. The method of claim 15, The female and male Velcro fasteners are formed of conductive yarns, the conductive fabric paper characterized in that it is configured to be electrically connected to the conductive wire. The method of claim 15, The female and male velcro fasteners are formed by the conductive wire which is supplied as weft and / or warp yarn in the weaving process of the textile paper. In the manufacturing method of the woven fabric paper weaving into the woven paper by supplying the weaving yarn and warp yarn, Further supplying at least one strand of conductive wire as the weft and / or warp, The conductive wire is a method for producing a conductive textile paper, characterized in that for supplying at least one strand of at least one protective yarn formed in a bundle. The method of claim 18, The protective yarn is a method for producing a conductive textile paper, characterized in that the fiber yarn having a diameter larger than the diameter of the conductive wire. The method of claim 19, The protective yarn is plyed so as to contact the conductive wire, the plywood is twisted to form any one of the form arranged in the left, right, up, down, left and right directions, and is woven in the fiber yarn supplied in the weft and inclined. Conductive textile paper.

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