KR20100069530A - Electric conduction pad - Google Patents

Abstract

PURPOSE: A conductive pad is provided to manufacture a planar heating element with the elasticity or planar conductive body by using a conductive wire rod which does not have the elasticity. CONSTITUTION: A conductive pad(200) comprises a plurality of elasticity wires(210), a conductive wire rod(220), and a protection fiber yarn(230). A plurality of elasticity wires are arranged along the longitudinal direction. The conductive wire rod is woven with a plurality of elasticity wires in a zigzag pattern. The conductive wire rod is a power supply line or a heating line. The protection fiber yarn is woven with a plurality of elasticity wires in a zigzag pattern. The outer diameter of the protection fiber yarn is greater than the outer diameter of the conductive wire rod.

Description

Conductive Pad {ELECTRIC CONDUCTION PAD}

The present invention relates to a conductive pad, and more particularly, to a conductive pad having improved durability and strength by using a conductive wire having no elasticity to have elasticity when the external force is applied and to prevent wear and damage. .

In general, fabrics such as knitted fabrics and woven fabrics used in the manufacture of garments and jewelry are manufactured by natural or artificial fiber yarns, and their types are diverse and each have their own properties and properties, but they are generally warm and absorbent. 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, modern people are demanding clothing which has a new function in addition to the warmth that can prevent the cold, the elasticity that ensures sufficient activity, and the absorbency that can absorb sweat as before. .

In other words, it is possible to apply electric current to various kinds of electronic devices in clothes so that they can be conveniently used.The clothes themselves generate heat or cool, so they can be worn lightly and thinly regardless of season. I'm looking forward to it.

Accordingly, in the textile field, various efforts and R & D activities are performed to satisfy the social demands and lead the future textile field, and some smart clothing products are commercialized and sold as the representative research results.

Representative forms of smart clothing, for example, heat clothing such as heating vests that are widely used for leisure, etc., and electronic device-attached clothing to easily use electronic devices such as MP3.

The heat generating garment is configured to install a planar heating element composed of carbon fiber yarn or copper wire using heating wire in a pocket sewn or separately provided in the garment, and perform heat generation by using resistance heat by current supplied from a power supply unit.

However, since the heating element has no elasticity, the heat generating garments 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.

And, the clothing attached to the electronic device is configured to be detachable to the sleeve portion of the garment by configuring the operation button of the electronic device on the Velcro fastener, and to transmit current and electric signals to the operation button, the power supply, and the electronic device inside the garment. It is manufactured in the form of providing a conductive wire.

However, such clothing attached to the electronic device has a disadvantage that it is very inconvenient to use because the conductive wire is installed inside the garment, so the wearing feeling of the garment is poor, and the conductive wire and the operation button installed inside the garment must be removed during washing. Has In addition, since the conductive wires installed on the garments do not have elasticity, sufficient activity and durability cannot be secured, and thus, only the test garments and sample garments are developed and are not actually worn.

Accordingly, the present applicant has a pad 110 formed in a planar shape to have elasticity as shown in Korean Patent Application No. 10-2008-0050545 and a zigzag on the pad 110 as a solution to the above-mentioned problems. It has been proposed a conductive pad including at least one conductive wire rod 120 disposed in a form.

The conductive pads may be formed of a planar heating element or planar conductor having elasticity by using a conductive wire having conductivity but not elasticity, such as carbon fiber yarn or copper wire, and thus, smart clothing requiring activity If it is configured in a heating device, etc., sufficient activity can be expected.

However, when the above-described conductive pad is used as a material for transmitting current or electric signal by applying to the smart clothing, when the wearer of the smart clothing is active, the conductive pad portion is repeatedly contacted and rubbed with the skin or an external object, so that it is used for a long time. The coating layer of the conductive wire is worn or damaged.

As such, when the conductive wire is damaged, the electronic devices provided in the smart clothes are not operated smoothly due to disconnection, and in severe cases, the wearer may suffer an electric shock or a fatal injury due to a fire due to a short circuit. Have.

In addition, the aforementioned conductive pads are more easily damaged when applied to articles such as sleeves of garments that are frequently in contact with external objects or items such as heat-gloves having high friction during use, and thus, sufficient durability and safety cannot be obtained.

The present invention has been conceived to solve the conventional problems as described above, by using a conductive wire that does not have elasticity to have elasticity when the action of the external force and at the same time to prevent wear or damage conductive and improved durability and strength The purpose is to provide a pad.

A conductive pad for achieving the object of the present invention as described above, the conductive pad is formed in a strip shape, a plurality of stretchable wire rods disposed along the longitudinal direction; At least one conductive wire rod woven in a zigzag form to the stretchable wire rod; And it characterized in that it comprises a protective fiber yarn woven in the elastic wire to be arranged in a zigzag form in contact with the conductive wire.

The conductive wire may be composed of at least one of a power supply line for energizing the power supplied, and a heating line that generates heat by the supplied power.

The elastic wire rod is woven with the weft yarn in an inclined manner and consists of a band-shaped band body, and may be supplied together with the conductive wire rod and the protective fiber yarn during the formation of the band body.

The band body may be formed with holes at predetermined intervals along the longitudinal direction.

The band body includes a wide width portion and a plurality of narrow width portions branched from the wide portion, and the width portion includes at least one of the at least one conductive wire and the protective fiber yarn. The conductive wire and the protective fiber yarn in a quantity corresponding to the quantity of the narrow portion may be provided.

The conductive pad may include an upper pad part formed in a band form by the plurality of stretchable wires, the conductive wires, and the protective fiber yarns; A lower pad part spaced apart from the upper pad part and formed in parallel in a band form by the plurality of flexible wires, the conductive wires, and the reinforcing fiber yarns; And an elastic connecting part connected between the upper pad part and the lower pad part by a linear member having elasticity.

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

The conductive pad may be formed with an extension pad portion that is woven to have a predetermined width by a linear member having elasticity along a longitudinal direction at an upper side or a lower side thereof.

In addition, the extension pad part may include an attachment member for connection with the installed part.

The attachment member may include a female Velcro fastener portion formed on the bottom surface of the extension pad portion, and a male Velcro fastener portion configured to be detachable from the female Velcro fastener portion.

According to the conductive pad according to the present invention as described above, it is possible to configure a planar heating element or planar conductor having elasticity by using a conductive wire having conductivity but not elasticity, such as carbon fiber yarn or copper wire, and particularly conductive A separate protective fiber yarn is disposed together to protect the wire rod to prevent wear or damage of the conductive wire rod. Accordingly, when applied to smart clothing or heating appliances that require activity can be significantly improved durability, strength, and safety.

Best Mode for Carrying Out the Invention Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, FIGS. 2 to 6C, 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.

2 is a view for explaining a conductive pad according to an embodiment of the present invention, Figure 3 is a cross-sectional view taken along the line A-A of FIG.

As shown in FIGS. 2 and 3, the conductive pad 200 according to the present invention includes a plurality of stretchable wires 210, conductive wires 220 woven onto the stretchable wires 210, and protective fiber yarns 230. In the form of a band.

The flexible wire rod 210 is configured to be disposed along the longitudinal direction by a linear member having elasticity. The elastic wire rod 210 can be applied without limitation as long as the wire rod extends in the longitudinal direction when the tensile force is applied. In this embodiment, a spanner having excellent elongation and strength is used.

The conductive wire 220 is woven in the stretchable wire 210 to be arranged in a zigzag form, and at least one of the conductive wires 220 is generated by a power source supplied with electricity or supplied with power.

In more detail, the conductive wire 220 is a power supply line (wire having a low resistance value) capable of performing a function of energizing the supplied power, or a heating wire (high resistance wire) generated by resistance heat by the supplied power. It can be composed of). The conductive wire 220 may be composed of only a power supply line or a heating line according to the purpose and purpose of use of the conductive pad 200, and may be configured together with a power supply line and a heating line.

In addition, the conductive wire 220 may be formed of various wires if the power supply or heat generation function of the power supply is performed. For example, as shown in FIG. 3, a plurality of conductive wires 221 having an insulating layer 221b formed on fine copper wires 221a (copper wires having an outer diameter in micrometers) are bundled into multiple strands.

In addition, although the conductive wire 220 is not shown in a separate drawing, the conductive wire formed of a linear member, an insulating layer coated on the outer circumferential surface of the conductive wire, and the outer layer of the insulating layer including the conductive wire is covered with a fiber yarn It may be composed of an outer skin layer formed. At this time, the outer skin layer is composed of a form (braid) in which a plurality of fiber yarns are woven on the outer peripheral surface of the insulating layer. As the conductive wire, any one of conductive wires such as carbon fiber yarns, single metal wires, a combination of fine metal wires, and fiber yarns containing a conductive material may be selected.

The protective fiber yarn 230 is a configuration that is woven in the elastic wire 210 to be disposed in a zigzag form in contact with the conductive wire 220, stretched to the tensile force acting in the longitudinal direction is arranged in a zigzag, low elongation natural fiber yarn It may be composed of conventional fiber yarns, such as synthetic fiber yarns. In addition, the protective fiber yarn 230 may include one or more selected from anion generating materials such as tourmaline, chitosan powder, tourmaline powder, ocher powder, silver particles, charcoal powder, or fragrance generating material as a sterilizing substance. It may include.

At this time, it is important that the protective fiber yarn 230 is composed of a fiber yarn having an outer diameter (D) larger than the outer diameter (d) of the conductive wire 220, as shown in FIG. Thus, when the protective fiber yarn 230 is composed of a fiber yarn having an outer diameter (D) larger than the outer diameter (d) of the conductive wire 220, the contact pad in the process of attaching the conductive pad 200 to a garment or the like to use Since the protective fiber yarn 230 is first contacted and the conductive wire 220 is not in contact with the object to be contacted or rubbed, the conductive wire 220 may be protected from repeated contact and friction.

The conductive wires 220 and the protective fiber yarns 230 have a zigzag shape as described above, but the detailed shape of the conductive wires 220 and the protective fiber yarns 230 is preferably arranged in a waveform form such as sine wave and pulse wave.

On the other hand, although not shown in Figure 2, in contact with the conductive wire 220 or the protective fiber yarn 230 may be configured by selectively adding a shape memory alloy yarn and / or optical fiber yarn woven in a zigzag form to the flexible wire. have.

As such, when the shape memory alloy is transformed into the input shape at the transformation temperature set in the conductive pad, the conductive wire is transformed into the input shape when the conductive wire reaches the set temperature, thereby effectively performing a heating operation of a specific site. When the optical fiber yarn is formed in the conductive pad, the transmitted light may be irradiated to a specific portion to impart an aesthetic sense, and may be configured to perform a function such as sterilizing the specific portion by light.

4A is a perspective view showing a conductive pad according to a first embodiment of the present invention.

Referring to FIG. 4A, in the conductive pad 200 according to the first embodiment, the elastic wire rod 210 is composed of a weft yarn 211a and a warp yarn 211b, and is formed of a band body 211 in the form of a band. In the process of forming the body 211, the conductive wire 220 and the protective fiber yarn 230 is supplied and woven together. At this time, the band body 211 is woven to have a substantially grid pattern.

As described above, when the elastic wire 210 is inclined with the weft to form the band body 211 in the form of a band, the elastic wire 210 has elasticity in the longitudinal direction or the width direction when the tensile force is applied. At this time, the conductive wire 220 is composed of a fine metal wire that does not have elasticity, but is arranged in a zigzag form to have flexibility so that it is stretched without being damaged or broken with respect to tensile force, and has a unique conduction function (when supplying power) or a heating function. (If composed of heating wires).

4B is a perspective view illustrating a modified example of the conductive pad according to the first embodiment of the present invention. Referring to this, the conductive pad 200 is woven so as to have a predetermined width by a linear member having elasticity along a longitudinal direction at a lower side thereof. The extended pad portion 240 is formed. Although not shown in the drawing, the extension pad part 240 may be configured on the upper side of the conductive pad.

In addition, the band body 211 and the extension pad part 240 are provided with an elastic connection part 250 connected in the width direction by a linear member having elasticity to have a predetermined separation distance.

As the linear member forming the above-described extension pad part 240, a span yarn having high elasticity and strength among commercially available fiber yarns may be applied. In this case, the entire fiber yarn required for weaving the extension pad part 240 may be used as the span yarn. Weaving or weaving by mixing a common fiber yarn and a span yarn.

In addition, the extension pad part 240 is a configuration for easily installing the conductive pad 200 according to the present invention without damage to the to-be-installed part such as clothing, that is, the extension pad part 240 does not include a conductive wire. Therefore, even if the conductive pad 200 according to the present invention is attached, fixed, or bonded by a method such as stitching on a part to be installed, such as a garment, a fatal problem such as damage of the conductive wire 220 does not occur. .

FIG. 4C is an enlarged perspective view of part B of FIG. 4B, and referring to this, the conductive pad 200 may be installed on an extension pad part 240 shown in one of the above-described modifications (not shown; And an attachment member 260 for connection with the surface).

The attachment member 260 may be applied without limitation as long as one side is a member that is constrained to the extension pad part 240 and the other side is to be restrained by the installed part, but in this modification, the bottom surface of the extension pad part 240 The formed female Velcro fastener portion 261 (usually formed in the form of a plurality of hooks in the Velcro fastener), and the male Velcro fastener portion 262 configured to be detached from the female Velcro fastener portion 261, usually in the form of a plurality of wedges in the Velcro fastener. Part formed to protrude).

5A is a perspective view showing a conductive pad according to a second embodiment of the present invention.

Referring to FIG. 5A, the pads formed by the flexible wire rod 310, the conductive wire rod 320, and the protective fiber yarn 330 may have a plurality of structures in parallel with each other. Is formed.

For example, the conductive pad 300 includes an upper pad portion 300a formed in a band form by a plurality of stretchable wire rods 310, conductive wire rods 320, and protective fiber yarns 330, and the upper pad portion 300a. An upper pad spaced apart from the lower pad part 300b formed in parallel by a plurality of stretchable wire rods 310, conductive wire rods 320, and protective fiber yarns 330 in a band form, and a linear member having elasticity. It includes a stretchable connecting portion 300c connected between the portion 300a and the lower pad portion 300b.

As described above, the upper and lower pad portions 300a and 300b are formed on the upper side and the lower side, respectively, based on the stretchable connection part 300c, so that the conductive pad 300 can be applied to a larger area. In addition, even when a tensile force is applied to the conductive pad 300 in the width direction, the stretchable connection part 300c is extended to correspond to the tensile force, so that the upper and lower pad parts 300a and 300b are kept in a fixed position without large deformation at the installation position. While having an advantage that can cope with the tensile force.

FIG. 5B is a perspective view illustrating a modified example of the conductive pad according to the second embodiment of the present invention. Referring to this, the conductive pad 300 is disposed above the upper pad portion 300a and below the lower pad portion 300b. An extension pad part 340 is formed to be woven so as to have a predetermined width by a linear member having elasticity along the longitudinal direction.

As shown in the first embodiment, the extension pad part 340 is made of a mixture of span yarns or ordinary fiber yarns and span yarns, and the conductive pads 300 can be easily removed without damaging the attached part such as clothing. Perform the function that enables installation.

6A is a perspective view showing a conductive pad according to a third embodiment of the present invention.

The conductive pad 400 according to the third embodiment includes a plurality of conductive wires 420 and protective fiber yarns 430 zigzag-woven in a single band body 400a having a band shape in parallel and vertically. It is characterized by the configuration. That is, a plurality of flexible wires (wires constituting the band body, not shown in Figure 6a), conductive wires 420 woven to the flexible wires, and the protective fiber yarns 430 in a band form, As shown in FIG. 6A, the plurality of flexible wires are woven with a weft and inclined into a band-shaped band body 400a having a plurality of through holes, and are zigzag-shaped in the upper and lower sides of the band body 400a. The wire rod 420 and the protective fiber yarn 430 are configured to be disposed respectively.

Since the conductive pad 400 of this type has a planar structure, the conductive pad 400 has an excellent contact with the installed portion and has sufficient air permeability through the through hole.

6B is a perspective view illustrating a modified example of the conductive pad according to the second embodiment of the present invention. Referring to this, the conductive pad 400 has a longitudinal direction on a band-shaped band body 440 woven by a flexible wire rod. Accordingly, holes 441 are formed at predetermined intervals. The hole 441 is formed of a hole long enough to insert a button so that a button (not shown) is installed in an installed portion (not shown), and the button is inserted and fastened through the hole 441. The pad 400 can be mounted to the installed portion.

FIG. 6C is a perspective view showing another modified example of the conductive pad according to the second embodiment of the present invention. Referring to this, the conductive pad 400 is woven into a band-shaped band body 440 by an elastic wire rod. The body 440 is configured to have a wide portion 442 formed to be wide, and a plurality of narrow portions 443 branched from the wide portion 442 and formed to have a narrow width.

At this time, the narrow portion 443 is configured to have at least one conductive wire 420 and the protective fiber yarn 430 connected from the wide portion 442 is disposed. To this end, the wide portion 442 is formed with at least a conductive wire 420 and a protective fiber yarn 430 of a quantity corresponding to the quantity of the narrow portion 443.

In FIG. 6C, two narrow portions 443 are branched from the wide portion 442, but the number of the narrow portions 443 is not limited, but may be variously configured into many strands according to the purpose or purpose of use. Can be.

As described above, the conductive pad 400 having the wide portion 442 and the narrow portion 443 may be applied to a device or an article supplying the supply side by branching the power supply side to various places while requiring elasticity. The conductive pad may be configured as a conductive pad for a line, or a conductive pad for generating heat in a device or an article that needs to perform heat generation by diverging from a power supply on a single supply side to various places.

For example, when the conductive pad 400 according to the present embodiment is configured as a heating wire in a glove (finger glove), since the conductive wire should be disposed from the palm to each finger, the narrow portion 443 may be configured by five strands. Can be.

Although the conductive pad according to the preferred embodiment of the present invention as described above has been shown in accordance with the above description and the drawings, this is merely an example and various changes and modifications can be made without departing from the spirit of the present invention. It will be understood by those skilled in the art that it is possible.

1 is a view for explaining a conventional conductive pad,

2 is a view for explaining a conductive pad according to an embodiment of the present invention;

3 is a cross-sectional view taken along the line A-A of FIG.

4A is a perspective view showing a conductive pad according to a first embodiment of the present invention;

4B is a perspective view showing one modification of the conductive pad according to the first embodiment of the present invention;

4C is an enlarged perspective view of portion B of FIG. 4B;

5A is a perspective view showing a conductive pad according to a second embodiment of the present invention;

5B is a perspective view showing a modification of the conductive pad according to the second embodiment of the present invention;

6A is a perspective view of a conductive pad according to a third embodiment of the present invention;

6B is a perspective view showing one modification of the conductive pad according to the second embodiment of the present invention.

6C is a perspective view showing another modified example of the conductive pad according to the second embodiment of the present invention.

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

200,300,400: Conductive Pad

210,310: Elastic Wire Rod

220,320,420: conductive wire rod

230,330,430: Protective fiber yarn

240: Extension pad part

250,300c: Flexible connection

260: attachment member

300a: Lower pad part

300b: upper pad part

Claims (11)

In the conductive pad formed in the form of a band, A plurality of flexible wire rods disposed along the longitudinal direction; At least one conductive wire rod woven in a zigzag form to the stretchable wire rod; And A conductive pad comprising a protective fiber yarn woven in the stretchable wire to be arranged in a zigzag form in contact with the conductive wire. The method of claim 1, The conductive wire is a conductive pad, characterized in that composed of at least one of a power supply line for energizing the supplied power, and a heating line that generates heat by the supplied power. The method of claim 2, The stretchable wire is woven with a weft yarn in an oblique configuration consisting of a band body of the band, conductive pads, characterized in that the supplied with the conductive wire and the protective fiber yarn in the process of forming the band body. The method of claim 3, The band body is a conductive pad, characterized in that holes are formed at predetermined intervals along the longitudinal direction. The method of claim 3, The band body is composed of a wide width portion and a plurality of narrow width portion branched from the wide portion, The narrow width portion is provided with at least one of the conductive wire rod and the protective fiber yarn, the wide portion is at least a conductive pad, characterized in that the conductive wire rod and the protective fiber yarn of the number corresponding to the quantity of the narrow portion is provided. The method of claim 2, The conductive pad, An upper pad portion formed in a strip shape by the plurality of stretchable wires, the conductive wires, and the protective fiber yarns; A lower pad part spaced apart from the upper pad part and formed in parallel in a band form by the plurality of flexible wires, the conductive wires, and the reinforcing fiber yarns; And And a stretchable connecting portion connected between the upper pad portion and the lower pad portion by a stretchable linear member. The method of claim 2, And at least one of a shape memory alloy yarn woven in the stretchable wire rod in a zigzag form and transformed at a set transformation temperature, and an optical fiber yarn woven in the zigzag shape in the stretchable wire rod. The method according to any one of claims 1 to 7, The protective fiber yarn is a conductive pad, characterized in that composed of a fiber yarn having a larger outer diameter than the conductive wire. The method of claim 8, The conductive pad is an upper side or a lower side of the conductive pad is characterized in that the extension pad is woven to have a predetermined width by a linear member having a stretchable in the longitudinal direction. 10. The method of claim 9, The extension pad portion is an electrically conductive pad, characterized in that the attachment member is configured for connecting to the installed portion. The method of claim 10, And the attachment member is a Velcro fastener comprising a female Velcro fastener portion formed on the bottom surface of the extension pad portion and a male Velcro fastener portion configured to be detachable from the female Velcro fastener portion.

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