KR20100135629A - Electric conduction planar element - Google Patents

Abstract

PURPOSE: A conductive planar element is provided to stably maintain electrical connection between a conductive wire and a connection terminal by forming an auxiliary terminal member in a terminal connection part. CONSTITUTION: A conductive planar element comprises a planar element(110), at least one conductive wire(120), and a terminal connection part. The conductive wire is arranged in the planar element in a longitudinal direction. The terminal connection part is formed in the conductive wire. The terminal connection part has an auxiliary terminal member. The auxiliary terminal member stably maintains a connection state between the connection terminal and the conductive wire. The connection terminal(150) is connected to the terminal connection part.

Description

Conductive Planar Body {ELECTRIC CONDUCTION PLANAR ELEMENT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a conductive planar member, and more particularly, to a conductive planar member capable of electrically and stably connecting a conductive wire and a connection terminal provided in the planar member and performing a connection work quickly and simply.

In general, various electrical and electronic products such as home appliances such as TVs, DVDs, communication devices, computers, and the like, have a built-in cable for transmitting various signals such as power, video, and audio between devices provided inside and outside. have.

The cable is mainly installed by using a linear conductive wire, but as the components of electrical and electronic products are complicated and loaded with various functions, recently, a conductive planar body composed of a strip form by repeatedly arranging the conductive wires in parallel has been generally applied. .

Such a conductive planar body has a merit that it is possible to arrange a plurality of conductive wires in a single member with a simple structure, so that electrical and electronic products can be more simply and simply configured.

The conductive planar body is arranged in parallel with a plurality of thin copper wires in parallel with the band-shaped synthetic resin band body, or a conductive metal is formed on the band body in parallel with a printing method or a plating method, and the transfer body is formed in parallel. At both ends, terminal portions for connecting with the portion to be connected are formed.

However, the conventional conductive planar body described above has no drawbacks because there is no elasticity at all because the metal wire is disposed on the band body formed of synthetic resin, and the band body is made of synthetic resin so that the flexibility is also limited within a limited range. When the conductive planar body is installed inside the electrical and electronic product, the conductive body having a length longer than the length (distance to the connected part) necessary for smoothly performing an insertion or detachment operation with the connected part is performed. I install a planar body.

As such, when the length of the conductive planar body is unnecessarily long, the internal space of the limited electric and electronic products is encroached, and even the installed state causes interference with the internal parts. In particular, when approaching the parts of the rotating structure such as a motor causes a malfunction or failure, there is a problem that wear and damage due to frequent friction.

On the other hand, smart clothing has been applied to apply various signal transmission technologies in clothing so that the clothing itself detects external stimuli and responds to the conditions set by itself, and built various digital devices so that the digital functions essential for modern life can be easily used anytime and anywhere. Is being developed.

As a smart garment, various garments such as a wearable computer, a healthcare garment that can be diagnosed remotely, and a digital military uniform are proposed, and these garments require a fabric or a cable capable of transmitting a signal to each digital device. .

However, when the fine conductive line for signal transmission is placed on the fabric, it is necessary to install the connecting terminal for the connection with the power supply part, etc. However, it is very difficult to install the thin conductive wire and the connecting terminal arranged on the fabric and to secure stable energization state. Not only could it be impossible, but it could not maintain a solid connection.

In addition, when the aforementioned conventional conductive planar body is installed in smart clothing, the synthetic resin band body is in contact with the skin of the human body, and thus has poor touch and causes skin trouble or damages the skin by repeated friction.

In particular, smart clothing should have a certain degree of elasticity corresponding to the movement of the human body as long as it is a garment, but since the band body does not have elasticity, it could not satisfy the activity and fit required by the garment. There is no real progress and it is on the brink of limitations.

The present invention is to solve the above-mentioned problems, to provide a conductive planar body that can electrically and stably connect the conductive wire and the connection terminal provided in the planar body, it is possible to perform the connection work quickly and simply There is a purpose.

The present invention is to solve the conventional problems as described above, to provide a conductive planar body to enable the energization of current and the transmission of various signals while ensuring excellent activity and wearing comfort and flexibility, flexibility and touch There is this.

A conductive planar body for achieving the object of the present invention as described above, in the conductive planar body, a planar body formed in a planar shape; At least one conductive line disposed on the planar body in a longitudinal direction; And a terminal connection part formed on the conductive wire to connect a connection terminal, wherein the planar body is woven including fiber yarns, and the terminal connection part is stably connected and connected when the connection terminal is connected. It characterized in that the auxiliary terminal member is provided so as to be firmly maintained.

A conductive planar body for achieving the object of the present invention as described above, in the conductive planar body, a planar body formed in a planar shape; At least one conductive line disposed on the planar body in a longitudinal direction; And a terminal connection part formed on the conductive wire to connect a connection terminal, wherein the planar body is woven including fiber yarns, and the terminal connection part is formed so that the connection property is improved when the connection terminal is connected. It is characterized in that it is a conductive line dense portion formed by densely arranging the conductive lines at positions.

The conductive wire constituting the conductive wire tight part may include an auxiliary terminal member for stably performing a connection operation when the connecting terminal is connected and maintaining the connected state firmly.

The auxiliary terminal member may be a reinforcing wire which is woven in the longitudinal direction or the width direction of the planar body to the conductive wire dense portion.

The conductive wire may include a plurality of thin metal wires and an insulating layer overlying the outside of the metal wire, and the auxiliary terminal member may include a winding wire that is closely wound in a coil form on the outer circumferential surface of the metal wire.

In this case, the winding line may be composed of any one of a fiber yarn containing a conductive material, a metal wire having conductivity, a high tensile fiber yarn, a stretchable fiber yarn, a shape memory alloy yarn, and a shape memory resin yarn.

The conductive wire may include a first conductive wire material insulated and coated with a conductive wire, a second conductive wire material wound on an outer circumferential surface of the first conductive wire material, and insulated and coated with a conductive wire, and an outside of the second conductive wire material. The auxiliary terminal member may be formed of a winding wire that is wound in a coil form on the outer circumferential surface of the first conductive wire and / or the second conductive wire.

In addition, the conductive wire may be composed of a plurality of thin metal wires, and an insulating layer overlaid on the outside of the metal wire, and the auxiliary terminal member may be composed of a winding wire wound closely in the form of a coil to the outside of the insulating layer. have.

The auxiliary terminal member may be repeatedly formed at a predetermined interval along the longitudinal direction.

The planar body is woven with the weft and warp yarns of the fiber, and the conductive wire is arranged to have a plurality of bent portions having a periodic wave structure along the longitudinal direction and can be woven by the weft and warp yarns.

The connecting terminal comprises a connecting piece of a quantity corresponding to the quantity of the conductive wire, the connecting piece is a fixed protrusion which is pressed into the conductive wire through the auxiliary terminal member side, and a connecting protrusion electrically connected to the connected portion. It can be provided.

The connection terminal may include a first zipper fixture array having a plurality of one side zipper fixtures, a second zipper fixture array having a plurality of other zipper fixtures facing each other to correspond to the first zipper fixture array, and first and second zipper fixtures It may be composed of a zipper having a slider that is fitted into the column to perform the opening and closing operation.

At this time, the zipper fixtures interlocked with each other in the first and second zipper fixture rows are formed of a conductive material, and are electrically insulated from the zipper fixtures vertically adjacent to the interlocking zipper fixtures, and the slider is vertically When the zipper fixtures are engaged with or separated from each other during movement, the whole or a portion of the zipper fixtures contacting the zipper fixtures may be configured to have conductivity.

A terminal display unit may be provided outside the planar body or the conductive wire in which the terminal connection unit is located to indicate that the auxiliary terminal member is positioned.

The conductive line dense part may be configured by densely arranging the conductive line to have a wavy structure or a circular structure.

The conductive line dense parts may be repeatedly formed at predetermined intervals along the longitudinal direction.

The planar body may be woven to have elasticity. That is, the planar body is woven by weaving fibers and warp yarns, a plurality of stretchable polymer yarns can be woven along the longitudinal direction.

It may further comprise a binding means configured on one side or both sides of the planar body to bind the planar body to the installation portion.

The binding means may include any one of a Velcro fastener that is integrally woven in a predetermined range when weaving the planar body, a button installed on the planar body, a one-touch button, a double-sided tape, and a zipper.

The planar body may be woven to have a plurality of plies. In this case, at least one of the wires made of a heating wire, an optical fiber, an EL lamp line, and a shape memory alloy yarn may be arranged together on any one layer of the planar body.

The planar body may be woven in the form of a mesh.

The planar body may be woven so that an opening having a predetermined shape is formed at the time of weaving.

The planar body may be woven and formed in a band shape to be used as a band-shaped cable.

The planar body may be formed in a band shape in which a wide width portion and a narrow width portion are repeated.

The planar body may be formed of an electromagnetic shielding layer on one or both surfaces thereof to shield electromagnetic waves, or may include fiber yarn or conductive metal wire including a conductive material as a weft or warp forming the planar body.

According to the conductive planar body according to the present invention as described above, even when the conductive wire is woven together with a planar body such as woven paper to be conductive, the electrical connection relationship between the conductive wire and the connecting terminal is stable, and the connection work is also quick. It can be applied to a wide range of devices that require activity and wearing comfort.

In particular, it is possible to apply current and transmit various signals, but also has excellent elasticity, flexibility, and tactile feel. Therefore, it can be conveniently applied to devices or devices that are difficult to install cables due to spatial limitations, and can greatly improve safety and quality. . In addition, when applied to the smart clothing, such as a power cable is good in contact with the skin and can prevent skin problems.

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 to 12, and like reference numerals are used to refer to like elements within the confusion ranges. Meanwhile, the drawings and detailed descriptions of configurations, operations, and effects that can be easily understood by those skilled in the art from general techniques in each drawing will be briefly or omitted. For example, in the accompanying drawings, the size, thickness, shape, and the like of each component forming the conductive planar body are illustrated as briefly as possible for clarity, and in particular, except for FIG. The form is shown briefly.

1 is a view for explaining the technical spirit of the conductive planar body according to the present invention.

As shown in FIG. 1, the conductive planar body 100 according to the present invention includes a planar body 110 that is formed in a planar shape, and at least one or more lines of conductive lines 120 disposed along the longitudinal direction in the planar body 110. ), And the terminal connecting portion 121 formed in the conductive line 120 so that the connecting terminal 150 is connected, an area portion corresponding to a portion of the conductive line to which the connecting terminal 150 is connected), and the terminal connecting portion ( Auxiliary terminal member 140 configured in 121 is provided.

The planar body 110 is not limited to the material if it can be configured in the plane, but in the present invention is intended to improve the elasticity, flexibility, and contact with the body, so including the fiber yarn inclined and weft in consideration of this (Weaving methods include weaving and weaving, but the term 'weaving' here refers to all methods of weaving fibers and forming cotton).

The shape and size of the planar body 110 are not limited, and may be variously configured according to the purpose of use, use, etc. of the conductive planar body 100. For example, when used as a fabric of smart clothing, it is usually formed in a thickness, width, and length similar to that of clothing, and it is easy to manufacture heating devices such as heating mats and heating sheets, or bags, shoes, belts, and the like. It may be configured in a size and shape that is easy to manufacture jewelry or medical devices. However, the present embodiment will be described with reference to the configuration in the form of a narrow band so that it can be conveniently applied to the power cable or the band-type cable for signal transmission, other modifications related to this will be described later.

The auxiliary terminal member 140 has a configuration such that the connection operation is stably performed when the connection terminal 150 is connected and the connection state is firmly maintained. The conductive wire 120 is inserted when the connection terminal 150 is inserted. It performs the function of fixing to prevent it from being opened or distracted.

2 is a perspective view illustrating a conductive planar member according to a first embodiment of the present invention, and FIG. 3 is a photograph of a prototype of a conductive planar member according to a first embodiment of the present invention. In addition, in order to help the understanding of the arrangement of the conductive lines in FIG. 3, the second conductive line (parts shown in black) at the bottom of the conductive lines 120 arranged in the transverse direction is coated with a black solid line on the actual image. The arrangement of the conductive lines is shown more clearly.

4A and 4B are views showing the main parts of the conductive planar body according to the first embodiment of the present invention. Specifically, FIGS. 2A and 4B illustrate the connection structure between the conductive line 120 and the connection terminal 150. It is a perspective view which shows only the main part in a part.

2 and 3, the conductive planar body according to the first exemplary embodiment may include a conductive line such that a plurality of conductive lines 120 and connection terminals 150 are connected to the planar body 110 in the longitudinal direction. The auxiliary terminal member 140 is formed on the terminal connection portion 121 formed in the 120, the auxiliary terminal member 140 is wound around the coil wire wound on the outer peripheral surface of the metal wire 122 in a coil form as shown in Figure 4a It consists of 141.

The winding line 141 performs a function of preventing the cable from being disturbed or opened by winding and fixing the inner conductive wire 120 when the connection terminal 150 is connected, so that the cable is not broken when the connection terminal 150 is connected. If it has a various wires, such as a fiber yarn containing a conductive material, a conductive metal wire, a high-strength fiber yarn, a stretchable fiber yarn, a shape memory alloy yarn, a shape memory resin yarn can be selected and applied.

For example, when the fiber yarn or the metal wire including the conductive material is selected as the winding line 141, the winding line itself has conductivity, so that the electrical connection relationship with the connection terminal 150 coupled thereto is more stably performed.

When the winding line 141 is formed of a shape memory alloy yarn or a shape memory resin branch formed to shrink at a predetermined transformation temperature, heat generation due to a poor electrical connection relationship when the terminal connection portion 121 and the connection terminal 150 are coupled to each other. When the shape memory alloy or the shape memory resin is heated by (resistance generation), it is contracted in the direction of the central axis so as to press the connection terminal 150 and the terminal connection portion 121 to be firmly fixed.

In addition, the form of winding the winding line 141 may be configured by winding a single winding line in one direction (clockwise) or the other direction (counterclockwise), or winding a single winding line in one direction and then again winding in the other direction. Can be. And a some winding line can be wound and comprised in a different direction. At this time, the number of windings or the winding distance of the winding line 141 may be adjusted according to the length of the connection portion of the connection terminal 150 is press-fitted.

On the other hand, the planar body 110 is characterized in that it is woven to have elasticity. The structure for weaving the planar body 110 to have elasticity can be implemented by forming both the weft yarn and the warp yarn forming the planar body 110 from elastic polymer yarns such as span yarns, or by forming either the weft yarn or the warp yarns from elastic polymer yarns. There will be.

In this embodiment, the weaving is made of the weaving yarn with a weft yarn and a warp yarn, it is configured to weave a plurality of stretchable polymer yarns such as span yarn along the longitudinal direction.

In addition, the planar body 110 may include an electrically conductive material as a weft or warp forming an electromagnetic shielding layer (not shown) on one or both surfaces, or forming the planar body 110 so as to perform a function of shielding electromagnetic waves. It may include a fiber yarn to be mentioned, or a metal wire having conductivity.

As shown in FIG. 1, the conductive wire 120 may be woven so that a plurality of conductive wires are provided in a weft or an inclined manner so as to be arranged parallel to each other in a straight line. However, as shown in FIG. It is configured to weave to have a plurality of bent portion 122 having a periodic waveform structure along the longitudinal direction to have. In this case, the waveform may be configured by selecting from sin, sin, cosine, pulse, sawtooth, and U-shaped repeated up and down.

The conductive wire 120 may be applied without limitation as long as it is a wire rod capable of transmitting power and electric signals. However, since the planar body 110 is formed by weaving fibers, the conductive wire 120 may not interfere with the operation of the loom in the weaving process. It is preferred to have a diameter.

For example, in FIG. 4A, a plurality of insulating coated metal wires 122 having a diameter of 16/1000 mm that can be produced are disposed therein, and an insulating layer 123 is formed to be overlaid on the outside of the metal wires 122. It was.

In addition, the insulating layer 123 may be formed by coating a normal insulating resin on the outer surface of the conductive wire 120 to insulate the conductive wire 120, but the conductive wire 120 formed of ultrafine wires is too thin, so that the restoring force is poor during tension. In order to compensate for this, by winding or weaving a stretchable microfiber 123a having a diameter of 50/1000 mm or less, the elasticity of the conductive wire 120 is complemented, as well as an insulation function and a waterproof function. .

Meanwhile, as shown in FIG. 4B, the auxiliary terminal member 140 is provided on the terminal connection portion 121 formed on the conductive line 120, and the winding line 141 is wound around the outside of the insulating layer 123 in a coil form. It can be composed of). Even if the auxiliary terminal member 140 is provided in such a manner, the winding line 141 presses the insulating layer 123 and the conductive line 120, so that the binding state of the connection terminal 150 can be firmly and stably maintained. have.

In addition, the connection terminal 150 includes a connection piece 151 having a quantity corresponding to the quantity of the conductive line 120 as shown in FIGS. 4A and 4B. The connecting piece 151 is provided with a plurality of fixing protrusions 151a press-fitted onto the conductive line 120 through the auxiliary terminal member 140 side, and a connecting protrusion electrically connected to the connected portion (for example, a power supply side connector portion). 151b is provided.

5 is a view for explaining another example of the conductive line applied to the conductive planar body according to the first embodiment of the present invention.

The conductive line 120 may be configured such that power of a plurality of polarities (+ polarity and −polarity) flows through a single line. That is, as shown in FIG. 5, the conductive wire 120 includes a first conductive wire 125 coated with a conductive wire and an outer wire of the first conductive wire 125 and a conductive wire. A second conductive wire 126 coated with an insulating coating, and an insulating layer 127 overlaid on the outside of the second conductive wire. At this time, the first and second conductive wires 125 and 126 are composed of a plurality of strands of metal yarn and an insulating layer overlying the outer circumferential surface of the metal yarn as shown in the enlarged portion of FIG.

6 is a view for explaining another example of the connection terminal applied to the conductive planar body according to the first embodiment of the present invention.

Referring to FIG. 6, the connection terminal 150 includes a first zipper fixture 152a in which a plurality of zipper fixtures are arranged, and a plurality of other zipper fixtures facing each other to correspond to the first zipper fixture 152a. And a zipper 152 having a second zipper fixture row 152b and a slider 152c fitted to the first and second zipper fixture rows 152a and 152b to perform the opening and closing operation.

In addition, the interlocking zipper fixtures of the first and second zipper fixtures 152a and 152b are formed of a conductive material, and are electrically insulated from the zipper fixtures vertically adjacent to the interlocking zipper fixtures. .

The slider 152c is configured such that the entirety or a portion in contact with the zipper jigs is conductive so as to perform a switching operation while the zipper jigs are engaged with or separated from each other during vertical movement.

Meanwhile, the first and second zipper fixture rows 152a and 152b may have conductive connection pads (not shown) having one side electrically connected to the outer ends of the zipper fixtures and the other side electrically connected to the terminal connection portions. have.

Fig. 7A is a diagram showing a first modification of the conductive planar body according to the first embodiment of the present invention.

Since the conductive planar body 100 generally includes terminals for electrical connection to a power supply unit or a signal transmission device at both ends, the terminal connector 121 and the auxiliary terminal member 140 are formed only at both ends of the planar body 110. Although it is common, products such as smart clothing and bags may have additional devices (not shown), such as separate communication devices or treatment devices, and are shown in FIG. 7A for supplying power and transmitting electric signals to these devices. As described above, a plurality of terminal connection parts 121 are provided to be spaced apart at predetermined intervals along the longitudinal direction of the planar body 110, and the terminal connection part 121 is configured with an auxiliary terminal member 140.

In addition, a terminal display unit 160 is formed at a portion where the auxiliary terminal member 140 is located to recognize the position. That is, a character, a pattern, etc. representing the terminal display unit 160 on the outer surface of the planar body 110 or the conductive wire 120 where the terminal connecting portion 121 is located may be displayed in a printing method or weaved together by a fiber yarn. Form.

7B is a view showing a second modification of the conductive planar body according to the first embodiment of the present invention.

Referring to FIG. 7B, when the conductive planar body 100 according to the present embodiment is installed in the to-be-installed part, although the upper and lower sides of the planar body 110 can be stitched together, the planar body may be bound. In order to be able to bind 110 to the portion to be installed, a separate binding means 170 is further provided on one or both surfaces thereof.

The binding means 170 is composed of a velcro fastner 171 formed in the planar body 110 as shown in FIG. 7B. At this time, the Velcro fastener 171 is composed of a female Velcro fastener having a plurality of hooks 171a when the Velcro fastener coupled to the installed part is a male Velcro fastener having a plurality of hooks. In the case of Velcro fasteners, it consists of several Velcro fasteners.

In addition, the binding means 170 is not limited to the above-described Velcro fasteners, but various types of binding devices may be applied. For example, applicable binding means include buttons, one-touch buttons, double-sided tapes, and zippers.

8A to 8D are diagrams showing modifications of the planar body that can be applied to the conductive planar body according to the first embodiment of the present invention.

Referring to FIG. 8A, the conductive planar body 100 may be constructed by weaving the planar body 110 to have a plurality of layers 110a, 110b, and 110c.

In addition, any one of the plies 110a, 110b, and 110c of the planar body 110 composed of several plies may be heated at a heating line, an optical fiber or an EL lamp line for irradiating light, and a predetermined transformation temperature. At least one wire rod (not shown) among the shape memory alloy yarns may be further included in a manner of being woven or embedded or attached separately.

Referring to FIG. 8B, the conductive planar body 100 is constructed by weaving the planar body 110 into a mesh form. Thus, when the planar body 110 is formed to be in the form of a net, relatively light and sufficient breathability can be secured, so it can be conveniently applied as a power cable or signal transmission line of a smart garment for summer.

Referring to FIG. 8C, the conductive planar body 100 is configured to form openings 117 at predetermined intervals when the planar body 110 is woven. As such, the planar body 110 having the opening 117 may be easily installed with a component such as a thermoelectric module. That is, the cooling surface or the heating surface of the thermoelectric module may be inserted through the opening 117 to facilitate heat transfer to the inside thereof.

In addition, the opening 117 is easily formed when the operation program of the weaving machine is set to form the opening 117, and the shape of the opening 117 may also be variously woven.

Referring to FIG. 8D, the conductive planar body 100 forms the planar body 110 in the form of a band in which a wide width portion 118 and a narrow width portion 119 are repeated. The conductive planar body 100 having the planar body 110 having such a structure can be effectively installed at a portion where the area size of the installed portion is repeatedly enlarged and reduced.

9 is a view for explaining the conductive planar body according to the second embodiment of the present invention.

Referring to FIG. 9, the conductive planar body 200 according to the second embodiment of the present invention may include a planar body 210 formed in a planar shape, at least one conductive line 220 disposed on the planar body 210, And a conductive wire dense part 230 formed by densely arranging the conductive line 220 at a position where the terminal connection part is formed so that the connection terminal 250 is connected.

The planar body 210 is formed and woven including fiber yarns as in the first embodiment. In addition, since the planar body 210 constituting the conductive planar body 200 according to the second embodiment may also be modified in the form shown as a modification of the above-described first embodiment, a detailed description thereof will be omitted.

Like the first embodiment, the conductive line 220 is woven together to have a corrugated structure along the longitudinal direction in the planar body 210, and may be formed in the shape shown as a modification of the first embodiment.

The conductive wire dense part 230 may be configured in various forms at the position where the terminal connection part is formed if the connection property of the connection terminal 250 may be improved. For example, the conductive line dense unit 230 forms the conductive line 220 in a waveform structure with a dense period.

In addition, the conductive wire 220 constituting the conductive wire tight portion 230 is provided with an auxiliary terminal member 240 to perform a more stable connection operation when the connection terminal 250 is connected, and to maintain the connected state firmly. Equipped. The auxiliary terminal member 240 is composed of a winding line 241 wound tightly wound in the form of a coil on the outer circumferential surface of the metal wire 222 as shown in an enlarged portion of FIG. 9.

10 is a view for explaining another example of the conductive wire dense portion applicable to the conductive planar body according to the second embodiment of the present invention. It is formed in a circular structure (approximately spring shape) that is expanded to a shape.

FIG. 11 is a view for explaining another example of the auxiliary terminal member in the conductive planar member according to the second embodiment of the present invention. As shown therein, the auxiliary terminal member 240 is a planar member in the conductive wire assembly 230. The reinforcement line 242 is woven in the longitudinal direction or the width direction of the (210).

The auxiliary terminal member 240 of this type is a reinforcing wire shape, so that the conductive wire dense parts 230 are intertwined and fixed to each other, so that the conductive wire dense parts are fixed so as not to be opened or disturbed during the press fitting or connection process of the connection terminal 250. While playing a role, make sure that the electrical connection is stable.

FIG. 12 is a view showing a first modified example of the conductive planar member according to the second embodiment of the present invention. As shown therein, the conductive planar member 200 has a planar member 210 for connection with various devices. A plurality of conductive wire dense portions 230 are configured to be spaced apart at predetermined intervals along the longitudinal direction. In addition, a terminal display unit 260 is formed at a portion where the terminal dense unit 230 is located so as to recognize the position thereof.

As described above, although the conductive planar body according to the preferred embodiment of the present invention has been shown in accordance with the above description and drawings, this is merely described for example and various changes and modifications within the scope without departing from the technical spirit of the present invention. It will be appreciated by those skilled in the art that this is possible.

1 is a view for explaining the technical idea of a conductive planar body according to the present invention;

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

3 is a photograph of a prototype of a conductive planar body according to a first embodiment of the present invention;

4A and 4B are views showing main parts of the conductive planar body according to the first embodiment of the present invention;

5 is a view for explaining another example of the conductive wire applied to the conductive planar body according to the first embodiment of the present invention;

6 is a view for explaining another example of the connection terminal applied to the conductive planar body according to the first embodiment of the present invention;

7A is a view showing a first modification of the conductive planar body according to the first embodiment of the present invention;

7B is a view showing a second modification of the conductive planar body according to the first embodiment of the present invention;

8A to 8D are diagrams showing modifications of the planar body applicable to the conductive planar body according to the first embodiment of the present invention;

9 is a view for explaining a conductive planar member according to a second embodiment of the present invention;

10 is a view for explaining another example of the conductive wire dense portion which can be applied in the conductive planar body according to the second embodiment of the present invention;

11 is a view for explaining another example of the auxiliary terminal member in the conductive planar body according to the second embodiment of the present invention;

12 is a diagram showing a first modification of the conductive planar body according to the second embodiment of the present invention.

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

100,200: conductive planar body 110,210: planar body

120,220: conductor 121: terminal connection

140.240: Auxiliary terminal member 150, 250: Connection terminal

151: Connection 152: Zipper

160: terminal display unit 170: binding means

230: conductive wire tight part

Claims (27)

In the conductive planar body, A planar body formed into a plane; At least one conductive line disposed on the planar body in a longitudinal direction; It is provided with a terminal connecting portion formed in the conductive wire so that the connection terminal, The planar body is woven including fiber yarns, And the terminal connecting portion is provided with an auxiliary terminal member so that the connection operation is stably performed when the connecting terminal is connected and the connected state is firmly maintained. In the conductive planar body, A planar body formed into a plane; At least one conductive line disposed on the planar body in a longitudinal direction; It is provided with a terminal connecting portion formed in the conductive wire so that the connection terminal, The planar body is woven including fiber yarns, And the terminal connecting portion is a conductive wire dense portion formed by densely arranging the conductive lines in a position where the terminal connecting portion is formed so as to improve connectivity when the connecting terminal is connected. The method of claim 2, The conductive wire constituting the conductive wire tight portion is provided with an auxiliary terminal member for stably performing a connection operation when the connecting terminal is connected and for maintaining a firmly connected state. The method of claim 3, And the auxiliary terminal member is a reinforcing wire which is woven in the longitudinal direction or the width direction of the planar body to the conductive wire dense portion. The method according to any one of claims 1, 3, and 4, The conductive wire is composed of a thin plural-strand metal wire, and an insulating layer overlying the outside of the metal wire, The auxiliary terminal member is a conductive planar body, characterized in that consisting of a winding wire wound tightly wound in the form of a coil on the outer peripheral surface of the metal wire. The method of claim 5, The winding wire is a conductive planar body comprising any one of a fiber yarn containing a conductive material, a conductive metal wire, a high tensile fiber yarn, a stretchable fiber yarn, a shape memory alloy yarn, and a shape memory resin yarn. The method according to any one of claims 1, 3, and 4, The conductive wire is a first conductive wire insulated and coated with a conductive wire, a second conductive wire wound in an outer circumferential surface of the first conductive wire and insulated and coated with a conductive wire, and the outside of the second conductive wire. Consisting of an insulating layer overlaid, The auxiliary terminal member is a conductive plate-like body, characterized in that consisting of a winding wire wound tightly wound in the form of a coil on the outer peripheral surface of the first conductive wire and / or the second conductive wire. The method according to any one of claims 1, 3, and 4, The conductive wire is composed of a thin plural-strand metal wire, and an insulating layer overlying the outside of the metal wire, The auxiliary terminal member is a conductive planar body, characterized in that consisting of a winding wire wound closely in the form of a coil on the outside of the insulating layer. The method according to any one of claims 1, 3, and 4, The auxiliary terminal member is a conductive planar body, characterized in that formed repeatedly spaced at a predetermined interval along the longitudinal direction. The method according to any one of claims 1 to 4, The planar body is woven with a weft and warp yarn of fiber, and the conductive wire is arranged to have a plurality of bent portions having a periodic wave shape along the longitudinal direction, and the conductive facet is woven by the weft and warp yarns. . The method according to any one of claims 1 to 4, The connecting terminal comprises a connection piece of the quantity corresponding to the quantity of the conductive wire, The said connecting piece is provided with the fixed protrusion part press-fitted on the said conductive line through the said auxiliary terminal member side, and the connection protrusion part electrically connected to the to-be-connected part. The method according to any one of claims 1 to 4, The connection terminal may include a first zipper fixture array having a plurality of one side zipper fixtures, a second zipper fixture array having a plurality of other zipper fixtures facing each other to correspond to the first zipper fixture array, and first and second zipper fixtures A conductive planar body comprising a zipper having a slider inserted into a row to perform opening and closing operations. The method of claim 12, The interlocking zipper fixtures of the first and second zipper fixtures are formed of a conductive material and are electrically insulated from the zipper fixtures vertically adjacent to the interlocking zipper fixtures. The slider is a conductive surface member, characterized in that the entire portion or the portion in contact with the zipper jig to be conductive so as to perform the switching operation while the zipper jigs are engaged with or separated from each other during vertical movement. The method according to any one of claims 1, 3, and 4, And a terminal display portion formed to indicate that the auxiliary terminal member is positioned outside the planar member or the conductive wire in which the terminal connection part is located. The method according to any one of claims 2 to 4, And the conductive wire dense portion is formed by densely arranging the conductive lines to have a wavy structure or a circular structure. The method of claim 15, The conductive wire dense parts are formed in the longitudinal direction spaced apart at predetermined intervals repeatedly formed conductive body. The method according to any one of claims 1 to 4, The planar body is woven to have elasticity. The method of claim 14, The planar body is woven with a weft and inclined fiber yarns, a conductive planar body characterized in that a plurality of stretchable polymer yarns are arranged in the longitudinal direction. The method according to any one of claims 1 to 4, And a binding means configured on one side or both sides of the planar body to bind the planar body to the installed portion. The method of claim 19, The binding means may be any one of a velcro fastener integrally woven in a predetermined range when weaving the planar body, or a button, a one-touch button, a double-sided tape, and a zipper installed on the planar body. . The method according to any one of claims 1 to 4, The planar body is woven so as to have a plurality of layers. The method according to any one of claims 1 to 4, A conductive planar member comprising at least one of wire rods made of a heating wire, an optical fiber, an EL lamp line, and a shape memory alloy yarn together in any one layer of the planar body. The method according to any one of claims 1 to 4, The planar body is conductive plane, characterized in that weave in the form of a net. The method according to any one of claims 1 to 4, And said planar body is woven so that openings of a predetermined shape are formed during weaving. The method of claim 17, The planar body is a conductive planar body, characterized in that weave, formed in the form of a band to be used as a band-type cable. The method according to any one of claims 1 to 4, The planar body is formed in the shape of a band in which a wide width portion and a narrow width portion is repeated narrow conductive surface member. The method according to any one of claims 1 to 4, The planar body is characterized in that the electromagnetic shielding layer is formed on one surface or both surfaces so as to shield the electromagnetic waves, or the fiber yarn or conductive metal wire containing a conductive material as a weft or warp to form the planar body, characterized in that Conductive planar body.

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