JP2009105027A - Connector capable of electrically connecting with conductive fiber - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a connector capable of electrically connecting with conductive fibers, which is hardly damaged without excessive stress acting on the conductive fibers even when a clothing of a wearer is deformed in response to motions of the wearer and can easily perform dressing and undressing. <P>SOLUTION: The connector installed on the clothing wherein conductive fibers are woven into the surface of a cloth comprises a contact section for forming electric connection by firmly adhering to the conductive fibers, a fixing section fixed on the cloth in the vicinity of the conductive fibers, and a conductive wire connection section for fixing a conductive wire in order to electrically connect an external electronic device with the conductive fibers. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a connector that can be electrically bonded to conductive fibers woven into clothing and can be applied to a so-called wearable computer.

In recent years, research and development of so-called “wearable computers” for attaching electronic devices to the body has been actively conducted.
As an example, a garment having an electronic component function has been developed by incorporating conductive fibers into a fabric and assembling an electric circuit therein (see, for example, Patent Document 1).
In such a garment, in order to electrically connect an electric circuit formed on itself and an external electronic device, conductive fibers woven into the fabric and a metal body such as a wiring or connector of the electronic device. Must be physically joined.

Examples of the method for joining the conductive fiber and the metal body include methods such as soldering, pressure bonding, and adhesion.
However, in any of these joining methods, when the clothing is deformed in accordance with the wearer's movement or the like, only the conductive fibers are directly pulled, and therefore, repeated bending stress acts on the conductive fibers to cause a short period of time. It had the problem of being damaged between.
Furthermore, in the case of joining by soldering, since the fiber portion of the conductive fiber melts and only the metal thread remains, there is a problem that the strength is greatly reduced and breakage is likely to occur.

  In addition, since clothing may be washed, it is necessary to disconnect the clothing from external electronic devices when washing. However, conventional joining methods such as soldering, crimping, and bonding as described above are used. When used, removal and rejoining could not be performed easily.

JP-T-2004-514068

  The present invention has been made to solve the above-described problems of the prior art, and excessive stress acts on the conductive fibers even when the clothing is deformed in accordance with the wearer's movement or the like. It is an object of the present invention to provide a connector capable of being electrically connected to conductive fibers, which is not easily damaged and does not easily break, and can be easily detached.

  The invention according to claim 1 is a connector attached to a garment in which conductive fibers are woven into a fabric surface, and a contact portion that is in close contact with the conductive fibers to form an electrical connection; and A conductive portion comprising: a fixing portion fixed to a surrounding fabric; and a conductive wire connecting portion for fixing a conductive wire for electrically connecting an external electronic device to the conductive fiber. The present invention relates to a connector that can be electrically connected to a conductive fiber.

  According to a second aspect of the present invention, the conductor connecting portion includes a female member formed integrally with the contact portion, and a male member to which the conductor is fixed, and the male member and the female member are mutually connected. 2. The connector capable of being electrically connected to a conductive fiber according to claim 1, wherein the connector is capable of being engaged and disengaged.

  In the invention according to claim 3, the member provided with the contact portion and the member provided with the fixing portion are composed of different members, and the member provided with the contact portion is disposed on the surface side of the fabric. 3. The connector capable of being electrically joined to conductive fibers according to claim 1 or 2, wherein the member having the fixing portion is disposed on the back side of the fabric to sandwich the fabric.

  In the invention according to claim 4, the member provided with the contact portion, the member provided with the fixing portion, and the member provided with the conducting wire connecting portion are respectively separate members, and the contact portion is provided. 4. The connector according to claim 3, wherein the member and the member having the conductive wire connecting portion are composed of a male member and a female member that can be engaged and disengaged with each other.

  The invention according to claim 5 relates to the connector capable of being electrically joined to the conductive fiber according to any one of claims 1 to 4, wherein a plurality of conductors are fixed to the conductor connecting portion.

  The invention according to claim 6 is a connector attached to a garment in which conductive fibers are woven into a fabric surface, and a contact portion that forms an electrical connection in close contact with the conductive fibers; and A fixing portion that is fixed to a surrounding fabric, and a terminal of an external electronic device or a conductive wire connected to the terminal is sandwiched and fixed between the contact portion and the conductive fiber. The present invention relates to a connector that can be electrically joined to a conductive fiber.

  The invention according to claim 7 is characterized in that the fixing portion is formed of a plurality of projecting pieces formed integrally with the contact portion and bent after passing through the fabric. It is related with the connector which can be electrically joined with the electroconductive fiber as described in 1 above.

  The invention according to claim 8 is characterized in that the fixing portion protrudes upward and downward with respect to the surface constituting the contact portion, and the connector capable of being electrically joined to the conductive fiber according to claim 7. About.

  In the invention according to claim 9, the projecting pieces are provided along two opposing sides of the plate constituting the contact portion, respectively, and the projecting pieces provided along one side and the other side are provided. 9. The connector capable of being electrically connected to conductive fibers according to claim 7 or 8, wherein the projecting pieces provided along are shifted in positions where they do not overlap when bent.

  The invention according to claim 10 is characterized in that a conductive fiber and an electrical joint according to any one of claims 1 to 9 are sealed between the cloth and the contact portion with a conductive adhesive. Regarding possible connectors.

  The invention according to claim 11 is provided with a cover made of a flexible material that covers the surface of the contact portion, and can be electrically joined to the conductive fiber according to any one of claims 1 to 10. Concerning connectors.

  The invention according to claim 12 can be electrically joined to the conductive fiber according to any one of claims 1 to 11, wherein the contact portion has an area capable of being in close contact with a plurality of the conductive fibers. Related to various connectors.

  The invention according to claim 13 relates to the connector capable of being electrically joined to the conductive fiber according to claim 12, wherein the contact portion is made of a fabric woven with conductive fiber.

  According to a fourteenth aspect of the present invention, the connector includes a male connector and a female connector that can be engaged with and disengaged from each other, and a plurality of the female connectors are a plurality of conductive fibers woven into a cloth constituting clothing. So that the contact portions are in close contact with each other with a predetermined interval, and a plurality of the male connectors are respectively attached to one piece of cloth different from the cloth. The connector capable of being electrically joined to the conductive fiber according to any one of claims 1 to 13, wherein the connector is fixed at a predetermined interval.

  The invention according to claim 15 is characterized in that the contact portion has a recess in a portion in contact with the conductive fiber, and the conductive fiber and the electrical joint according to any one of claims 1 to 14 Regarding possible connectors.

  The invention according to claim 16 is provided with a plate that is brought into close contact with the back surface of the fabric, and the plate is provided with a hole into which the protruding piece is inserted. The present invention relates to a connector that can be electrically connected to a conductive fiber.

  The invention according to claim 17 relates to the connector capable of being electrically joined to the conductive fiber according to claim 16, wherein the plate is integrated with the contact portion.

  The conductive fiber according to any one of claims 1 to 17, characterized in that the invention according to claim 18 is made of a metal having a smaller ionization tendency than a conductive material used for the conductive fiber. It is related with the connector which can be electrically joined.

  The conductive fiber according to any one of claims 1 to 17, wherein the conductive fiber according to the nineteenth aspect is coated with a metal having a smaller ionization tendency than a conductive substance used for the conductive fiber. It is related with the connector which can be electrically joined.

  The invention according to claim 20 is characterized in that the fixing portion is a member different from the contact portion and penetrates a member constituting the contact portion. The present invention relates to a connector that can be electrically joined to the conductive fiber according to 6.

  The invention according to claim 21 relates to the connector capable of being electrically connected to the conductive fiber according to claim 20, wherein the fixing portion is formed of a driving rivet or a nail-like member having a sharp tip.

  The invention according to claim 22 relates to the connector capable of being electrically joined to the conductive fiber according to any one of claims 1 to 21, wherein the surface is coated with an insulating resin.

  According to the first aspect of the present invention, since the fixing portion fixed to the fabric around the conductive fiber is provided, even when the clothing fabric is deformed in accordance with the wearer's movement, etc. A large stress does not act directly on the fiber, and breakage is unlikely to occur. Further, since soldering is not required, it is possible to appropriately select and use a material excellent in rust prevention and elasticity as the contact portion, and the connector can be highly functionalized.

  According to the second aspect of the present invention, the conducting wire connecting portion is constituted by the female member formed integrally with the contact portion and the male member to which the conducting wire is fixed, and the male member and the female member are engaged with each other. By being removable, external electronic devices can be easily connected to and detached from the clothing, and the clothing can be washed.

  According to the invention which concerns on Claim 3, the member provided with the contact part and the member provided with the fixing | fixed part are comprised from another member, and the member provided with the contact part is arrange | positioned on the surface side of the fabric, and is fixed. When the member having the portion is disposed on the back side of the fabric, the connector can be securely fixed to the fabric by sandwiching the fabric.

  According to the invention which concerns on Claim 4, the member provided with the contact part, the member provided with the fixing | fixed part, and the member provided with the conducting wire connection part are each made into a separate member, and the member provided with the contact part, The member provided with the conductor connecting portion is composed of a male member and a female member that can be engaged with and disengaged from each other, so that external electronic devices can be easily connected to and detached from the clothing, and the clothing is washed. Is possible.

  According to the invention which concerns on Claim 5, it becomes possible to supply several information to several electronic equipment by fixing several conducting wire to a conducting wire connection part.

  According to the invention according to claim 6, since the connector does not have a conductor connecting portion, it is easy to downsize, and it is possible to attach the connector without conspicuous at various places on the clothing surface, It will be excellent in the design of clothing.

  According to the invention which concerns on Claim 7, it becomes possible to attach a connector to a fabric reliably and easily with a simple structure because a fixing | fixed part consists of several protrusions bent after penetrating a fabric.

  According to the invention which concerns on Claim 8, it becomes possible to join one connector to two cloth because the fixing | fixed part protrudes upward and downward with respect to the surface which comprises a contact part.

  According to the invention which concerns on Claim 9, since it does not overlap when protrusions are bent, a connector can be firmly fixed with respect to fabric. Further, the thickness of the connector on the back side of the fabric can be reduced.

  According to the invention which concerns on Claim 10, between the fabric and the contact part is sealed with the conductive adhesive, thereby obtaining a stable electrical connection between the contact part and the conductive fiber. It becomes possible.

  According to the invention which concerns on Claim 11, when the contact part consists of rigid members, such as a metal, by providing the cover which consists of a flexible material which covers the surface of a contact part, the electroconductivity in the case where a fabric deform | transforms The stress concentration on the conductive fiber can be relaxed, and the breakage of the conductive fiber can be prevented.

  According to the twelfth aspect of the present invention, the contact portion has an area that can be in close contact with a plurality of conductive fibers, so that it is possible to obtain electrical connection with the plurality of conductive fibers with one connector. The number of connectors can be reduced. Further, current can be supplied collectively from one connector to each conductive fiber having a small allowable current value.

  According to the invention which concerns on Claim 13, the contact part consists of the fabric in which the conductive fiber was woven, and the softness | flexibility of clothing is impaired compared with the case where rigid materials, such as a metal, are used as a contact part. It is possible to maintain the excellent wearing feeling inherent in clothing.

According to the fourteenth aspect of the present invention, since the plurality of male connectors are fixed to one piece of fabric, the attachment / detachment to / from the plurality of female connectors can be performed collectively. Therefore, when the conductive fibers constituting the clothing and the external electronic device are connected by a large number of conductors, the attachment / detachment work of the external device becomes very easy.
In addition, since the plurality of male connectors are integrated via the fabric, flexibility is not impaired when the connector is attached to clothing.

  According to the invention which concerns on Claim 15, it becomes possible to improve the adhesiveness of a conductive fiber and a contact part because a contact part has a recessed part in the part which contacts a conductive fiber.

  According to the invention of claim 16, since the contact portion disposed on the front surface side of the fabric and the plate disposed on the back surface side are physically fixed by the projecting pieces, the connector can be stably stabilized over a wide range. It becomes possible to fix to the fabric. Therefore, stable electrical bonding can be obtained even for a plurality of conductive fibers, and the strength of fixing the connector to the fabric is increased.

  According to the seventeenth aspect of the present invention, since the plate is integrated with the contact portion, the number of members can be reduced, and the connector can be easily attached.

  According to the invention which concerns on Claim 18 and 19, the electrical resistance between electroconductive fiber and a connector can be made small, and the electronic device electrically joined to electroconductive fiber can be operated favorably. It becomes.

  According to the twentieth aspect of the present invention, since the fixing portion is made of a separate member, the shape of the connector can be simplified, mass production is facilitated, and the manufacturing cost can be reduced.

  According to the invention of claim 21, since the fixing portion is made of a driving rivet or a nail-like member having a sharp tip, there is no need to make a pilot hole in the contact portion or the fabric, and the connector can be attached to the fabric. The work time required can be reduced.

  According to the invention of claim 22, since the surface is coated with an insulating resin, it is possible to prevent an electric shock and to prevent the connector from rubbing against the fabric and damaging the fabric. Moreover, it becomes easy to match the color of the connector with the surrounding fabric, and the connector becomes inconspicuous, so that the design of clothing can be improved.

The connector according to the present invention provides an electrical connection between the conductive fiber and the external electronic device by connecting between the clothing in which the conductive fiber is woven on the fabric surface and the external electronic device. It is a connector used for obtaining. The electronic device connected to the conductive fiber via the connector according to the present invention is not particularly limited as long as it is a device that operates by supplying power, and is a device composed of a large number of electronic components such as a computer. In addition, a single electronic component such as an LED is also included.
Hereinafter, preferred embodiments of a connector according to the present invention will be described with reference to the drawings as appropriate.

FIG. 1 is a perspective view showing a first embodiment of a connector according to the present invention, and FIGS. 2 and 3 are views showing a connector mounting method according to the first embodiment.
The connector (1) according to the first embodiment includes a contact portion (2) that is in close contact with the conductive fibers (11) woven into the surface of the fabric (10) constituting the garment, and forms an electrical connection. A connecting portion (3) for fixing the fixing portion (3) fixed to the fabric (10) around the conductive fiber (11) and a conducting wire (14) for connecting to an external electronic device (not shown) 4).

In the connector (1) according to the first embodiment, the contact portion (2), the fixing portion (3), and the conductor connecting portion (4) are formed as an integral member, and the whole is made of a metal material such as copper. .
The contact part (2) is formed in a flat plate shape having a rectangular shape in plan view, and its back surface is brought into close contact with the conductive fiber (11), thereby forming an electrical connection with the conductive fiber. can do.
The contact portion (2) extends along the length direction of the conductive fiber (11) (see FIG. 2A), and can be brought into close contact with only one conductive fiber (11). Yes.

A plurality of fixing portions (3) are formed along two opposing sides (long sides) of the rectangular plate constituting the contact portion (2) (in the illustrated example, a total of 6 along each side). ) Projecting pieces (hereinafter referred to as projecting pieces (3)). Here, when the protrusion (3) provided along one side and the protrusion (3) provided along the other side are bent on the back side of the fabric (10) as described later, They are shifted to positions that do not overlap (see FIG. 3B).
In the present invention, it is preferable to arrange the protruding pieces at positions where they do not overlap when bent, but they may be arranged at overlapping positions.
The protruding piece (3) protrudes vertically downward with respect to the flat plate surface constituting the contact portion (2).
The shape of the projecting piece (3) needs to have a sharp tip so that the fabric (10) can be easily penetrated. In the illustrated example, an isosceles triangular thin piece with a sharp tip is used. Has been.

  The conducting wire connecting portion (4) is cylindrical and has one end portion (2) of the contact portion (2) such that its length direction is the same as the long side direction of the rectangular flat plate constituting the contact portion (2). A rectangular short side).

When attaching the connector according to the first embodiment to the surface of the fabric (10) constituting the garment, the connector (1) is disposed at a position where the contact portion (2) covers the surface of the conductive fiber (11). The piece (3) is penetrated from the front surface of the fabric (10) toward the back surface (see FIG. 2).
Subsequently, by bending the protrusion (3) penetrating the fabric (10) at a right angle on the back surface of the fabric (10), the contact portion (2) is in intimate contact with the conductive fiber (11), The connector (1) is fixed to the fabric (10) (see FIG. 3). In addition, FIG.3 (b) is the figure which looked at the fabric (10) which fixed the connector from the back surface side.

A conducting wire (for example, coated copper wire) (14) for connecting to an external electronic device (not shown) is inserted into the cylindrical hole portion of the conducting wire connecting portion (4) and fixed by pressure (see FIG. 2). ).
Thereby, a conductive fiber (11) and an external electronic device are electrically connected via a conducting wire (14) and a connector (1).
In the present invention, the number of the lead wires (14) fixed to the lead wire connecting portion (4) may be one as shown in FIGS. 2 and 3, or a plurality of leads (14) as shown in FIG. In the figure, it may be two).
When a plurality of conducting wires (14) are fixed, a plurality of information can be supplied to a plurality of electronic devices.

In the connector (1) according to the first embodiment described above, the fixing portion (3) is fixed to the fabric (10) around the conductive fiber (11), so even when the fabric is deformed, A large stress does not act directly on the conductive fiber, and breakage hardly occurs.
In addition, the connector (1) can be reliably and easily attached to the fabric (10) by the fixing portion (3) comprising a plurality of protruding pieces bent after penetrating the fabric.

In the present invention, in the connector according to the first embodiment, the lead wire connecting portion (4), the female member (41) formed integrally with the contact portion (2), and the male member (42) to which the lead wire (14) is fixed. 2) (see FIG. 5).
The male member (42) includes a columnar connection portion (42a) that can be inserted into and removed from the cylindrical female member (41) on one end side (opposite side to the conducting wire), and a conducting wire ( 14) is provided with a cylindrical portion (42b) to be fixed by pressure bonding.
As a result, the male member (42) can be engaged with and disengaged from the female member (41), and external electronic devices can be easily connected to and detached from the clothing.

Furthermore, in this invention, as shown to Fig.6 (a), the cover (6) consisting of a flexible material can be attached so that the surface of the contact part (2) of a connector (1) may be covered.
The material of the cover (6) is not particularly limited as long as it is a flexible material, but for example, soft rubber, soft synthetic resin, fabric, etc. are preferably used.
The cover (6) includes a plate-like portion (61) having an area (an outer shape that is slightly larger than the contact portion) that can cover the entire surface of the contact portion (2) of the connector (1), and the connector (1). And a cylindrical portion (62) that covers the surface of the conductive wire connecting portion (4) (see FIG. 6B).

Fig.6 (a) is a perspective view which shows the state which attached the cover (6) with respect to the connector (1).
As shown in the figure, the cover (6) covers the surface of the contact portion (2) and the fixing portion (3) of the connector (1) fixed to the fabric (10) woven with the conductive fibers (11). It is attached.
The lead wire connecting portion (4) of the connector (1) is fitted into the cylindrical portion (62) of the cover (6), whereby the connector (1) and the cover (6) are integrated.

When the contact portion (2) of the connector (1) is formed of a metal that is a rigid material, the fabric (10) in which the conductive fibers are woven is deformed, and the conductive fibers contact the contact portion (2). Then, stress concentration occurs at the contact portion, and the conductive fiber may be broken (see FIG. 7A).
Therefore, even when the fabric (10) woven with conductive fibers is deformed by attaching a cover (6) made of a flexible material so as to cover the surface of the contact portion (2) of the connector (1). The conductive fiber is prevented from coming into direct contact with the contact portion (2) of the connector (1) and is deformed with a relatively large radius so that the stress acting on the conductive fiber is dispersed. Thus, there is no possibility that the conductive fiber breaks (see FIG. 7B).

FIG. 8 is a view showing a second embodiment of the connector according to the present invention, wherein (a) is a view showing an attachment method, and (b) is a view showing a state of attachment.
The connector (1) according to the second embodiment includes a contact portion (2) that is in close contact with the conductive fibers (11) woven on the surface of the fabric (10) constituting the garment, and forms an electrical connection. The fixing part (3) fixed to the fabric (10) around the synthetic fiber (11) is provided, but the conductor connecting part (4) is not provided.
That is, the connector of the second embodiment differs from the connector of the first embodiment in the configuration of the contact portion (2) and the fixing portion (3), and differs only in that it does not include the conductor connection portion (4). Yes.

The connector of the second embodiment is similar to the connector of the first embodiment. After the protruding piece (3) is penetrated from the front surface of the fabric (10) toward the back surface, the penetrated protruding piece (3) is passed through the fabric. It is fixed to the fabric (10) by bending it at a right angle on the back side of (10).
At this time, a terminal of an external electronic device (LED in the illustrated example) (17) or a conductive wire connected to the terminal is sandwiched and fixed between the contact portion (2) and the conductive fiber (11). .
Thereby, an electroconductive fiber (11) and an external electronic device (17) are electrically joined via the contact part (2) of a connector (1).

Since the connector of the second embodiment does not have the conductor connection part (4), it is easy to reduce the size, and it is possible to attach the connector without conspicuous at various places on the clothing surface.
In addition, since this connector can be attached to various parts of clothing, it is preferable that the connector be configured to have flexibility so as not to impair the attachment. Specifically, for example, the contact portion (2) can be composed of a fabric woven with conductive fibers.

FIG. 9 is a view showing a third embodiment of the connector according to the present invention, and FIG. 10 is a view showing a method of attaching the connector (1) according to the third embodiment.
As for the connector which concerns on 3rd embodiment, the member provided with the contact part (2), the member provided with the fixing | fixed part (3), and the member provided with the conducting wire connection part (4) are each made into a separate member. .
And the member provided with the contact part (2) is arrange | positioned at the surface side of the fabric (10) in which the electroconductive fiber (11) was woven, and the member provided with the fixing | fixed part (3) is the back surface side of the fabric (10) It is comprised so that this fabric may be pinched | interposed by both members.

Moreover, the member provided with the contact part (2) and the member provided with the conducting wire connection part (4) are comprised from the male member and female member which can be engaged / disengaged mutually.
In the illustrated example, the member provided with the contact portion (2) is a female member (22) made of a female hook, and the member provided with the conductor connecting portion (4) is a male member (21) made of a male hook. The female member (22) is fixed to the fabric (10).

The male member (21) is composed of a disc-shaped portion having a protrusion (21a) at the center of the back surface, and a cylindrical lead wire connecting portion (4) provided integrally on the side edge of the disc-shaped portion. ing.
A female member (22) is a disk-shaped member, and the back surface thereof becomes a contact portion (2) in close contact with the conductive fiber (11). A hole (22a) is formed at the center of the surface of the female member (22), and a plurality of through holes (22b) are formed around the hole (22a).
And the protrusion (21a) of the male member (21) can be engaged with and disengaged from the hole (22a) of the female member (22).

The female member (22) is fixed to the fabric (10) using the fixing portion (3).
The fixing part (3) is provided on an annular member which is a separate member from the member provided with the contact part (2) (see FIG. 9).
Specifically, a plurality of projecting pieces formed along the circumferential direction of the annular member serve as a fixing portion (3), and the projecting piece (hereinafter referred to as the projecting piece (3)) is a plane of the annular member. It protrudes vertically upward with respect to the part.
The shape of the projecting piece (3) is not particularly limited as long as the tip is sharp, but in the illustrated example, it is an isosceles triangular thin piece with a sharp tip.

A method for attaching the connector (1) according to the third embodiment will be described.
First, the female member (22) is fixed to the surface of the fabric (10) constituting the garment.
For fixing, the female member (22) is disposed on the front surface side of the fabric (10), the annular member having the projecting piece (3) is disposed on the back surface side, and the projecting piece (3) is attached to the fabric (10) and After passing through the through hole (22b) formed in the female member (22), it is bent at a right angle on the surface (see FIG. 10 (a)).
Subsequently, the protrusion (21a) of the male member (21) is inserted into the hole (22a) of the female member (22) (see FIG. 10 (b)).
Thereby, a connector (1) is fixed with respect to a fabric (10) in the state which the contact part (2) provided in the back surface of the female member (22) was closely_contact | adhered with respect to the electroconductive fiber (11).

A conducting wire (for example, a coated copper wire) (14) for connecting to an external electronic device (not shown) is inserted into the cylindrical hole portion of the conducting wire connecting portion (4) and fixed by pressure.
Thereby, a conductive fiber (11) and an external electronic device are electrically connected via a conducting wire (14) and a connector (1).

In the present invention, although not shown in the drawings, in the connector according to the third embodiment, a member (female member (22)) having a contact portion (2) and a member (male member ( 21)) may be integrally formed.
In this case, for example, if the male member (21) shown in FIGS. 9 and 10 is eliminated, the conductor connecting portion (4) is provided integrally with the side edge portion of the disk-shaped portion of the female member (22). Good.

Moreover, in this invention, the insulation cover (7) formed from insulating materials, such as rubber | gum and a synthetic resin, can be attached so that the surface of a connector (1) may be covered.
FIG. 11 shows an example in which the insulating cover (7) is attached to the male member (21) and the female member (22), and the portion covered with the insulating cover (7) is indicated by hatching.
In the illustrated example, the surface and side surfaces of the male member (21) and the side surface of the female member (22) are covered with an insulating cover (7). Moreover, although not shown in figure, you may also cover the surface of conducting-wire connection part (4) with an insulating cover.
By attaching the insulating cover (7) in this way, electric shock can be prevented.

FIG. 12 is a diagram showing a fourth embodiment of the connector according to the present invention, and FIG. 13 is a diagram showing a connector mounting method according to the fourth embodiment.
In the connector (1) according to the fourth embodiment, the contact portion (2), the fixing portion (3), and the conductor connecting portion (4) are formed as an integral member.
The connector (1) according to the fourth embodiment is the same as the connector of the first embodiment in the fixing portion (3) and the conductor connecting portion (4), but the configuration of the contact portion (2) is the same as that of the first embodiment. It is different from the connector.

The first difference is the area of the contact portion (2).
In the first embodiment, the contact portion (2) has an area in close contact with only one conductive fiber (11), but in the third embodiment, a plurality of pieces (FIG. In the example shown, it has an area that can be in close contact with five conductive fibers (11).

The second difference is the material of the member constituting the contact portion (2).
In the first embodiment, the contact portion (2) is made of metal. However, in the third embodiment, the contact portion (2) has a plurality of conductive wires (5 in the illustrated example) arranged in parallel to each other. It is formed from a fabric (13) in which a woven fiber (12) is woven.
The conductive fibers (11) woven into the fabric (10) constituting the garment and the conductive fibers (12) woven into the fabric (13) constituting the contact portion (2) of the connector (1) are: The same number and the same interval are arranged.
Thereby, when the contact portion (2) is fixed to the fabric (10), the individual conductive fibers (12) of the contact portion (2) are made to the individual conductive fibers (11) of the fabric (10). Each can be in close contact.

Further, the plurality of conductive fibers (12) woven into the fabric (13) constituting the contact portion (2) merges into one at one end, and the conductive fibers (12) at the merged portion. A cylindrical conducting wire connecting portion (4) capable of electrical conduction is attached.
As a result, a current flowing from one conductor connected to an external power source (not shown) through the conductor connecting portion (4) is branched and supplied to the plurality of conductive fibers (12). Is possible.

The fabric (13) constituting the contact portion (2) is provided with a metal fixing portion (3).
The fixing portion (3) is composed of a plurality of projecting pieces (hereinafter referred to as projecting pieces (3)), and projects vertically downward with respect to the fabric ground constituting the contact portion (2).
In FIG. 13A, for convenience of explanation, the connector (1) is drawn upside down from the time of attachment, so that the projecting piece (3) faces upward.
The shape of the projecting piece (3) is a shape with a sharp tip so that the fabric (10) can be easily penetrated. In the example shown in the drawing, the thin piece is an isosceles triangle with a sharp tip.
The protruding piece (3) is provided between the side edge of the fabric (13) and the conductive fibers (12).

A method for attaching the connector (1) according to the fourth embodiment will be described.
First, the contact portion (2) of the connector (1) is placed on the surface of the conductive fiber (11) (see FIG. 13 (a)), and the projecting piece (3) is placed from the surface of the fabric (10) to the back surface. Pierce toward. At this time, the conductive fibers (11) and the conductive fibers (12) are overlapped.
Subsequently, the projecting piece (3) penetrating the fabric (10) is bent at a right angle on the back surface of the fabric (10), so that the conductive fiber (12) of the contact portion (2) becomes the conductive fiber (11). The connector (1) is fixed to the fabric (10) in close contact with the fabric (see FIG. 13B).

A conducting wire (for example, a coated copper wire) (14) for connecting to an external electronic device (not shown) is inserted into the cylindrical hole portion of the conducting wire connecting portion (4) and fixed by pressure.
Thus, the plurality of conductive fibers (11) and the external electronic device are electrically connected via the conductor (14) and the connector (1).

  The connector (1) of the fourth embodiment has an area where the contact portion (2) can be in close contact with the plurality of conductive fibers (11) woven into the fabric (10) constituting the garment. Electrical connection with a plurality of conductive fibers can be obtained simultaneously with the connector, and the number of connectors can be reduced.

However, when a rigid material such as a metal is used as the contact portion (2), if the area of the contact portion (2) increases, the flexibility of the clothing is greatly impaired, and the wearer's movement may be hindered.
Therefore, in the connector (1) of the fourth embodiment, the contact portion (2) is constituted by the fabric (13) in which the conductive fibers (11) are woven, so that the flexibility of the clothing is not impaired. I made it.

FIG. 14 is a view showing a fifth embodiment of the connector (1) according to the present invention.
The connector (1) according to the fifth embodiment is composed of a male connector (1a) and a female connector (1b) as shown in FIG. 14 (a), and these two connectors are engaged with each other. It is possible.

The female connector (1b) has the same shape as the connector of the first embodiment, and is fixed to the fabric (10) constituting the garment by the same method.
However, the contact part (2b) and the fixing part (not shown in FIG. 14) of the female connector (1b) function similarly to the contact part (2) and the fixing part (3) of the connector of the first embodiment. However, the cylindrical portion corresponding to the conductor connecting portion (4) of the connector of the first embodiment in the female connector (1b) is not a portion for connecting the conductor, but a connector connection for connecting the male connector (1a). It functions as a part (4b).
In the fifth embodiment, a plurality (three in the illustrated example) of female connectors (1b) are in contact with a plurality of conductive fibers (11) woven into a fabric (10) constituting clothing. It is fixed at a predetermined interval to the fabric so that the portions (2b) are in close contact with each other.

The male connector (1a) includes a contact portion (2a), a fixing portion (not shown in FIG. 14), and a conductor connecting portion (4a) similar to the connector of the first embodiment. Moreover, the connector connection part (5) for connecting with respect to a female connector (1b) is further provided in the front end side (opposite side of a conducting wire connection part) of a contact part (2a).
The connector connecting portion (5) is formed in a cylindrical shape that can be inserted into and removed from the connector connecting portion (4b) of the female connector (1b).

In the fifth embodiment, a plurality of male connectors (1a) are fixed to one piece of fabric (15) different from the fabric (10) constituting the garment at intervals. The fabric (15) is used for the purpose of integrating a plurality of male connectors (1a), and no conductive fibers are woven.
The number and interval of the male connectors (1a) are set to be the same as the number and interval of the female connectors (1b).

The male connector (1a) and the female connector (1b) are connected by inserting and attaching the connector connecting portion (5) to the connector connecting portion (4b) as shown in FIG. 14 (b). .
As a result, electrical conduction from the conductive fiber (11) woven into the fabric (10) constituting the garment to the conductive wire (14) fixed to the conductive wire connecting portion (4a) of the male connector (1a) is achieved. Obtainable.

According to the connector of the fifth embodiment, since the plurality of male connectors (1a) are fixed to one piece of fabric, the attachment / detachment to / from the plurality of female connectors (1b) can be performed collectively. It becomes possible. Therefore, when the conductive fibers constituting the clothing and the external electronic device are connected by a large number of conductive wires, the attachment / detachment work of the external electronic device becomes very easy.
Moreover, in order to integrate a plurality of male connectors (1a), the use of a cloth instead of a rigid material such as a metal plate does not impair the flexibility of clothing.

FIG. 15 is a diagram showing a modification of the fifth embodiment.
Similarly to the fifth embodiment, the connector (1) of this modification is composed of a male connector (1a) and a female connector (1b), and these two connectors can be engaged with and disengaged from each other. (See FIG. 15A).

As the female connector (1b), a female member (22) (see FIG. 9) comprising a female hook of the connector of the third embodiment is used, and the female member (22) of the connector of the third embodiment and In the same way, it is fixed to the fabric (10) constituting the garment by a member having a plurality of protruding pieces (3).
A plurality (three in the figure) of the female connector (1b) is such that the contact portion (2) is in close contact with the plurality of conductive fibers (11) woven into the fabric (10) constituting the garment. Further, they are fixed to the fabric with a predetermined interval.

As the male connector (1a), a male member (21) (see FIG. 9) comprising a male hook of the connector of the third embodiment is used.
The plurality of male connectors (1a) are fixed at an interval to a single fabric (15) different from the fabric (10) constituting the garment. The fabric (15) is used for the purpose of integrating a plurality of male connectors (1a), and no conductive fibers are woven.
The male connector (1a) may be fixed to the fabric (15) by using an adhesive or the like, or the plurality of protruding pieces (3) may be fixed in the same manner as the female connector (1b). The fabric (15) may be sandwiched and fixed from the front and back using a member provided with In this case, it goes without saying that a hole for passing the protruding piece (3) through the male connector (1a) is provided.
The number and interval of the male connectors (1a) are set to be the same as the number and interval of the female connectors (1b).

  Also in this modified example, the same effect as that of the fifth embodiment described above can be obtained, and the engagement / disengagement method using the hook is adopted, so that the work of attaching / detaching the external electronic device to / from the clothes becomes easier. .

FIG. 16 is a diagram showing a sixth embodiment of a connector according to the present invention.
The connector (1) according to the sixth embodiment is the connector according to the first embodiment, in which the fixed portion (projection piece) (3) is vertically upward and vertically downward with respect to the surface constituting the contact portion (2). Protrudes in the direction.
Thus, by fixing the fixing portion (3) in the vertical direction, the fabric can be fixed to the front surface side (upper side) and the rear surface side (lower side) of the contact portion (2) of the connector (1), One connector can be joined to two cloths.
Therefore, for example, as shown in the figure, one connector (1) is divided into a fabric (10) constituting a garment in which conductive fibers (11) are woven on the surface, and a fabric (16) in which conductive fibers are not woven. Can be bonded to two fabrics. In addition, in FIG. 16, the part to which the contact part (2) of a connector is fixed is shown to the fabric (10) (16) with the virtual line (two-dot chain line).
Although not shown, conductive fibers are woven into the fabric (16) in FIG. 16, and one connector (1) is used as the fabric constituting the garment in which the upper and lower conductive fibers (11) are woven on the surface. You may make it join with respect.

FIG. 17 is a view showing a seventh embodiment of the connector according to the present invention, wherein (a) is a view showing a method of attaching the connector, (b) is a view of the fabric to which the connector is fixed, as viewed from the back side; c) is a diagram showing a modified example.
The connector (1) according to the seventh embodiment is in addition to the same connector as the first embodiment (hereinafter referred to as a surface side connector) arranged so that the contact portion (2) is in close contact with the surface of the fabric (10). The plate (18) is provided in close contact with the back surface of the fabric (10).
The plate (18) has substantially the same shape as the contact portion (2), and is made of a rigid material such as metal. And the hole (19) is provided in the location corresponding to the protrusion (3) which protrudes downward from the contact part (2) of a surface side connector.

When attaching the connector which concerns on 7th embodiment to the fabric (10) which comprises clothing, a surface side connector is arrange | positioned in the upper position of the conductive fiber (11) of the surface side of a fabric (10), and a plate (18) Is placed on the back side of the fabric (10).
Next, the protruding piece (3) is penetrated from the front surface to the back surface of the fabric (10) and inserted into the hole (19) of the plate (18) (see FIG. 17A).
Subsequently, the protruding piece (3) penetrating the fabric (10) is bent at a right angle on the back surface of the plate (18) (see FIG. 17B).
Thereby, the contact part (2) of the surface side connector is in intimate contact with the conductive fiber (11), and the connector (1) is in contact with the fabric (10) while the plate (18) is in intimate contact with the back surface of the fabric. Fixed.

  In the connector of the seventh embodiment, the contact portion (2) disposed on the front surface side of the fabric (10) and the plate (18) disposed on the back surface side are physically fixed by the projecting piece (3). Therefore, the connector can be stably fixed to the fabric over a wide range, and a stable electrical connection can be obtained even for a plurality of conductive fibers, and the strength of fixing the connector to the fabric is also increased. .

Moreover, in the connector which concerns on 7th embodiment, as shown in FIG.17 (c), a plate (18) and a contact part (2) can also be integrated.
In the illustrated example, the plate (18) and the contact portion (2) are connected in a V shape at one end of each other, and the plate (18) is bent and used with one end as a fulcrum as indicated by an arrow. . Thereby, at the same time that the fabric (10) is sandwiched between the plate (18) and the contact portion (2), the protruding piece (3) can be inserted into the hole (19) of the plate (18).

FIG. 18 is a diagram showing an eighth embodiment of a connector according to the present invention.
The connector (1) according to the eighth embodiment includes a contact portion (2) that is in close contact with the conductive fibers (11) woven into the surface of the fabric (10) constituting the garment and forms an electrical connection, A connecting portion (3) for fixing the fixing portion (3) fixed to the fabric (10) around the conductive fiber (11) and a conducting wire (14) for connecting to an external electronic device (not shown) 4).

A contact part (2) consists of a metal plate arrange | positioned at the surface side of the fabric (10), and is integrated with the plate arrange | positioned at the back surface side of the fabric (10) in the example of illustration, and the fabric (10). Is sandwiched from the front and back.
However, the plate on the front surface side and the plate on the back surface side of the fabric (10) constituting the contact portion (2) may be separate members.

The fixing part (3) is a separate member from the contact part (2), and is provided so as to penetrate the member and the fabric (10) constituting the contact part (2).
Specifically, the fixing portion (3) includes a rivet such as a driving rivet, a hollow rivet, an empty rivet, a screw, a bolt, a nail-like member having a sharp tip (hereinafter referred to as a nail-like member), and the like. Of these, driven rivets or nail-like members are preferably used.
When the fixing portion (3) is a driving rivet or a nail-like member, the fixing portion (3) penetrates the member and the fabric (10) constituting the contact portion (2) from the front surface side toward the back surface side, and penetrated. The tip portion is caulked on the back side of the fabric (10). Thereby, a contact part (2) is fixed with respect to a fabric (10). FIG. 18B shows an example in which a driving rivet is used as the fixing portion (3).
When the fixing part (3) is a screw or a bolt, it is necessary to make a pilot hole in the contact part (2) or the fabric (10), but when it is a driving rivet or a nail-like member, a pilot hole is made. There is no need. Therefore, the work time required for attaching the connector (1) to the fabric (10) can be reduced.

  In the eighth embodiment, the lead wire connecting portion (4) is omitted, and the terminal of the external electronic device or between the contact portion (2) and the conductive fiber (11) as in the connector of the second embodiment. You may fix on both sides of the conducting wire connected to this terminal.

  In the present invention, in all the above-described embodiments, the space between the fabric (10) woven with the conductive fibers (11) and the contact portion (2) of the connector is sealed with a conductive adhesive. be able to. Thereby, it becomes possible to obtain a favorable electrical connection between the conductive fiber woven into the fabric and the connector contact portion.

In the present invention, in all the above-described embodiments, the concave portion can be formed on the surface of the contact portion (2) of the connector that contacts the conductive fiber (11). Thereby, it becomes possible to improve the adhesiveness of a conductive fiber (11) and a contact part (2).
19A shows an example in which a V-shaped groove-shaped recess (8) is formed and conductive fibers (11) are fitted into the recess, and FIG. 19B shows a square-groove-shaped recess (8). FIG. 19 (c) shows an example in which the conductive fiber (11) is fitted into the concave portion (8) formed between the two convex portions. This is an example.
However, these illustrated shapes are merely examples, and other shapes of concave portions (including irregularities) may be formed as long as the adhesion between the conductive fibers (11) and the contact portions (2) can be improved. .

Furthermore, in the present invention, not only the contact portion (2) but also the fixing portion (3) may be in contact with the conductive fibers (11) woven into the fabric constituting the garment.
For example, in the first embodiment, the conductive fibers (11) are alternately exposed on the front and back surfaces of the fabric (10), the contact portions (2) are brought into contact with the conductive fibers exposed on the front surface, and are exposed on the back surface. You may make it contact the fixing | fixed part (projection piece) (3) bent to the electroconductive fiber which carried out.
In this way, not only the contact portion (2) but also the fixing portion (3) is brought into contact with the conductive fiber (11), so that more reliable electrical joining can be obtained.

In the connector according to the present invention, the portions other than the fabrics (13) and (15) are formed of a metal material such as copper in the above-described embodiment.
Here, the part formed from the metal material is manufactured with a metal having a smaller ionization tendency than the conductive material used for the conductive fiber, or compared with the conductive material used for the conductive fiber. In other words, it is preferably coated (plated) with a metal having a low ionization tendency.
This is because when the metal used for the connector is a metal (base metal) that has a higher ionization tendency than the conductive material used for the conductive fiber, the electrical resistance between the connector and the conductive fiber is increased. This is to prevent this.
For example, when using a conductive fiber that has copper sulfide deposited to ensure conductivity, the electrical resistance between the conductive fiber and the connector can be reduced by applying gold plating to the connector. it can.
In addition, the site | part which uses the metal with a small ionization tendency may be the whole connector, and may be a part of connectors, such as a contact part.

Furthermore, in the connector according to the present invention, it is preferable that the surface of the portion formed from the metal material is covered with an insulating resin.
The coating method is not particularly limited. For example, a resin may be applied to the connector surface, or the resin may be bonded to the connector surface with an adhesive.
The type of resin used may be either a hard resin or a hard resin, and may be appropriately selected according to the location where the connector is attached. However, a flexible soft resin should be used where the fabric is greatly deformed. Is preferred. A silicone resin can be illustrated as an example of the resin to be used, but is not limited thereto.
Since the metal is not exposed by covering the connector surface with the resin in this way, an electric shock can be prevented. Further, it is possible to prevent the connector from rubbing against the fabric and damaging the fabric. Furthermore, it becomes easy to match the color of the connector to the surrounding fabric, and the connector becomes inconspicuous, so that the design of clothing can be improved.

  The connector according to the present invention can be applied to a so-called wearable computer.

1 is a perspective view showing a first embodiment of a connector according to the present invention. It is a figure which shows the attachment method of the connector which concerns on 1st embodiment. It is a figure which shows the attachment method of the connector which concerns on 1st embodiment. It is a figure which shows the state which connected the several conducting wire to the conducting wire connection part of the connector which concerns on 1st embodiment. It is a figure which shows the example which comprised the conducting wire connection part of the connector which concerns on 1st embodiment from the male member and the female member. It is a figure which shows the cover which consists of flexible materials, and its attachment method. It is a figure which shows the effect | action of the cover which consists of flexible materials. It is a figure which shows 2nd embodiment of the connector which concerns on this invention. It is a figure which shows 3rd embodiment of the connector which concerns on this invention. It is a figure which shows the attachment method of the connector which concerns on 3rd embodiment. The example which attached the insulating cover with respect to the male member and the female member is shown. It is a figure which shows 4th embodiment of the connector which concerns on this invention. It is a figure which shows the attachment method of the connector which concerns on 4th embodiment. It is a figure which shows 5th embodiment of the connector which concerns on this invention. It is a figure which shows the modification of 5th embodiment. It is a figure which shows 6th embodiment of the connector which concerns on this invention. It is a figure which shows 7th embodiment of the connector which concerns on this invention. It is a figure which shows 8th embodiment of the connector which concerns on this invention. In the connector which concerns on this invention, it is the elements on larger scale which show the example which formed the recessed part in the surface which contacts the conductive fiber of a contact part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Connector 1a Male connector 1b Female connector 2, 2a, 2b Contact part 3 Fixed part (projection piece)
4, 4a Conductor connecting portion 41 Female member 42 of conducting wire connecting portion Male member 7 of conducting wire connecting portion Insulating cover 8 Recess 10 Fabric of clothing 11 in which conductive fibers are woven 11 Conductive fibers 12 Conductive fibers 13 Conductive fibers are woven Cloth 14 Conductor 15 Cloth 18 that is different from the cloth constituting the garment 18 Plate 19 Hole 21 Male member 22 Female member

Claims (22)

A connector attached to a garment in which conductive fibers are woven into a fabric surface,
A contact portion that forms an electrical bond in intimate contact with the conductive fibers;
A fixing portion fixed to a fabric around the conductive fiber;
A connector capable of being electrically joined to a conductive fiber, comprising: a conductive wire connecting portion for fixing a conductive wire for electrically connecting an external electronic device to the conductive fiber. The conducting wire connecting portion is composed of a female member formed integrally with the contact portion, and a male member to which the conducting wire is fixed,
2. The connector capable of being electrically connected to conductive fibers according to claim 1, wherein the male member and the female member are detachable from each other. The member provided with the contact portion and the member provided with the fixing portion are composed of separate members,
The member having the contact portion is disposed on the front surface side of the fabric, and the member having the fixing portion is disposed on the back surface side of the fabric to sandwich the fabric. Connector that can be electrically connected to the conductive fiber. The member provided with the contact portion, the member provided with the fixed portion, and the member provided with the conducting wire connecting portion are respectively separate members,
4. The conductive fiber according to claim 3, wherein the member having the contact portion and the member having the conductive wire connecting portion include a male member and a female member that can be engaged with and disengaged from each other. connector.   5. The connector capable of being electrically joined to the conductive fiber according to claim 1, wherein a plurality of conductive wires are fixed to the conductive wire connecting portion. A connector attached to a garment in which conductive fibers are woven into a fabric surface,
A contact portion that forms an electrical bond in intimate contact with the conductive fibers;
A fixing portion fixed to the fabric around the conductive fiber,
A connector capable of being electrically connected to a conductive fiber, wherein a terminal of an external electronic device or a conductive wire connected to the terminal is sandwiched and fixed between the contact portion and the conductive fiber.   7. The conductive fiber and electricity according to claim 1, wherein the fixing portion is formed of a plurality of projecting pieces that are formed integrally with the contact portion and bent after passing through the fabric. Connectors that can be joined together.   The connector that can be electrically joined to the conductive fiber according to claim 7, wherein the fixing portion protrudes upward and downward with respect to a surface constituting the contact portion.   The protruding pieces are respectively provided along two opposing sides of the plate constituting the contact portion, and a protruding piece provided along one side and a protruding piece provided along the other side are provided. 9. The connector capable of being electrically joined to a conductive fiber according to claim 7 or 8, wherein the connector is arranged so as not to overlap when bent.   10. The connector capable of being electrically connected to conductive fibers according to claim 1, wherein a gap between the fabric and the contact portion is sealed with a conductive adhesive.   The connector that can be electrically joined to the conductive fiber according to any one of claims 1 to 10, further comprising a cover made of a flexible material that covers a surface of the contact portion.   The connector capable of being electrically joined to conductive fibers according to any one of claims 1 to 11, wherein the contact portion has an area close to a plurality of the conductive fibers.   13. The connector capable of being electrically connected to conductive fibers according to claim 12, wherein the contact portion is made of a fabric woven with conductive fibers. The connector comprises a male connector and a female connector that can be engaged with and disengaged from each other,
A plurality of the female connectors are fixed at a predetermined interval to the fabric so that the contact portions are in close contact with a plurality of conductive fibers woven into the fabric constituting the garment. ,
14. The conductive material according to claim 1, wherein a plurality of the male connectors are fixed to a single cloth different from the cloth with the predetermined interval. Connector that can be electrically connected to fiber.   The connector that can be electrically joined to the conductive fiber according to claim 1, wherein the contact portion has a recess in a portion that contacts the conductive fiber. Comprising a plate in intimate contact with the fabric backside;
The connector capable of being electrically connected to the conductive fiber according to claim 7, wherein the plate has a hole into which the protruding piece is inserted.   The connector capable of being electrically joined to the conductive fiber according to claim 16, wherein the plate is integrated with the contact portion.   The connector capable of being electrically connected to the conductive fiber according to any one of claims 1 to 17, wherein the connector is made of a metal having a smaller ionization tendency than a conductive material used for the conductive fiber.   The connector capable of being electrically joined to the conductive fiber according to any one of claims 1 to 17, wherein the connector is coated with a metal having a smaller ionization tendency than a conductive material used for the conductive fiber.   7. The conductive fiber and the electric device according to claim 1, wherein the fixing portion is a member different from the contact portion and penetrates a member constituting the contact portion. Connectors that can be joined together.   21. The connector capable of being electrically connected to conductive fibers according to claim 20, wherein the fixing portion is formed of a driving rivet or a nail-like member having a sharp tip.   The connector which can be electrically joined to the conductive fiber according to any one of claims 1 to 21, wherein the surface is coated with an insulating resin.

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