JP2020135921A - Fabric connector - Google Patents

Abstract

To improve electrical connection stability between a first connection terminal and a second connection terminal and detachability.SOLUTION: A fabric connector includes: a conductive fabric member; a to-be-bonded member; a first connection terminal; and a second connection terminal. The first connection terminal is provided on the fabric member and has conductivity. The second connection terminal is provided on the to-be-bonded member, has conductivity, and is connectable to the first connection terminal. Then, the first connection terminal and the second connection terminal have magnetism that can be attracted to each other by magnetic force.SELECTED DRAWING: Figure 1

Description

The present invention relates to a fabric connector.

In recent years, conductive fibers have been woven into fabrics such as fabrics and woven fabrics and connected to electronic devices to be used as signal communication paths. Further, from the viewpoint of resistance to washing and the like, an electronic device is configured to be detachable from the fabric by using a snap button (see, for example, Patent Document 1).

JP-A-2018-170192

However, the snap buttons used in the past have suffered a decrease in electrical connection stability and a decrease in detachability due to deterioration of springiness due to repeated attachment and detachment.

An object of the present invention is to provide a fabric connector capable of improving electrical connection stability and detachability.

In order to solve the above-mentioned problems and achieve the object, the present invention comprises a conductive fabric member, a member to be joined, a first connection terminal provided on the fabric member and having conductivity, and the above. A second connection terminal provided on the member to be joined, which has conductivity and can be joined to the first connection terminal, is provided. The first connection terminal and the second connection terminal have magnetism that can be attracted to each other by magnetic force.

According to the present invention, the conductive first connection terminal provided on the fabric member and the conductive second connection terminal provided on the member to be joined have magnetism that can be attracted to each other by magnetic force. Have. Therefore, the first connection terminal 20 and the second connection terminal 22 are joined by magnetic attraction. Therefore, as compared with the form in which the first connection terminal 20 and the second connection terminal 22 are joined by the mechanical structure, it is possible to suppress a decrease in detachability and a decrease in electrical connection stability. Therefore, according to the present invention, it is possible to improve the electrical connection stability and the detachability of the first connection terminal and the second connection terminal.

FIG. 1 is a schematic view showing an example of a fabric connector of the embodiment. FIG. 2 is a schematic view showing an example of the fabric member of the embodiment. FIG. 3 is a schematic view showing an example of a member to be joined according to the embodiment. FIG. 4 is a diagram showing an example of an application embodiment of the fabric connector of the embodiment. FIG. 5 is a schematic view showing an example of the arrangement of the first connection terminal of the modified example. FIG. 6 is a schematic view showing an example of the arrangement of the second connection terminal of the modified example. FIG. 7 is a schematic view showing an example of the arrangement of the first connection terminal of the modified example. FIG. 8A is a schematic view showing an example of a member to be joined in a modified example. FIG. 8B is a schematic view showing an example of a member to be joined in a modified example.

Hereinafter, embodiments of the fabric connector according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic view showing an example of the fabric connector 1 of the present embodiment.

The fabric connector 1 includes a fabric member 10, a member 12 to be joined, a first connection terminal 20, and a second connection terminal 22.

The fabric member 10 is a member made of a fabric. Fabrics are fibrous structures such as woven fabrics, knitted fabrics, and fabrics.

The fabric member 10 is, for example, a strip-shaped member that is long in a predetermined direction (arrow X direction). The shape of the fabric member 10 is not limited to the strip shape.

In this embodiment, the fabric member 10 has conductivity. Having conductivity means having enough conductivity to be used as a communication cable for transmitting and receiving data or signals.

For example, the fabric member 10 has a structure in which conductive fibers are woven into at least a part of the region. The conductive fiber is a fiber having conductivity. For example, the conductive fiber is a fiber to which conductivity is imparted by coating a conductive material or impregnation with a conductive material. The fibers are, for example, woven fabrics such as polyester, nylon, polyurethane, silk, rayon, cotton, knitted fabrics, and non-woven fabrics. The conductive material is, for example, a conductive polymer such as PEDOT-PSS (Poly (3,4-ethyrenedioxythiophene): Poly (styrenesulfonate)), silver, or the like.

The fabric member 10 may be configured to include a conductive region 10A containing conductive fibers. When the fabric member 10 is a woven fabric, the conductive region 10A may be a region in which the conductive fibers are woven. Further, when the fabric member 10 is configured to include the conductive region 10A, the region other than the conductive region 10A in the fabric member 10 may be a non-conductive region, that is, an insulating region.

In the present embodiment, a mode in which the conductive region 10A of the fabric member 10 has conductivity and the region other than the conductive region 10A of the fabric member 10 is the insulating region 10B will be described as an example.

One or a plurality of first connection terminals 20 are provided on the first surface S1 of the fabric member 10. FIG. 1 shows one first connection terminal 20 for the sake of brevity.

The first surface S1 is a surface of the fabric member 10 to be joined with respect to the member 12 to be joined. Specifically, the first surface S1 is one of the two surfaces orthogonal to the longitudinal direction (arrow X direction) of the fabric member 10 on the surface of the fabric member 10.

The first connection terminal 20 has conductivity. In the present embodiment, the first connection terminal 20 includes a convex portion 20A and a support portion 20B.

The convex portion 20A is a portion of the fabric member 10 that protrudes in a direction away from the first surface S1. The support portion 20B has conductivity and has a structure for electrically connecting the first connection terminal 20 and the conductive region 10A. The support portion 20B may be made of a conductive metal member or a conductive fiber for attaching the first connection terminal 20 to the fabric member 10.

The first connection terminal 20 is attached to the fabric member 10 by the support portion 20B, so that the first connection terminal 20 is electrically connected to the conductive region 10A of the fabric member 10. The support portion 20B may be configured as a separate body from the first connection terminal 20 main body.

On the other hand, the joining target member 12 is a target member for joining the fabric member 10. Joining, in the present embodiment, means electrically connecting and mechanically connecting.

The material of the member 12 to be joined is not limited. For example, the member 12 to be joined may be made of a fabric, or may be made of a material other than the fabric (for example, a cured resin). Further, the member 12 to be joined may be a conductive member or an insulating member. In the present embodiment, the case where the joining target member 12 is an insulating member will be described as an example.

One or a plurality of second connection terminals 22 are provided on the second surface S2 of the member 12 to be joined. FIG. 1 shows one second connection terminal 22 for the sake of brevity.

The second surface S2 is the surface of the member 12 to be joined to be joined to the fabric member 10.

The second connection terminal 22 has conductivity. The second connection terminal 22 is electrically connected to a conductive cable such as a communication cable 16. That is, the second connection terminal 22 is arranged on the insulating joint target member 12, and is electrically connected to the communication cable 16 separately provided on the joint target member 12.

The second connection terminal 22 can be joined to the first connection terminal 20.

Specifically, the second connection terminal 22 includes a recess 22A. The recess 22A is a portion of the second connection terminal 22 that opens in a surface opposite to the surface of the member 12 to be joined and is recessed from the opening toward the second surface S2 of the member 12 to be joined. ..

The concave portion 22A has a shape and a size capable of fitting the convex portion 20A of the first connection terminal 20.

That is, the joining member 14 is formed by fitting and joining the convex portion 20A of the first connecting terminal 20 to the concave portion 22A of the second connecting terminal 22.

The joining member 14 is a member for joining the joining target member 12 and the fabric member 10. Further, as described above, the first connection terminal 20 and the second connection terminal 22 have conductivity. Therefore, by joining the first connection terminal 20 and the second connection terminal 22, the first connection terminal 20 and the first connection terminal 20 are electrically and mechanically connected to each other. It becomes.

In the present embodiment, the second connection terminal 22 provided on the member 12 to be joined has a concave portion 22A, and the first connection terminal 20 provided on the fabric member 10 has a convex portion 20A. A case is shown as an example. However, the shapes of the second connection terminal 22 and the first connection terminal 20 may be any shape that can be joined, and are not limited to the shape in which one has a convex shape and the other has a concave shape. Further, the first connection terminal 20 may have a concave portion, and the second connection terminal 22 may have a convex portion that can be joined to the concave portion.

Further, the size and shape of the first connection terminal 20 and the second connection terminal 22 are not limited. The size and shape of the first connection terminal 20 and the second connection terminal 22 may be appropriately adjusted according to the application target of the fabric member 10.

In the present embodiment, the first connection terminal 20 and the second connection terminal 22 have magnetism that can be attracted to each other by magnetic force. In the present embodiment, the first connection terminal 20 and the second connection terminal 22 are joined by attracting and attracting by an attractive force due to magnetic force (see arrow M in FIG. 1).

The magnetic force of the first connection terminal 20 and the second connection terminal 22 may be any magnetic force that exhibits magnetism that can be attracted to each other, and the strength of the magnetic force is not limited.

The first connection terminal 20 and the second connection terminal 22 may be made of a material having conductivity and magnetism.

As described above, the member 12 to be joined may be made of a fabric or a material other than the fabric. However, from the viewpoint of ease of attachment / detachment operation between the first connection terminal 20 and the second connection terminal 22 by the user, it is preferable that the member 12 to be joined is a member having higher rigidity than the fabric member 10.

In this case, it is preferable that the first connection terminal 20 provided on the fabric member 10 has paramagnetism and the second connection terminal 22 provided on the member to be joined 12 has ferromagnetism.

Specifically, it is preferable that the first connection terminal 20 is configured to include a paramagnetic material and the second connection terminal 22 is configured to include a ferromagnetic material.

A known material may be used as the paramagnetic material, and the constituent materials are not limited. The paramagnetic material is, for example, manganese, platinum, aluminum, or an alloy containing these. As for the ferromagnet, a known material may be used, and the constituent materials are not limited. Ferromagnets are, for example, iron, nickel, cobalt, magnetite (Fe ₃ O ₄ ) and the like.

Note that FIG. 1 shows a configuration in which one first connection terminal 20 is provided on the fabric member 10 and one second connection terminal 22 is provided on the joint target member 12 in order to simplify the description. .. However, the fabric member 10 may be configured to include a plurality of first connection terminals 20. Similarly, the member 12 to be joined may have a configuration including a plurality of second connection terminals 22.

FIG. 2 is a schematic view showing an example of a fabric member 10 provided with a plurality of first connection terminals 20. As shown in FIG. 2, the fabric member 10 may have a configuration in which a plurality of first connection terminals 20 are arranged on the first surface S1.

When the fabric member 10 is configured to include a plurality of first connection terminals 20, it is preferable that the plurality of first connection terminals 20 are insulated from each other.

In this case, a plurality of conductive regions 10A are arranged at predetermined intervals in a direction (arrow Y direction) intersecting the longitudinal direction (arrow X direction) of the fabric member 10 on the first surface S1. do it. Further, the conductive region 10A may have a long strip shape in the longitudinal direction of the fabric member 10. Further, the space between the conductive regions 10A adjacent to each other in the Y direction of the arrow may be the insulating region 10B. That is, by providing the insulating region 10B between the plurality of conductive regions 10A, the plurality of conductive regions 10A are in a state of being insulated from each other.

Then, the first connection terminal 20 may be arranged on each of the plurality of conductive regions 10A. With such an arrangement, the plurality of first connection terminals 20 can be arranged in a state of being insulated from each other.

Similarly, regarding the second connection terminal 22, when the member 12 to be joined includes a plurality of second connection terminals 22, the plurality of second connection terminals 22 may be insulated from each other. preferable.

FIG. 3 is a schematic view showing an example of a member 12 to be joined provided with a plurality of second connection terminals 22. As shown in FIG. 3, the joining target member 12 may have a configuration in which a plurality of second connection terminals 22 are arranged on the second surface S2.

In this case, the joining target member 12 may be made of an insulating material, and a plurality of second connection terminals 22 may be arranged on the joining target member 12 at predetermined intervals. Then, each of the plurality of second connection terminals 22 may be connected to a communication cable 16 separately provided on the member 12 to be joined.

Further, when the joining target member 12 is configured to include a plurality of second connection terminals 22, the rigidity of the joining target member 12 is preferably at least higher than that of the fabric member 10 from the viewpoint of improving the detachability.

Specifically, it is preferable that at least a part of the plurality of second connection terminals 22 provided with the member 12 to be joined has rigidity to the extent that they are not attracted to each other by the attractive force of magnetic force.

By making the joining target member 12 having the above rigidity, it is possible to prevent the plurality of second connection terminals 22 provided on the joining target member 12 from being attracted to each other by magnetic force due to bending or deformation of the joining target member 12. Can be done.

When the fabric member 10 is configured to include a plurality of first connection terminals 20, and the member to be joined 12 is configured to include a plurality of second connection terminals 22, these plurality of first connections are made. The terminal 20 and the plurality of second connection terminals 22 are arranged in advance so as to be flush with each other.

That is, the plurality of first connection terminals 20 provided on the fabric member 10 and the plurality of second connection terminals 22 provided on the member to be joined 12 are the first surface S1 of the fabric member 10 and the member to be joined. It is arranged so that it becomes a surface object when facing the second surface S2 of the twelve.

Next, a method of attaching and detaching the fabric member 10 and the member to be joined 12 of the present embodiment will be described using an applied embodiment.

FIG. 4 is a diagram showing an example of an application embodiment of the fabric connector 1 of the present embodiment.

For example, the fabric member 10 is used in a state of being attached to clothing 100 or the like. That is, since the fabric member 10 is made of fabric, it can be easily expanded and contracted and deformed in response to an external force. Therefore, the fabric member 10 can be used by being attached to a flexible material such as clothing 100.

FIG. 4 shows, as an example, a form in which the first connection terminal 20 is provided at each of one end and the other end of the fabric member 10 in the longitudinal direction (arrow X direction).

For example, the fabric member 10 is sewn to the garment 100 with a thread or the like, and is non-detachably attached to the garment 100. Further, at one end of the fabric member 10 in the longitudinal direction (arrow X direction), the first connection terminal 20 provided at the one end is exposed from the opening of the clothing 100 (for example, the hem of the clothing 100). It is provided. Further, the other end portion of the fabric member 10 in the longitudinal direction (arrow X direction) is provided so that the first connection terminal 20 provided at the other end portion is exposed in the chest pocket of the clothing 100.

The second connection terminal 22 provided on the member 12 to be joined is connected to the electronic device 102 via the communication cable 16. The electronic device 102 is a known device that operates by an electric signal.

FIG. 4 illustrates two electronic devices 104 and an electronic device 106 as the electronic device 102. The electronic device 104 is, for example, a wearable device, an electronic circuit, a battery, or the like that is intended to be worn on a body for use. The electronic device 106 is, for example, an earphone, a microphone, or the like.

To the electronic device 104, for example, a second connection terminal 22 provided on the member 12 to be joined is electrically connected via a communication cable 16. Similarly, to the electronic device 106, for example, a second connection terminal 22 provided on the member to be joined 12 is electrically connected via a communication cable 16.

The user U is placed at one end of the fabric member 10 in the longitudinal direction (arrow X direction) in each recess 22A of the plurality of second connection terminals 22 provided in the member to be joined 12 connected to the electronic device 104. The convex portions 20A of each of the plurality of first connection terminals 20 provided are fitted.

Here, as described above, the first connection terminal 20 and the second connection terminal 22 of the present embodiment have magnetism that can be attracted to each other by magnetic force. Therefore, each of the plurality of first connection terminals 20 and each of the plurality of second connection terminals 22 are attracted and attracted by magnetic force. Therefore, the first connection terminal 20 and the second connection terminal 22 are easily joined to each other so that they are mechanically and electrically connected. By this joining, the electronic device 104 and the first connection terminal 20 provided at one end of the fabric member 10 are easily electrically connected.

Similarly, the user U has a recess 22A of each of the plurality of second connection terminals 22 provided in the member to be joined 12 connected to the electronic device 106 in the longitudinal direction (arrow X direction) of the fabric member 10. The convex portions 20A of each of the plurality of first connection terminals 20 provided at the other end are fitted. Since the first connection terminal 20 and the second connection terminal 22 have magnetism that can be attracted to each other by magnetic force, each of the plurality of first connection terminals 20 and each of the plurality of second connection terminals 22 Is attracted and attracted by magnetic force.

Therefore, the first connection terminal 20 and the second connection terminal 22 are easily joined to each other so that they are mechanically and electrically connected. By this joining, the electronic device 106 and the first connection terminal 20 provided at the other end of the fabric member 10 are easily electrically connected.

That is, the electronic device 104 and the electronic device 106 are connected to each other through the fabric member 10 by the joining member 14 formed by joining the first connecting terminal 20 of the joining target member 12 and the second connecting terminal 22 of the fabric member 10. It becomes electrically connected.

Here, when washing or changing clothes of the clothes 100, it is necessary to remove the electronic device 102 from the clothes 100 provided with the fabric member 10.

In this case, the user U applies a force in a direction away from the second connection terminal 22 and the first connection terminal 20. As described above, the first connection terminal 20 and the second connection terminal 22 are joined by being attracted to each other by magnetic force. Therefore, the connection between the first connection terminal 20 and the second connection terminal 22 is easily released by separating the first connection terminal 20 with a force larger than the attractive force due to the magnetic force.

Further, when the fabric member 10 and the joining target member 12 are joined again, the first connection terminal 20 provided on the fabric member 10 and the second joining target member 12 are provided in the same manner as described above. The connection terminal 22 of the above may be joined by magnetic force.

Therefore, in the fabric connector 1 of the present embodiment, the detachability of the first connection terminal 20 and the second connection terminal 22 can be improved.

As described above, the fabric connector 1 of the present embodiment includes a conductive fabric member 10, a member 12 to be joined, a first connection terminal 20, and a second connection terminal 22. The first connection terminal 20 is provided on the fabric member 10 and has conductivity. The second connection terminal 22 is provided on the member 12 to be joined, has conductivity, and can be connected to the first connection terminal 20. The first connection terminal 20 and the second connection terminal 22 have magnetism that can be attracted to each other by magnetic force.

Here, the conventional snap button has a structure that maintains the connection of a pair of connection terminals by mechanical springiness. For this reason, in the conventional configuration, when the connection terminals are repeatedly attached and detached, the springiness of the connection terminals is weakened, and the electrical connection stability tends to decrease. Further, the smaller the size of the connection terminals, the more difficult it is to join the pair of connection terminals.

On the other hand, in the fabric connector 1 of the present embodiment, the first connection terminal 20 and the second connection terminal 22 have magnetism that can be attracted by magnetic force.

Since the first connection terminal 20 and the second connection terminal 22 are joined by magnetic force, it is more removable than the form in which the first connection terminal 20 and the second connection terminal 22 are joined by a mechanical structure. It is possible to suppress a decrease in deterioration and a decrease in electrical connection stability. Further, since the decrease in magnetic force due to the number of attachments and detachments is unlikely to occur, stable electrical connection between the first connection terminal 20 and the second connection terminal 22 can be achieved even when the attachment and detachment is repeated. it can.

Further, the first connection terminal 20 and the second connection terminal 22 are joined by magnetic force. Therefore, even if the size of the first connection terminal 20 and the second connection terminal 22 is small or the position is displaced, the first connection terminal 20 and the second connection terminal 22 are attracted by the attractive force. Adsorb and join. Therefore, the operability of the joining operation can be improved.

Therefore, the fabric connector 1 of the present embodiment can improve the electrical connection stability between the first connection terminal 20 and the second connection terminal 22 and improve the detachability.

Further, since the detachability between the first connection terminal 20 and the second connection terminal 22 can be improved, the electronic device 102 having low resistance to water when washing the clothes 100 or the like provided with the fabric member 10 can be improved. Can be easily removed from the fabric member 10. Therefore, in addition to the above effects, the fabric connector 1 can improve convenience.

Further, the first connection terminal 20 has paramagnetism, and the second connection terminal 22 has ferromagnetism. For example, the first connection terminal 20 contains a paramagnetic material, and the second connection terminal 22 contains a ferromagnetic material.

That is, the first connection terminal 20 side that may be placed in an environment such as washing clothes 100 is paramagnetic, and the second connection terminal 22 side that is unlikely to be placed in the environment is ferromagnetic.

Therefore, it is possible to suppress a decrease in the attractive force due to the magnetic force between the first connection terminal 20 and the second connection terminal 22 due to washing of the clothing 100 provided with the fabric member 10.

Further, by making the first connection terminal 20 provided on the fabric member 10 paramagnetic, the first connection terminal 20 does not generate a magnetic force by itself. Therefore, it is possible to prevent the plurality of first connection terminals 20 provided on the flexible fabric member 10 from being attracted to each other by magnetic force.

Further, the joining target member 12 has rigidity in which at least a part of the plurality of second connection terminals 22 provided on the joining target member 12 is not attracted to each other by the attractive force of magnetic force. Therefore, it is possible to prevent the plurality of second connection terminals 22 provided on the joining target member 12 from being attracted to each other by magnetic force due to bending or deformation of the joining target member 12. Therefore, it is possible to prevent the plurality of second connection terminals 22 provided on the member to be joined 12 from being short-circuited.

Further, the member 12 to be joined is made of fabric. In this way, both the joining target member 12 and the fabric member 10 may be made of fabric.

Further, the fabric member 10 has a conductive region 10A including conductive fibers. Therefore, the conductive region 10A, which is a part of the fabric member 10, can be the conductive region, and the other region can be the insulating region 10B.

Further, the plurality of first connection terminals 20 are insulated from each other, and the plurality of second connection terminals 22 are insulated from each other. Therefore, each of the plurality of first connection terminals 20 and the plurality of second connection terminals 22 can be used as terminals for individually communicating different signals.

Although the embodiment according to the present invention has been described above, the present invention is not limited to the above-described embodiment as it is, and at the implementation stage, the components can be modified and embodied without departing from the gist thereof. In addition, various inventions can be formed by an appropriate combination of the plurality of components disclosed in the above-described embodiment. For example, some components may be removed from all the components shown in the embodiments.

A modified example will be described below. The following modified examples may be combined with the above-described embodiment, or the modified examples may be arbitrarily combined.

(1) Modification 1
For example, when three or more first connection terminals 20 are arranged on the fabric member 10 and three or more second connection terminals 22 are arranged on the joining target member 12, they are arranged non-point symmetrically. Is preferable.

FIG. 5 is a schematic view showing an example of the arrangement of the first connection terminal 20 of the fabric member 10 of this modified example. As shown in FIG. 5, for example, there is a case where the four first connection terminals 20 are arranged on the first surface S1 of the fabric member 10.

In this case, the fabric member 10 may be provided with four conductive regions 10A, and the region between these conductive regions 10A may be an insulating region 10B. Then, the first connection terminal 20 may be arranged on each of the plurality of conductive regions 10A.

The plurality of first connection terminals 20 are arranged non-point symmetrically on the first surface S1 of the fabric member 10. In the case of non-point symmetry, the number of first connection terminals 20 provided on the fabric member 10 may be three or more.

FIG. 6 is a schematic view showing an example of the arrangement of the second connection terminal 22 of the member 12 to be joined in this modification. As shown in FIG. 6, on the second surface S2 of the member 12 to be joined, the same number (that is, four) of the second connection terminals 22 as the first connection terminals 20 arranged on the fabric member 10 are arranged. Has been done. These plurality of second connection terminals 22 are arranged non-point symmetrically on the second surface S2 of the member 12 to be joined.

Further, the plurality of first connection terminals 20 on the fabric member 10 arranged in a non-point symmetry and the plurality of second connection terminals 22 on the joining target member 12 arranged in a non-point symmetry are first. The plane S1 and the second plane S2 are the target planes, and the planes S1 and the second plane S2 are arranged symmetrically with each other.

As described above, in this modification, three or more first connection terminals 20 are arranged non-point symmetrically on the fabric member 10, and three or more second connection terminals 22 are placed on the member 12 to be joined. Arrange in non-point symmetry.

Therefore, in this modification, it is possible to prevent the formation of a pair of joining members 14 different from the pair of joining members 14 formed by the pair of the first connecting terminal 20 and the second connecting terminal 22 which are predetermined to be connected. can do. That is, since each of the plurality of first connection terminals 20 and the plurality of second connection terminals 22 are arranged non-point symmetrically, the fabric member 10 or the member to be joined 12 is rotated by 180 °. Also, it is possible to suppress the joining of the first connection terminal 20 and the second connection terminal 22. Therefore, the user U can easily notice the erroneous connection and can prevent the erroneous connection from being made.

Therefore, in this modification, in addition to the effects of the above-described embodiment, it is possible to suppress the occurrence of malfunction or electrical destruction in the electronic device 102.

(Modification 2)
Further, for example, the plurality of first connection terminals 20 provided on the fabric member 10 may form a plurality of types of non-point symmetric arrangement patterns represented by a group of the plurality of first connection terminals 20. ..

FIG. 7 is a schematic view showing an example of the arrangement of the first connection terminal 20 of the fabric member 10 of this modified example.

For example, the plurality of first connection terminals 20 provided on the fabric member 10 form a plurality of types of non-point symmetric first arrangement patterns P1 represented by a group of the plurality of first connection terminals 20.

Specifically, the fabric member 10 includes a plurality of first connection terminals 20. The plurality of first connection terminals 20 constitute a plurality of types of first arrangement patterns P1 having different arrangements of the included first connection terminals 20. That is, one fabric member 10 is configured with a plurality of types of first arrangement patterns P1.

In the example shown in FIG. 7, as an example, the first arrangement pattern P1A is configured at one end in the longitudinal direction (arrow X direction) of the fabric member 10, and the first arrangement pattern P1B is configured at the other end. Indicated.

The first arrangement pattern P1A and the first arrangement pattern P1B are examples of the first arrangement pattern P1, respectively.

The plurality of first connection terminals 20 constituting the first arrangement pattern P1A are arranged non-point symmetrically. Further, as in the above embodiment, the plurality of first connection terminals 20 are insulated from each other and arranged on each of the plurality of conductive regions 10A.

On the other hand, the plurality of first connection terminals 20 constituting the first arrangement pattern P1B are also arranged non-point symmetrically. Further, as in the above embodiment, the plurality of first connection terminals 20 are insulated from each other and arranged on each of the plurality of conductive regions 10A.

The arrangement of the plurality of first connection terminals 20 constituting the first arrangement pattern P1A and the arrangement of the plurality of first connection terminals 20 constituting the first arrangement pattern P1B are arrangement patterns represented by the arrangement. Is different.

Note that FIG. 7 shows, as an example, a mode in which the number of the plurality of first connection terminals 20 constituting one first arrangement pattern P1 is four. However, the number of the first connection terminals 20 constituting one first arrangement pattern P1 may be three or more, and is not limited to four. Further, the number of first connection terminals 20 constituting each of the plurality of types of first arrangement patterns P1 provided on one fabric member 10 may be the same or different.

In this case, the plurality of second connection terminals 22 arranged on the member 12 to be joined may form the second arrangement pattern P2. The second arrangement pattern P2 is represented by a group of a plurality of second connection terminals 22, and is an arrangement pattern symmetrical with respect to one of the plurality of types of the first arrangement pattern P1.

FIG. 8A is a schematic view showing an example of the joining target member 12A of this modified example. The joining target member 12A is an example of the joining target member 12.

The member 12A to be joined includes a plurality of first connection terminals 20. The plurality of first connection terminals 20 form the second arrangement pattern P2A. The second arrangement pattern P2A is an example of the second arrangement pattern P2. For example, one type of second arrangement pattern P2A is configured in one joining target member 12A.

The second arrangement pattern P2A is surface-symmetrical with the first surface S1 and the second surface S2 as target surfaces for one of the plurality of types of first arrangement patterns P1 provided on the fabric member 10. It is arranged. In the case of the arrangement shown in FIG. 8A, the second arrangement pattern P2A is a surface object with respect to the first arrangement pattern P1A (see FIG. 7). Further, the second arrangement pattern P2A is a non-plane object with respect to the first arrangement pattern P1B (see FIG. 7).

Therefore, the plurality of second connection terminals 22 constituting the second arrangement pattern P2A are erroneously joined to the plurality of first connection terminals 20 constituting the first arrangement pattern P1B in the fabric member 10. Is suppressed. Then, the plurality of second connection terminals 22 constituting the second arrangement pattern P2A are joined to the plurality of first connection terminals 20 constituting the first arrangement pattern P1A in the fabric member 10.

FIG. 8B is a schematic view showing an example of the joining target member 12B of this modified example. The joining target member 12B is an example of the joining target member 12.

The member 12B to be joined includes a plurality of first connection terminals 20. The plurality of first connection terminals 20 form the second arrangement pattern P2B. The second arrangement pattern P2B is an example of the second arrangement pattern P2. For example, one type of second arrangement pattern P2B is configured on one joining target member 12B.

The second arrangement pattern P2B is surface-symmetrical with the first surface S1 and the second surface S2 as target surfaces for one of the plurality of types of first arrangement patterns P1 provided on the fabric member 10. It is arranged. In the case of the arrangement shown in FIG. 8B, the second arrangement pattern P2B is a surface object with respect to the first arrangement pattern P1B (see FIG. 7). Further, the second arrangement pattern P2B is a non-plane object with respect to the first arrangement pattern P1A (see FIG. 7).

Therefore, the plurality of second connection terminals 22 constituting the second arrangement pattern P2B are erroneously joined to the plurality of first connection terminals 20 constituting the first arrangement pattern P1A in the fabric member 10. Is suppressed. Then, the plurality of second connection terminals 22 constituting the second arrangement pattern P2B are joined to the plurality of first connection terminals 20 constituting the first arrangement pattern P1B in the fabric member 10.

As described above, in this modification, the plurality of first connection terminals 20 form a plurality of types of non-point symmetric first arrangement patterns P1 represented by a group of the plurality of first connection terminals 20. Further, the plurality of second connection terminals 22 are represented by a group of the plurality of second connection terminals 22, and the second arrangement is planar with respect to one of the plurality of types of the first arrangement patterns P1. The pattern P2 is configured.

Therefore, in this modification, in addition to the effect of the above embodiment, the second connection terminal 22 provided on the member to be joined 12 is connected to the first connection terminal 20 at a different position on the fabric member 10. This can be effectively suppressed.

1 Fabric connector 10 Fabric member 10A Conductive region 12 Member to be joined 20 First connection terminal 22 Second connection terminal

Claims (9)

With conductive fabric members
The member to be joined and
A first connection terminal provided on the fabric member and having conductivity,
A second connection terminal provided on the member to be joined, which has conductivity and can be joined to the first connection terminal,
With
The first connection terminal and the second connection terminal have magnetism that can be attracted to each other by magnetic force.
Fabric connector. The first connection terminal has paramagnetism and is
The second connection terminal has ferromagnetism.
The fabric connector according to claim 1. The first connection terminal contains a paramagnetic material and contains a paramagnetic material.
The second connection terminal contains a ferromagnet.
The fabric connector according to claim 2. The member to be joined is
At least a part of two of the plurality of second connection terminals provided on the member to be joined have rigiditys that are not attracted to each other by the attractive force of magnetic force.
The fabric connector according to claim 1 or 2. The plurality of first connection terminals are arranged non-point symmetrically on the fabric member.
The plurality of the second connection terminals are arranged non-point symmetrically on the member to be joined.
The fabric connector according to any one of claims 1 to 4. The plurality of the first connection terminals constitute a plurality of types of non-point symmetric first arrangement patterns represented by the group of the plurality of the first connection terminals.
The plurality of the second connection terminals are represented by a group of the plurality of the second connection terminals, and a second arrangement pattern that is surface-symmetrical to one of the plurality of types of the first arrangement patterns. Constitute,
The fabric connector according to any one of claims 1 to 5. The member to be joined is made of fabric.
The fabric connector according to any one of claims 1 to 6. The fabric member
Has a conductive region containing conductive fibers,
The fabric connector according to any one of claims 1 to 7. The plurality of first connection terminals are insulated from each other.
The plurality of said second connection terminals are insulated from each other.
The fabric connector according to any one of claims 1 to 8.

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