JP2017183023A - Terminal arrangement and wiring accessory - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a terminal arrangement in which a state in which an electric wire is in contact with a terminal part is unlikely to be unstable, and also to provide a wiring accessory equipped with the same.SOLUTION: A terminal arrangement 1 includes a terminal part 2, a pressing part 3, and a locking part 4. The pressing part 3 is arranged so as to be opposite to one surface 20 of the terminal part 2 and sandwiches an electric wire 100 inserted in an insertion direction from an insertion port 11 between the terminal part 2 and itself. The locking part 4 having elasticity is arranged so as to be opposite to one surface 20 of the terminal part 2 and comes into contact with the electric wire 100 to regulate movement to the insertion port 11 side of the electric wire 100. The pressing part 3 is a separate member from the locking part 4.SELECTED DRAWING: Figure 1

Description

  The present invention generally relates to a terminal device and a wiring device including the same, and more particularly to a terminal device that is connected to an electric wire by inserting the electric wire and a wiring device including the terminal device.

  2. Description of the Related Art Conventionally, a terminal device having a so-called quick connection structure that can be connected without using screws for the purpose of facilitating the connection of electric wires to a wiring device such as a switch is known (see, for example, Patent Document 1).

  The terminal device described in Patent Document 1 includes a terminal portion (terminal plate) made of a conductive material and a lock spring. The terminal portion is formed in a C shape (U shape), and the lock spring is housed in a space surrounded by the terminal portion. The lock spring is formed of a central piece, a lock piece and a pressing piece by bending an elastic plate. The locking piece and the pressing piece are formed at both ends of the central piece. In this terminal device, when the electric wire is inserted from the insertion port (electric wire insertion hole), the electric wire is sandwiched between the locking piece and the pressing piece and the contact piece of the terminal portion by the spring force of the lock spring. In this state, the leading edge of the locking piece bites into the electric wire to prevent the electric wire from coming off, and the pressing piece presses the electric wire toward the terminal portion, thereby elastically holding the electric wire between the terminal portion.

JP 2002-151172 A

  In the conventional terminal device as described above, the locking part (locking piece of the locking spring) that prevents the electric wire from coming off and the pressing part (pressing piece of the locking spring) that presses the electric wire against the terminal part are used as a locking spring. It is integrated. For this reason, for example, when a force is applied from the electric wire to the locking portion when the electric wire is inserted, this force is transmitted from the locking portion to the pressing portion, so that the pressing force of the electric wire against the terminal portion may be affected. is there. As a result, the contact state of the electric wire with respect to the terminal portion may become unstable.

  This invention is made | formed in view of the said reason, and it aims at providing the terminal device which a contact state of the electric wire with respect to a terminal part does not become unstable easily, and a wiring apparatus provided with the same.

  The terminal device which concerns on 1 aspect of this invention is provided with a terminal part, a pressing part, and a locking part. The pressing portion is arranged so as to face one surface of the terminal portion, and sandwiches an electric wire inserted along an insertion direction from an insertion port between the terminal portion. The lock part has elasticity and is disposed so as to face the one surface of the terminal part, and contacts the electric wire to restrict the movement of the electric wire toward the insertion port. The pressing part and the locking part are separate members.

  The wiring device which concerns on 1 aspect of this invention is equipped with the said terminal device and the instrument main body which accommodated the said terminal device.

  The present invention has an advantage that the contact state of the electric wire with respect to the terminal portion is unlikely to become unstable.

FIG. 1A is a front view showing a basic configuration of a terminal device according to Embodiment 1 of the present invention. FIG. 1B is a partially broken front view showing a connection state of electric wires with respect to the basic configuration of the above terminal device. FIG. 2A is a perspective view showing the basic configuration of the terminal device of the above, viewed from the positive direction of the Y axis. FIG. 2B is a perspective view showing the basic configuration of the terminal device of the above, seen from the negative direction of the Y axis. FIG. 3A is a perspective view showing a terminal block of the above terminal device, as viewed from the positive direction of the Y axis. FIG. 3B is a perspective view showing the same terminal block as seen from the negative direction of the Y axis. FIG. 4A is a perspective view showing the spring block of the terminal device same as the above and viewed from the positive direction of the Y axis. FIG. 4B is a perspective view showing the spring block as seen from the negative direction of the Y axis. FIG. 5 is an exploded perspective view showing the entire configuration of the terminal device according to the first embodiment and viewed from the positive direction of the Y axis. FIG. 6A is a perspective view showing the overall configuration of the terminal device of the above, viewed from the positive direction of the Y axis. FIG. 6B is a perspective view showing the entire configuration of the terminal device same as above, seen from the negative direction of the Y axis. FIG. 7 is a cross-sectional view showing the overall configuration of the above terminal device. FIG. 8 is a perspective view showing the wiring device according to Embodiment 1 of the present invention. FIG. 9A is a perspective view of the terminal device according to the second embodiment of the present invention, viewed from the positive direction of the Y axis. FIG. 9B is a perspective view showing the terminal device of the above, viewed from the negative direction of the Y axis.

(Embodiment 1)
(1) Outline The terminal device 1 according to the first embodiment is a so-called quick connection terminal in which connection with the electric wire 100 is performed by inserting the electric wire 100 as shown in FIGS. 1A and 1B. The terminal device 1 includes a terminal portion 2 having conductivity. In the terminal device 1, when the electric wire 100 comes into contact with the terminal portion 2, electrical connection between the terminal portion 2 and the electric wire 100 is performed. FIG. 1A shows only the terminal device 1 in a state where the electric wire 100 is not connected, and FIG. 1B shows the terminal device 1 in a state where the electric wire 100 is connected by an imaginary line (two-dot chain line). The terminal device 1 is used for wiring apparatuses, such as a switch or an outlet (outlet), for example. The wiring device 10 (see FIG. 8) provided with the terminal device 1 will be described in the section “(2.7) Wiring device”.

  As shown in FIGS. 1A to 2B, the terminal device 1 includes a pressing portion 3 and a locking portion 4 in addition to the terminal portion 2. The electric wire 100 inserted from the insertion port 11 is inserted between the terminal portion 2 and the pressing portion 3, whereby the electric wire 100 is electrically connected to the terminal portion 2. Further, the electric wire 100 is inserted between the terminal portion 2 and the lock portion 4, so that the movement toward the insertion port 11 is restricted by the lock portion 4, and the electric wire 100 is prevented from coming off. Here, the insertion port 11 may be a space through which the electric wire 100 introduced between the terminal portion 2 and the pressing portion 3 and the locking portion 4 passes, and the terminal device 1 includes the insertion port 11 with the substance. It is not necessary to provide it, and it is sufficient if it has a function as the insertion slot 11. In FIG. 1A to FIG. 2B, an insertion port 11 without an entity is illustrated. Alternatively, the insertion port 11 may be an insertion hole 81 (see FIG. 5) with a substance formed in a case 8 (see FIG. 5) described later.

  Here, when the electric wire 100 is an insulated electric wire in which a core wire made of a conductor is covered with an insulating coating, only the distal end portion of the electric wire 100 from which the insulating coating is peeled, that is, only the core wire is inserted from the insertion port 11. . The electric wire 100 may be either a single wire whose core wire is a single conductor or a stranded wire whose core wire is a plurality of conducting wires.

(2) Details (2.1) Basic Configuration Hereinafter, the basic configuration of the terminal device 1 will be described in detail with reference to FIGS. 1A to 4B.

  In the following, the “facing direction”, which is the direction in which the terminal portion 2 and the pressing portion 3 face each other, is defined as the X-axis direction, and the direction toward the terminal portion 2 when viewed from the pressing portion 3 is the positive (plus) direction of the X axis Will be described. In addition, the “insertion direction” that is orthogonal to the X-axis direction and the direction in which the electric wire 100 is inserted is defined as the Y-axis direction, and the direction in which the electric wire 100 is inserted is described as the positive direction of the Y-axis. Furthermore, the direction in which the two electric wires 100 that are orthogonal to both the X-axis and the Y-axis and connected to the terminal device 1 are aligned (the direction orthogonal to the paper surface of FIG. 1A) is the Z-axis direction, and the paper surface of FIG. The front side will be described as the positive orientation of the Z axis. However, these directions are not intended to define the usage direction of the terminal device 1. In addition, the arrows indicating the directions of the X axis, the Y axis, and the Z axis in the drawings are merely shown for the sake of explanation, and are not accompanied by an entity. Further, it is not essential for the terminal device 1 that the facing direction and the insertion direction are strictly orthogonal (intersect at 90 degrees), and it is only necessary that the facing direction and the insertion direction intersect.

  The terminal device 1 according to the present embodiment is a two-pole terminal device that can connect up to two wires 100. That is, the terminal device 1 has two insertion ports 11, and two electric wires 100 can be simultaneously connected through the two insertion ports 11. In this terminal device 1, since the two electric wires 100 are electrically connected to the one terminal portion 2, the two electric wires 100 connected to the terminal device 1 are electrically connected to each other via the terminal portion 2. Will be connected to. Therefore, the terminal device 1 is used as a feed terminal, for example.

  The terminal device 1 includes two members, a terminal block 12 and a spring block 13. The terminal block 12 and the spring block 13 are separate members. That is, the terminal block 12 and the spring block 13 are members separated from each other and independent. The terminal block 12 includes a terminal portion 2 and a pressing portion 3. The spring block 13 includes a lock part 4. The terminal block 12 is made of a conductive metal plate. The spring block 13 is made of an elastic metal plate. The terminal block 12 (pressing portion 3) and the spring block 13 (locking portion 4) are made of different materials. The spring block 13 is combined with the terminal block 12 so as to be accommodated in a space surrounded by the terminal block 12.

(2.2) Terminal Block The terminal block 12 includes a connecting portion 5 and a holding portion 6 in addition to the terminal portion 2 and the pressing portion 3, as shown in FIGS. 3A and 3B. The connecting part 5 connects the terminal part 2 and the pressing part 3. The connecting portion 5 connects the pressing portion 3 with the end portion of the terminal portion 2 opposite to the insertion port 11 in the Y-axis direction. That is, the terminal portion 2 and the pressing portion 3 are connected to each other at the end portion (upper end portion in FIG. 3A) opposite to the insertion port 11 in the Y-axis direction by the connecting portion 5.

  The terminal block 12 is made of, for example, copper (Cu). In the present embodiment, the terminal device 1 is a two-pole type terminal device, and a plurality of pressing units 3 and two connecting units 5 (here, two) are provided. However, the terminal device 1 employs a configuration that is plane-symmetric in the Z-axis direction in which the two pressing portions 3 (or the two connecting portions 5) are arranged. Therefore, unless otherwise specified, one of the two pressing parts 3 will be described below, and the description of the other pressing part 3 will be omitted as appropriate. Similarly, one of the two connecting portions 5 will be described, and the description of the other connecting portion 5 will be omitted as appropriate.

  Here, the pressing portion 3, the connecting portion 5, the terminal portion 2, and the holding portion 6 are integrally formed. In other words, the terminal part 2, the two pressing parts 3, the two connecting parts 5, and the holding part 6 are made of one metal plate. In the present embodiment, the terminal part 2, the pressing part 3, the connecting part 5, and the holding part 6 constituting the terminal block 12 are formed by punching and bending a single metal plate. .

  The terminal portion 2 has a rectangular plate shape. The terminal portion 2 is configured so that one surface 20 in the thickness direction (X-axis direction) faces the pressing portion 3. That is, the electric wire 100 inserted from the insertion port 11 is introduced between the one surface 20 of the terminal portion 2 and the pressing portion 3 so as to come into contact with the one surface 20 of the terminal portion 2 so as to be electrically connected to the terminal portion 2. Connected.

  A guide groove 23 extending in the Y-axis direction is formed on one surface 20 of the terminal portion 2. The guide groove 23 restricts the movement direction of the electric wire 100 in the Y-axis direction by restricting the movement of the electric wire 100 in directions other than the Y-axis direction in a plane (YZ plane) along the one surface 20. Two guide grooves 23 are formed on one surface 20 of the terminal portion 2 so as to correspond to the two electric wires 100. The two guide grooves 23 are formed at both ends of the one surface 20 in the Z-axis direction. The bottom surface 231 of the guide groove 23 has a curved shape so that a cross-sectional shape orthogonal to the insertion direction is convex in the positive direction of the X axis. Here, the guide groove 23 is formed by bending a part of the terminal portion 2.

  In addition, an opening window 24 penetrating the terminal portion 2 in the thickness direction is formed at the center portion of the one surface 20 of the terminal portion 2. The opening window 24 has a rectangular opening shape. The opening window 24 is a hole through which a part of the release member 9 described later passes.

  As shown in FIGS. 1A and 1B, the pressing portion 3 is disposed at a position facing the first portion 21 on the one surface 20 of the terminal portion 2 in the X-axis direction (opposing direction). Here, the first portion 21 is a portion facing the pressing portion 3 in the one surface 20 of the terminal portion 2. The pressing portion 3 is configured to sandwich the electric wire 100 inserted along the Y-axis direction from the insertion port 11 between the first portion 21. In other words, the direction in which the pressing portion 3 presses the electric wire 100 against the one surface 20 in a state where the electric wire 100 inserted from the insertion port 11 is introduced between the one surface 20 of the terminal portion 2 and the pressing portion 3. Apply the power of. That is, the electric wire 100 is pressed against the first portion 21 of the one surface 20 of the terminal portion 2 by the pressing portion 3, and an appropriate contact pressure is generated between the terminal portion 2 and the electric wire 100.

  The pressing unit 3 includes a first pressing piece 31, a second pressing piece 32, and a third pressing piece 33. The first pressing piece 31, the second pressing piece 32, and the third pressing piece 33 are connected to the first pressing piece 31, the second pressing piece 32, and the third pressing piece from the connecting portion 5 side (that is, the side opposite to the insertion port 11). The pressing pieces 33 are arranged in the Y-axis direction in this order.

  The first pressing piece 31 has a rectangular plate shape and is substantially parallel to the one surface 20 of the terminal portion 2. Of the first pressing piece 31, the end opposite to the insertion port 11 in the Y-axis direction is connected to the connecting portion 5. A second pressing piece 32 is connected to an end of the first pressing piece 31 on the insertion port 11 side in the Y-axis direction. The second pressing piece 32 has a rectangular plate shape, and is inclined with respect to the one surface 20 of the terminal portion 2 so as to approach the terminal portion 2 as it approaches the insertion port 11 in the Y-axis direction. A third pressing piece 33 is connected to an end of the second pressing piece 32 on the side opposite to the first pressing piece 31 in the Y-axis direction. The third pressing piece 33 has a rectangular plate shape, and is inclined with respect to the one surface 20 of the terminal portion 2 so as to approach the terminal portion 2 as the distance from the insertion port 11 increases in the Y-axis direction.

  That is, the third pressing piece 33 and the second pressing piece 32 constitute a structure having a substantially V-shaped cross section perpendicular to the Z-axis direction. Then, the pressing portion 3 is closest to the one surface 20 of the terminal portion 2 in the contact portion 34 formed by the connection portion between the second pressing piece 32 and the third pressing piece 33. In other words, the pressing portion 3 has a contact portion 34 that is curved so as to protrude toward the terminal portion 2 in the X-axis direction within a plane including both the X-axis direction and the Y-axis direction (XY plane). doing. Here, the contact portion 34 is curved with a predetermined radius of curvature.

  As shown in FIGS. 3A and 3B, the connecting portion 5 protrudes from the end portion of the terminal portion 2 opposite to the insertion port 11 in the Y-axis direction to the side opposite to the insertion port 11. That is, the terminal portion 2 and the pressing portion 3 are provided so that the terminal portion 2 and the pressing portion 3 are provided so as to protrude in the positive direction of the Y axis from the end portion (upper end portion in FIG. 3A) opposite to the insertion port 11 in the Y axis direction. Are connected to each other.

  The connecting portion 5 has a curved portion 51. The bending portion 51 is curved so as to be convex on the side opposite to the insertion port 11 in the Y-axis direction in a plane (XY plane) including both the X-axis direction and the Y-axis direction. Here, the bending portion 51 is curved in an arc shape. The inner diameter of the bending portion 51 substantially matches the distance between the first pressing piece 31 of the pressing portion 3 and the terminal portion 2.

  Furthermore, the dimension of the connecting part 5 in the Z-axis direction is set smaller than the dimension of the pressing part 3 in the Z-axis direction. Specifically, the connecting portion 5 is not formed over the entire length of the terminal portion 2 in the Z-axis direction, but is formed so as to avoid interference with a portion of the terminal portion 2 where the guide groove 23 is formed. Has been. Thereby, compared with the case where the dimension of the Z-axis direction of the connection part 5 is the same as the dimension of the Z-axis direction of the pressing part 3, the elastic coefficient of the connection part 5 becomes low, and the connection part 5 becomes easy to bend.

  The holding part 6 is formed integrally with the terminal part 2, and is configured to hold the lock part 4 (spring block 13) between the terminal part 2. The holding part 6 is provided so as to protrude from an end part of the terminal part 2 opposite to the connecting part 5 in the Y-axis direction. That is, the holding part 6 is connected to the end part (the lower end part in FIG. 3A) on the insertion port 11 side in the Y-axis direction of the terminal part 2.

  The holding unit 6 includes a first holding piece 61, a second holding piece 62, and a third holding piece 63. The first holding piece 61, the second holding piece 62, and the third holding piece 63 are connected in order of the first holding piece 61, the second holding piece 62, and the third holding piece 63 from the terminal portion 2 side. In the present embodiment, the connecting portion between the terminal portion 2 and the first holding piece 61, the connecting portion between the first holding piece 61 and the second holding piece 62, and the second holding piece 62 and the third holding piece 63 All of the connecting portions (regulating portions 64) are curved with a predetermined radius of curvature.

  The first holding piece 61 has a rectangular plate shape and projects from the terminal portion 2 in the negative direction of the X axis. The first holding piece 61 and the terminal portion 2 are substantially orthogonal to each other. The end of the first holding piece 61 opposite to the terminal portion 2 in the X-axis direction is connected to the second holding piece 62. The second holding piece 62 has a rectangular plate shape and protrudes from the first holding piece 61 in the positive direction of the Y axis. The second holding piece 62 and the first holding piece 61 are substantially orthogonal to each other. A third holding piece 63 is connected to an end of the second holding piece 62 opposite to the first holding piece 61 in the Y-axis direction. The third holding piece 63 has a rectangular plate shape and protrudes from the second holding piece 62 in the positive direction of the X axis. The third holding piece 63 and the second holding piece 62 are substantially orthogonal to each other.

  That is, the second holding piece 62 faces the one surface 20 of the terminal portion 2, and the third holding piece 63 faces the first holding piece 61. As will be described in detail later, the holding portion 6 positions the spring block 13 at a restricting portion 64 that is a connecting portion between the second holding piece 62 and the third holding piece 63. Here, the dimensional relationship is defined so that the second holding piece 62 and the terminal portion 2 have substantially the same length in the Y-axis direction. As a result, the holding portion 6 and the terminal portion 2 constitute a structure having a substantially rectangular frame shape in cross section perpendicular to the Z-axis direction. A spring block 13 is accommodated in the space surrounded by the holding portion 6 and the terminal portion 2. In addition, the dimensional relationship between the first holding piece 61 and the third holding piece 63 is defined so that the third holding piece 63 is shorter in the X-axis direction. Thereby, a gap is formed between the third holding piece 63 and the terminal portion 2. The pressing portion 3 is introduced into the space between the second holding piece 62 and the terminal portion 2 through this gap.

  Further, the first holding piece 61 is formed with a notch hole 611 penetrating the first holding piece 61 in the thickness direction. The notch hole 611 is formed at a position corresponding to the insertion port 11. Thereby, the electric wire 100 inserted from the insertion port 11 can be introduced into the space surrounded by the holding portion 6 and the terminal portion 2 through the cutout hole 611. Two cutout holes 611 are formed on the first holding piece 61 so as to correspond to the two electric wires 100. The two notch holes 611 are formed at both ends in the Z-axis direction of the first holding piece 61.

  Furthermore, a through-hole 612 that penetrates the first holding piece 61 in the thickness direction is formed at the center of the first holding piece 61. The through hole 612 has a circular opening shape. The through hole 612 is not essential for the terminal device 1, and the through hole 612 may be omitted.

(2.3) Spring Block As shown in FIGS. 4A and 4B, the spring block 13 has an extending portion 7 in addition to the locking portion 4. The spring block 13 is made of, for example, stainless steel (SUS). The spring block 13 is composed of a metal plate that is thinner (thin) than the terminal block 12. In this embodiment, the terminal device 1 is a two-pole type terminal device, and a plurality (two in this case) of the locking portions 4 are provided. However, the terminal device 1 employs a configuration that is plane-symmetric in the Z-axis direction in which the two locking portions 4 are arranged. Therefore, hereinafter, unless otherwise specified, one of the two lock portions 4 will be described, and the description of the other lock portion 4 will be omitted as appropriate.

  Here, the lock part 4 and the extension part 7 are integrally formed. In other words, the two locking portions 4 and the extending portion 7 are made of a single metal plate. In this embodiment, the lock part 4 and the extension part 7 which comprise the spring block 13 are formed by stamping and bending to one metal plate.

  As shown in FIGS. 1A and 1B, the locking portion 4 is disposed at a position facing the second portion 22 on the one surface 20 of the terminal portion 2 in the X-axis direction (opposing direction). The second portion 22 here is a portion that is different from the first portion 21 in the Y-axis direction on the one surface 20 of the terminal portion 2, and is a portion that faces the locking portion 4. In the Y-axis direction, the second portion 22 is located between the first portion 21 and the insertion port 11. That is, the first part 21 and the second part 22 are arranged in the Y-axis direction in the order of the second part 22 and the first part 21 from the insertion port 11 side.

  The locking part 4 is configured to be in contact with the electric wire 100 inserted along the Y-axis direction from the insertion port 11 and to restrict the movement of the electric wire 100 toward the insertion port 11. In other words, in a state where the electric wire 100 inserted from the insertion port 11 is introduced between the one surface 20 of the terminal portion 2 and the lock portion 4, the lock portion 4 is between the second portion 22 and the electric wire 100. It is comprised so that 100 may be inserted | pinched. That is, the electric wire 100 is pressed against the second portion 22 of the one surface 20 of the terminal portion 2 by the locking portion 4, and an appropriate contact pressure is generated between the terminal portion 2 and the electric wire 100.

  Here, the lock part 4 is a rectangular plate shape, and is inclined with respect to the one surface 20 of the terminal part 2 so as to be closer to the terminal part 2 as it is farther from the insertion port 11 in the Y-axis direction. And the lock | rock part 4 contacts the electric wire 100 in the front-end edge 41 nearest to the one surface 20 of the terminal part 2, and controls the movement to the insertion port 11 side of the electric wire 100. FIG. That is, the locking part 4 protrudes from the connection part (spring part 42) with the extension part 7 in the direction in which the electric wire 100 is inserted (the positive direction of the Y axis), and the tip edge 41 is connected to the terminal part. 2 is inclined with respect to the one surface 20 of the terminal portion 2 so as to be close to the one surface 20. In a state where the electric wire 100 is introduced between the one surface 20 of the terminal portion 2 and the locking portion 4, the locking portion 4 comes into contact with the electric wire 100 at the tip edge 41. Therefore, when a force in the direction of moving the electric wire 100 toward the insertion port 11 is applied to the electric wire 100 (the negative direction of the Y-axis), the chain is set so that the leading edge 41 of the locking portion 4 bites into the electric wire 100. When the lock part 4 is hooked on the electric wire 100, the electric wire 100 is prevented from coming off.

  As shown in FIGS. 4A and 4B, the extension portion 7 is opposite to the insertion port 11 from the end on the insertion port 11 side in the Y-axis direction (the lower end portion in FIG. 4A) of the locking portion 4. Protruding. That is, a portion of the spring block 13 that extends in the positive direction of the Y axis from the end of the lock portion 4 opposite to the tip edge 41 constitutes the extension portion 7. The spring portion 42, which is a connecting portion between the locking portion 4 and the extending portion 7, exerts an elastic force on the locking portion 4. In other words, the spring block 13 has a spring portion 42 that is curved so as to protrude toward the insertion port 11 in the Y-axis direction within a plane (XY plane) that includes both the X-axis direction and the Y-axis direction. doing. Here, the spring part 42 is curved with a predetermined radius of curvature.

  The extending part 7 has a first extending piece 71 and a second extending piece 72. The first extending piece 71 and the second extending piece 72 are connected in the order of the first extending piece 71 and the second extending piece 72 from the side of the lock portion 4.

  The 1st extension piece 71 is rectangular plate shape, Comprising: As shown to FIG. 1A and 1B, it is substantially parallel to the one surface 20 of the terminal part 2. As shown in FIG. Of the first extending piece 71, the end on the insertion port 11 side in the Y-axis direction is connected to the locking part 4. Of the first extending piece 71, the end opposite to the locking part 4 in the Y-axis direction is connected to the second extending piece 72. The second extending piece 72 has a rectangular plate shape and protrudes from the first extending piece 71 in the positive direction of the X axis. The second extending piece 72 and the first extending piece 71 are substantially orthogonal to each other.

  That is, the second extension piece 72 and the first extension piece 71 constitute a structure having a substantially L-shaped cross section perpendicular to the Z-axis direction. And the spring block 13 is made to contact with the terminal block 12 by making the corner | angular part 73 which consists of a connection part of the 1st extension piece 71 and the 2nd extension piece 72 contact the control part 64 of the terminal block 12. Positioning is done. However, the corner 73 is not always in contact with the restricting portion 64, and there is a gap between the corner 73 and the restricting portion 64. That is, when the spring block 13 moves relative to the terminal block 12 in the positive direction of the Y axis, the corner portion 73 comes into contact with the restricting portion 64, and the movement of the spring block 13 is restricted. The spring block 13 is positioned with respect to the terminal block 12. The corner 73 is curved with a predetermined radius of curvature.

  Here, the dimension of the spring block 13 in the Y-axis direction is defined to be slightly smaller than the distance between the first holding piece 61 and the third holding piece 63 in the terminal block 12. Further, the dimension of the spring block 13 in the X-axis direction is defined to be slightly larger than the interval between the terminal portion 2 and the second holding piece 62 in the terminal block 12. As a result, the spring block 13 has a slight play in the Y-axis direction and can be stored in a space surrounded by the holding portion 6 and the terminal portion 2 in a compressed state in the X-axis direction. That is, in a state where the spring block 13 is combined with the terminal block 12, the spring portion 42 is elastically deformed so that the distal end edge 41 of the locking portion 4 approaches the first extending piece 71, and the spring block 13 is moved in the X-axis direction. It is in a compressed state. In addition, the dimensional relationship is defined so that the second extending piece 72 and the third holding piece 63 have substantially the same length in the X-axis direction. Accordingly, a gap for introducing the pressing portion 3 is formed between the second holding piece 62 and the terminal portion 2 between the second extending piece 72 and the terminal portion 2.

  In addition, a through hole 711 that penetrates the first extending piece 71 in the thickness direction is formed at the center of the first extending piece 71. The through hole 711 has a circular opening shape. Further, the first extension piece 71 is formed with a slit 712 that penetrates the first extension piece 71 in the thickness direction and extends from the through hole 711 toward the lock portion 4. The slit 712 extends through the spring portion 42 to the distal end edge 41 of the lock portion 4. The two lock portions 4 are separated in the Z-axis direction by the slit 712. The through hole 711 is not essential for the terminal device 1, and the through hole 711 may be omitted.

(2.4) Dimensional relationship Next, the dimensional relationship of the terminal part 2, the pressing part 3, and the locking part 4 in the state where the spring block 13 is combined with the terminal block 12 will be described.

  As shown in FIG. 1B, in the X-axis direction, the first distance L1 that is the distance between the pressing part 3 and the first part 21 is the first distance that is the distance between the locking part 4 and the second part 22. It is set to be larger than the two distance L2. In the present embodiment, since the guide groove 23 is formed on the one surface 20 of the terminal portion 2, the deepest of the guide groove 23 is any of the first distance L1, the second distance L2, and the third distance L3 described later. This is defined based on the bottom surface 231 of the part. That is, the first distance L1 is between the contact portion 34 closest to the one surface 20 of the terminal portion 2 in the pressing portion 3 and the bottom surface 231 of the deepest portion of the guide groove 23 in the first portion 21 of the terminal portion 2. Is the distance. Similarly, the second distance L2 is the tip edge 41 closest to the one surface 20 of the terminal portion 2 in the lock portion 4, and the bottom surface 231 of the deepest portion of the guide groove 23 in the second portion 22 of the terminal portion 2. Is the distance between.

  In addition, of the pressing portion 3, the end portion on the insertion port 11 side in the Y-axis direction, that is, the third pressing piece 33 is separated from the terminal portion 2 as it approaches the insertion port 11 in the Y-axis direction. It is inclined with respect to the one surface 20. That is, since the third pressing piece 33 is inclined so as to be away from the terminal portion 2 as it is away from the contact portion 34, the terminal portion is provided at the end of the third pressing piece 33 opposite to the contact portion 34. The distance from 2 is larger than that of the contact portion 34. Here, in the X-axis direction, the distance between the edge of the third pressing piece 33 opposite to the contact portion 34 and the bottom surface 231 of the deepest portion of the guide groove 23 in the terminal portion 2 is the third distance L3. It prescribes.

  In short, in relation to the first distance L1, the second distance L2, and the third distance L3, the first distance L1 is larger than the second distance L2, and the third distance L3 is larger than the first distance L1 (L2 < L1 <L3).

  Incidentally, the wire diameter φX of the electric wire 100 inserted from the insertion port 11 is preferably larger than the first distance L1 and smaller than the third distance L3. The wire diameter φX of the electric wire 100 here is the wire diameter φX of the electric wire 100 defined as an electric wire that can be connected to the terminal device 1. When the electric wire 100 is an insulated wire, the diameter of the core wire inserted from the insertion port 11 is the wire diameter φX. In relation to the first distance L1, the second distance L2, the third distance L3, and the wire diameter φX, the first distance L1 is larger than the second distance L2, the wire diameter φX is larger than the first distance L1, and the line The third distance L3 becomes larger than the diameter φX (L2 <L1 <φX <L3). The wire diameter φX here means the outer diameter of the electric wire 100 inserted from the insertion port 11 (in the case of an insulated wire, the diameter of the core wire), and conforms to, for example, the IEC (International Electrotechnical Commission) standard. And appropriately determined.

(2.5) Electric Wire Connection Method Next, a method for connecting the electric wire 100 to the terminal device 1 having the above-described configuration will be described with reference to FIGS. 1A and 1B.

  The operator inserts the electric wire 100 to be connected into the terminal device 1 from the insertion port 11 in the positive direction of the Y axis. When the electric wire 100 is inserted, the tip of the electric wire 100 is first introduced between the locking portion 4 and the terminal portion 2 (second portion 22). Here, as described in the column “(2.4) Dimensional Relationship”, there is a dimensional relationship “L2 <φX” between the second distance L2 and the wire diameter φX of the electric wire 100. Therefore, the locking part 4 is pushed by the tip of the electric wire 100, and the leading edge 41 of the locking part 4 is displaced in a direction away from the one surface 20 of the terminal part 2. At this time, in the spring block 13, the spring part 42 is elastically deformed so that the radius of curvature of the spring part 42 becomes small. Therefore, a force in a direction of pressing the electric wire 100 against the terminal portion 2 acts on the electric wire 100 from the lock portion 4.

  When the electric wire 100 is further inserted from this state, the tip of the electric wire 100 is introduced between the pressing portion 3 and the terminal portion 2 (first portion 21). Here, as described in the column “(2.4) Dimensional Relationship”, the distance between the first distance L1, the third distance L3, and the wire diameter φX of the electric wire 100 is “L1 <φX <L3”. There is a dimensional relationship. Therefore, the tip of the electric wire 100 is guided by the third pressing piece 33 and is drawn between the contact portion 34 and the terminal portion 2. Then, the contact portion 34 is pushed by the tip of the electric wire 100 and the contact portion 34 of the pressing portion 3 is displaced in a direction away from the one surface 20 of the terminal portion 2. At this time, in the terminal block 12, the connecting portion 5 is elastically deformed so that the radius of curvature of the bending portion 51 is increased. Therefore, a force in a direction of pressing the electric wire 100 against the terminal portion 2 acts on the electric wire 100 from the pressing portion 3.

  In short, in a state where the electric wire 100 is inserted to a predetermined position, the electric wire 100 is pressed against the one surface 20 (first portion 21) of the terminal portion 2 by the pressing portion 3, and therefore, between the terminal portion 2 and the electric wire 100. Therefore, an appropriate contact pressure is generated, and the electric wire 100 and the terminal portion 2 are electrically connected. Furthermore, in this state, when the leading edge 41 of the locking portion 4 contacts the electric wire 100, the movement of the electric wire 100 in the direction in which the electric wire 100 is pulled out from the insertion port 11 is restricted, and the electric wire 100 is prevented from coming off. The

  Here, when the leading edge 41 of the locking part 4 is displaced away from the one surface 20 of the terminal part 2, the locking part 4 and the pressing part 3 are prevented so that the locking part 4 does not contact the pressing part 3. And the dimensions of the locking part 4 and the pressing part 3 are defined. That is, the positional relationship between the locking unit 4 and the pressing unit 3 in the Y-axis direction, and the locking unit 4 and the pressing unit 3 so that the pressing unit 3 is not positioned on the locus of the leading edge 41 of the locking unit 4. The dimensions are specified. Thereby, when the electric wire 100 is inserted, the locking part 4 and the pressing part 3 are not displaced simultaneously, but the locking part 4 is displaced first, and then the pressing part 3 is displaced. . Therefore, compared with the structure in which the locking part 4 and the pressing part 3 are displaced simultaneously, the magnitude of the force required for inserting the electric wire 100 can be kept small. As described above, it is preferable that the distance between the first portion 21 and the second portion 22 in the Y-axis direction is as small as possible while preventing the locking portion 4 from contacting the pressing portion 3. If the distance between the 1st site | part 21 and the 2nd site | part 22 becomes small, the length of the electric wire 100 which should be inserted will become short, and it will lead to size reduction of the terminal device 1. FIG.

(2.6) Overall Configuration Next, the overall configuration of the terminal device 1 including the case 8 and the release member 9 will be described with reference to FIGS. That is, the terminal device 1 further includes a case 8 and a release member 9 in addition to the terminal block 12 and the spring block 13 described above.

  The case 8 is made of an electrically insulating material such as a synthetic resin. The case 8 is formed in a box shape having a space for accommodating the terminal block 12 and the spring block 13. In a state where the terminal block 12 and the spring block 13 are housed in the case 8, at least the holding portion 6 is fixed to the case 8. In the present embodiment, a box-like case 8 opened in two directions, that is, a positive direction of the Y axis and a positive direction of the Z axis is illustrated. An insertion hole 81 that penetrates the bottom plate of the case 8 in the Y-axis direction is formed at a position corresponding to the insertion port 11 in the case 8. Two insertion holes 81 have a circular opening shape and are formed so as to correspond to the two electric wires 100. In FIG. 5 to FIG. 6B, the insertion port 11 is not shown, but in the terminal device 1 including the case 8, the insertion hole 81 of the case 8 corresponds to the insertion port 11.

  An operation window 82 that penetrates the side wall of the case 8 in the X direction is formed at a position corresponding to the opening window 24 in the case 8. The operation window 82 is a hole through which an action portion 93 of the release member 9 described later is passed. A pair of bearing portions 83 for holding the release member 9 is formed on a pair of inner surfaces facing the Z-axis direction among the inner surfaces of the operation window 82. A shaft portion 91 of the release member 9 described later is inserted into the pair of bearing portions 83.

  The release member 9 is a member for releasing the restriction of the movement of the electric wire 100 by the locking part 4, that is, the prevention of the electric wire 100 from coming off by the locking part 4. The release member 9 is made of an electrically insulating material such as a synthetic resin. The release member 9 is configured to be movable relative to the terminal portion 2 between a normal position and a release position. When the release member 9 moves from the normal position to the release position, the release member 9 applies a force in a direction away from the second portion 22 to the lock part 4, and restricts movement of the electric wire 100 by the lock part 4 (prevents coming off). Is released. 6A to 7 show a state in which the release member 9 is in the normal position.

  Specifically, the release member 9 includes a shaft portion 91, an operation portion 92, and an action portion 93. The shaft portion 91 is formed in a columnar shape along the Z-axis direction. The release member 9 is held by the case 8 in a state of being rotatable about the shaft portion 91 with respect to the case 8 by inserting both ends of the shaft portion 91 in the Z-axis direction into the pair of bearing portions 83. The As a result, the release member 9 can be rotated (moved) between the normal position and the release position with the shaft portion 91 as the center. The operation unit 92 is a part that is operated when the release member 9 is moved from the normal position to the release position. The release member 9 is held by the case 8 so that at least a part of the operation portion 92 is exposed from the case 8. The action portion 93 is a portion that applies a force in a direction away from the second portion 22 to the lock portion 4 when the release member 9 moves from the normal position to the release position. The release member 9 is held by the case 8 so that at least a part of the action part 93 is opposed to the distal end edge 41 of the locking part 4 through the operation window 82 of the case 8 and the opening window 24 of the terminal part 2. Yes.

  With the above configuration, when the connection between the terminal device 1 and the electric wire 100 is released, the operator operates the release member 9 to release the retaining of the electric wire 100 by the locking portion 4 and from the insertion port 11. The electric wire 100 can be removed. That is, when the release member 9 is in the normal position, when the operator pushes the operation unit 92 in the direction indicated by the arrow A1 in FIG. 7, the release member 9 moves to the release position about the shaft 91. At this time, the action portion 93 moves in the direction indicated by the arrow A2 in FIG. 7 and applies a force in a direction away from the second portion 22 to the distal end edge 41 of the lock portion 4. When the distal end edge 41 moves away from the second portion 22, the locking portion 4 is separated from the electric wire 100, and the restriction (prevention of movement) of the electric wire 100 by the locking portion 4 is released.

  Moreover, in this embodiment, it is comprised so that force may act simultaneously with respect to the two lock | rock parts 4 from the one cancellation | release member 9. FIG. That is, the action part 93 of the release member 9 is disposed at a position straddling the two lock parts 4 in the Z-axis direction. As a result, when the release member 9 moves from the normal position to the release position, a force in a direction away from the second portion 22 acts simultaneously on the two lock portions 4, and the two lock portions 4 are simultaneously prevented from coming off. Is released.

(2.7) Wiring device The terminal device 1 having the above-described configuration is used in, for example, a wiring device 10 as shown in FIG. A wiring device 10 illustrated in FIG. 8 is a switch used by being attached to a wall of a building. The wiring device 10 includes a rectangular parallelepiped device body 101 and a terminal device 1 housed in the device body 101. In the example of FIG. 8, a handle 102 is provided on the front surface of the instrument main body 101. The wiring device 10 is configured such that the contact in the device main body 101 is switched on / off each time the handle 102 is pressed.

  The wiring device 10 includes two terminal devices 1 configured as described above. The two terminal devices 1 are accommodated in the instrument body 101 so that the insertion holes 81 (see FIG. 5) are exposed on the rear surface of the instrument body 101, respectively. Thereby, in the wiring device 10, the electric wire 100 can be connected by inserting the electric wire 100 from the rear surface side of the device main body 101.

  Here, the case 8 (see FIG. 5) of the terminal device 1 may be a separate body from the instrument body 101, or may be a part of the instrument body 101. Further, the release member 9 (see FIG. 7) is held by the device body or case 8 of the instrument main body 101 so that at least a part of the operation unit 92 (see FIG. 7) is exposed from the instrument body of the instrument main body 101. .

(3) Advantages As described above, the terminal device 1 according to the first aspect includes the terminal portion 2, the pressing portion 3, and the locking portion 4. The pressing portion 3 is disposed so as to face the one surface 20 of the terminal portion 2, and sandwiches the electric wire 100 inserted along the insertion direction (Y-axis direction) from the insertion port 11 between the terminal portion 2. The locking part 4 has elasticity and is disposed so as to face the one surface 20 of the terminal part 2, and comes into contact with the electric wire 100 to restrict the movement of the electric wire 100 toward the insertion port 11. The pressing part 3 and the locking part 4 are separate members.

  According to this structure, since the electric wire 100 is hold | maintained in two places between the pressing part 3 and the terminal part 2, and between the locking part 4 and the terminal part 2, it is in an insertion direction (Y-axis direction). On the other hand, the electric wire 100 becomes difficult to tilt. Therefore, the electric wire 100 can come into surface contact with the terminal portion 2 regardless of the hardness of the electric wire 100, and the contact state between the electric wire 100 and the terminal portion 2 is stabilized. If the contact state between the electric wire 100 and the terminal portion 2 is stabilized, the contact resistance between the electric wire 100 and the terminal portion 2 is also stabilized, and the temperature rise of the terminal portion 2 due to the increase in the contact resistance is suppressed. Moreover, the pressing portion 3 that presses the electric wire 100 against the terminal portion 2 by sandwiching the electric wire 100 between the terminal portion 2 and the locking portion 4 that prevents the electric wire 100 from coming off are separate members that are separated from each other. . Therefore, for example, when the electric wire 100 is inserted, even if a force is applied from the electric wire 100 to the locking portion 4, the force is not transmitted from the locking portion 4 to the pressing portion 3, and the electric wire 100 is pressed against the terminal portion 2. The power becomes easier to stabilize. As a result, in the terminal device 1, there exists an advantage that the contact state of the electric wire 100 with respect to the terminal part 2 does not become unstable easily.

  In the terminal device 1 according to the second aspect, in the first aspect, the first distance L1 is larger than the second distance L2 in the facing direction (X-axis direction) between the pressing portion 3 and the terminal portion 2. It is preferable. The first distance L1 is a distance between the pressing portion 3 and the one surface 20 of the terminal portion 2. The second distance L2 is a distance between the lock part 4 and the one surface 20 of the terminal part 2. According to this structure, since the space | interval between the pressing part 3 and the terminal part 2 is wider than the space | interval between the locking part 4 and the terminal part 2, the pressing part 3 moves to the insertion direction (Y-axis direction) of the electric wire 100. This makes it possible to smoothly insert and remove the electric wire 100. However, this configuration is not essential for the terminal device 1. For example, the first distance L1 may be equal to or less than the second distance L2.

  Moreover, the terminal device 1 which concerns on a 3rd aspect WHEREIN: The edge part by the side of the insertion port 11 in the insertion direction (Y-axis direction) is the one surface of the terminal part 2 among the pressing parts 3 in the 1st or 2nd aspect. It is preferable to be inclined with respect to 20. In this case, it is preferable that the end of the pressing portion 3 on the insertion port 11 side in the insertion direction (Y-axis direction) is inclined so as to be away from the terminal portion 2 as the insertion port 11 is approached in the insertion direction. According to this configuration, when the electric wire 100 is inserted, the tip of the electric wire 100 is guided by the end on the insertion port 11 side in the insertion direction (Y-axis direction) of the pressing portion 3, and the pressing portion 3 and the terminal portion. 2, the electric wire 100 can be easily inserted. However, this configuration is not an essential configuration for the terminal device 1. For example, in the pressing portion 3, the end portion on the insertion port 11 side in the insertion direction (Y-axis direction) is relative to the one surface 20 of the terminal portion 2. It does not have to be inclined.

  Moreover, it is preferable that the terminal device 1 which concerns on a 4th aspect is further provided with the connection part 5 which connects the terminal part 2 and the pressing part 3 in any one of the 1st-3rd aspect. According to this configuration, the pressing portion 3 that presses the electric wire 100 against the terminal portion 2 by sandwiching the electric wire 100 with the terminal portion 2 is connected to the terminal portion 2 by the connecting portion 5. In other words, the pressing part 3 can be handled as one part with the terminal part 2. Therefore, compared to a configuration in which the terminal portion 2 and the pressing portion 3 are separate parts, the pressing force of the electric wire 100 against the terminal portion 2 is less likely to vary. As a result, in the terminal device 1, the electric wire 100 against the terminal portion 2 is not generated. There is an advantage that the contact state is not likely to be unstable. However, this configuration is not an essential configuration for the terminal device 1 and, for example, the connecting portion 5 may be omitted.

  Further, in the terminal device 1 according to the fifth aspect, in the fourth aspect, the connecting portion 5 includes an end portion of the terminal portion 2 opposite to the insertion port 11 in the insertion direction (Y-axis direction), It is preferable that the pressing part 3 is connected. According to this configuration, interference between the electric wire 100 inserted from the insertion port 11 and the connecting portion 5 hardly occurs, and the degree of freedom in designing the connecting portion 5 is increased. However, this configuration is not an essential configuration for the terminal device 1. For example, the connecting portion 5 includes the end portion on the insertion port 11 side in the insertion direction (Y-axis direction) of the terminal portion 2 and the pressing portion 3. It may be connected. Or the connection part 5 may connect the one end part in the Z-axis direction and the pressing part 3 among the terminal parts 2.

  Further, in the terminal device 1 according to the sixth aspect, in the fifth aspect, the connecting portion 5 is connected to the terminal portion 2 from the end opposite to the insertion port 11 in the insertion direction (Y-axis direction). It is preferable to protrude to the opposite side to the insertion port 11. According to this configuration, since the distance from the fulcrum when the pressing portion 3 is displaced to the pressing portion 3 is increased by the amount of protrusion of the connecting portion 5, the deformation amount (deflection amount) of the connecting portion 5 is kept small. However, a large displacement amount of the pressing portion 3 can be ensured. Therefore, the width of the wire diameter φX of the connectable electric wire 100 is increased. However, this configuration is not an essential configuration for the terminal device 1. For example, the connecting portion 5 protrudes from the end portion of the terminal portion 2 opposite to the insertion port 11 in the insertion direction (Y-axis direction). It does not have to be.

  Further, in the terminal device 1 according to the seventh aspect, in the sixth aspect, the connecting portion 5 is inserted in the insertion direction within a plane including both the opposing direction of the pressing portion 3 and the terminal portion 2 and the insertion direction. It is preferable to have a curved portion 51 that is curved so as to be convex on the side opposite to the mouth 11. According to this configuration, the stress applied to the connecting portion 5 when the pressing portion 3 is displaced is dispersed by the curved portion 51, and stress concentration is unlikely to occur in the connecting portion 5. Therefore, plastic deformation of the connecting portion 5 is unlikely to occur, and the pressing portion The pressing force of 3 is easily maintained. However, this configuration is not essential for the terminal device 1. For example, the connecting portion 5 may not have the bending portion 51.

  In the terminal device 1 according to the eighth aspect, in any one of the fourth to seventh aspects, it is preferable that the pressing portion 3, the connecting portion 5, and the terminal portion 2 are integrally formed. According to this configuration, the pressing portion 3 is electrically connected to the terminal portion 2 through the connecting portion 5, and the electric wire 100 is in contact with either the terminal portion 2 or the pressing portion 3. It is electrically connected to the terminal portion 2. Therefore, the contact resistance between the electric wire 100 and the terminal portion 2 is more stable. However, this configuration is not essential for the terminal device 1. For example, the pressing unit 3, the coupling unit 5, and the terminal unit 2 may be separate.

  The terminal device 1 according to the ninth aspect further includes a holding part 6 formed integrally with the terminal part 2 in any one of the first to eighth aspects, and the holding part 6 includes the locking part 4. It is preferable to hold the spring block 13 including the terminal block 2. According to this configuration, the relative position of the locking part 4 with respect to the terminal part 2 is defined by the holding part 6, so that the electric wire 100 can be stably prevented from being detached by the locking part 4. Furthermore, since the holding part 6 is made of a metal material, for example, when the locking part 4 is held by a synthetic resin case 8 or the like, the relative position of the locking part 4 with respect to the terminal part 2 is Less likely to change due to temperature changes. However, this configuration is not essential for the terminal device 1. For example, the holding unit 6 may be omitted and the spring block 13 may be held by the case 8 or the like.

  Moreover, it is preferable that the terminal device 1 which concerns on a 10th aspect has the control part 64 in the holding | maintenance part 6 in the 9th aspect. The restricting portion 64 contacts the spring block 13 from the side opposite to the insertion port 11 in the insertion direction (Y-axis direction) and is a terminal in the opposing direction (X-axis direction) between the pressing portion 3 and the terminal portion 2. It is preferable to contact from the side opposite to the part 2. According to this configuration, since the movement of the spring block 13 away from the insertion port 11 and the terminal portion 2 is restricted by the restriction portion 64, the position of the spring block 13 when the electric wire 100 is inserted is stabilized, and the chain The lock of the electric wire 100 by the lock part 4 is stably performed. However, this configuration is not an essential configuration for the terminal device 1. For example, the restriction portion 64 may be omitted, and the movement of the spring block 13 may be restricted by the case 8 or the like.

  Moreover, it is preferable that the terminal device 1 which concerns on an 11th aspect consists of a mutually different material in the pressing part 3 and the locking part 4 in any one of the 1st-10th aspect. According to this configuration, an optimum material can be applied to each of the pressing portion 3 for pressing the electric wire 100 against the terminal portion 2 and the locking portion 4 for preventing the electric wire 100 from coming off. For example, a material having excellent conductivity for the pressing portion 3 and a material having excellent elasticity for the locking portion 4 can be applied. However, this configuration is not essential for the terminal device 1, and the pressing portion 3 and the locking portion 4 may be made of the same material.

  Further, in any one of the first to eleventh aspects, the terminal device 1 according to the twelfth aspect has a guide groove 23 extending in the insertion direction (Y-axis direction) formed on the one surface 20 of the terminal portion 2. Preferably it is. According to this configuration, since the movement of the electric wire 100 in a plane other than the insertion direction (Y-axis direction) in the plane along the one surface 20 is restricted by the guide groove 23, the insertion operation of the electric wire 100 is performed. Workability is improved. In particular, when the electric wire 100 is a stranded wire having a core made of a plurality of conductors, the plurality of conductors constituting the core are less likely to be separated by the electric wire 100 passing through the guide groove 23. However, this configuration is not essential for the terminal device 1 and the guide groove 23 may be omitted.

  The terminal device 1 according to the thirteenth aspect is the twelfth aspect, wherein the bottom surface 231 of the guide groove 23 has a cross-sectional shape perpendicular to the insertion direction (Y-axis direction) between the pressing portion 3 and the terminal portion 2. It is preferable that the shape is curved so as to be convex on the opposite side to the pressing portion 3 in the facing direction. According to this configuration, the electric wire 100 can easily pass through the center of the guide groove 23 in the width direction (Z-axis direction). In particular, when the electric wire 100 is a stranded wire having a core made of a plurality of conductors, the plurality of conductors constituting the core are less likely to be separated. However, this configuration is not essential for the terminal device 1. For example, the bottom surface 231 of the guide groove 23 may be V-shaped.

  The terminal device 1 according to the fourteenth aspect further includes a release member 9 that is relatively movable between the normal position and the release position with respect to the terminal portion 2 in any one of the first to thirteenth aspects. It is preferable to provide. When the release member 9 moves from the normal position to the release position, the release member 9 applies a force in a direction away from the one surface 20 of the terminal portion 2 to the lock portion 4 to restrict the movement of the electric wire 100 by the lock portion 4. It is preferable to cancel. According to this configuration, the operation of the release member 9 allows the wire 100 to be easily removed in a state where the restriction of the movement of the wire 100 by the lock portion 4 is released. However, this configuration is not an essential configuration for the terminal device 1. For example, the release member 9 may be omitted.

  Further, in the terminal device 1 according to the fifteenth aspect, in any one of the first to fourteenth aspects, the locking part 4 is positioned between the pressing part 3 and the insertion port 11 in the insertion direction (Y-axis direction). It is preferable to do. According to this configuration, the locking portion 4 prevents the electric wire 100 from coming off at a position close to the insertion port 11, and the pressing portion 3 presses the electric wire 100 against the terminal portion 2 at a position far from the insertion port 11. Therefore, even if a force in a direction perpendicular to the insertion direction (Y-axis direction) acts on the electric wire 100, the pressing force of the electric wire 100 against the terminal portion 2 is stable, and the contact state between the terminal portion 2 and the electric wire 100 is maintained. It becomes easier to stabilize. However, this configuration is not an essential configuration for the terminal device 1. For example, the pressing portion 3 may be positioned between the locking portion 4 and the insertion port 11 in the insertion direction (Y-axis direction).

  Further, in the terminal device 1 according to the sixteenth aspect, in any of the first to fifteenth aspects, a plurality of pressing portions 3 (two in the first embodiment) are provided, and each of the plurality of pressing portions 3 is It is preferable that the electric wire 100 is individually sandwiched between the terminal portion 2. According to this configuration, since the pressing unit 3 individually applies a pressing force to the plurality of electric wires 100 respectively inserted from the plurality of insertion ports 11, the followability of the pressing unit 3 with respect to the electric wire 100 is improved. The contact state between the electric wire 100 and the terminal portion 2 is stabilized. However, this configuration is not an essential configuration for the terminal device 1, for example, a configuration in which a single pressing unit 3 sandwiches a plurality of electric wires 100 inserted from a plurality of insertion ports 11 between the terminal unit 2. May be.

  Further, in any one of the first to sixteenth aspects, the terminal device 1 according to the seventeenth aspect is such that the pressing portion 3 is within a plane including both the facing direction of the pressing portion 3 and the terminal portion 2 and the insertion direction. The contact portion 34 is preferably curved so as to protrude toward the terminal portion 2 in the facing direction. According to this configuration, the pressing portion 3 is brought into contact with the electric wire 100 at the contact portion 34, so that the electric wire 100 is less likely to be caught when moving in the insertion direction (Y-axis direction). Extraction becomes possible. However, this configuration is not essential for the terminal device 1. For example, the pressing portion 3 may not have the curved contact portion 34.

  Further, in any one of the first to seventeenth aspects, the terminal device 1 according to the eighteenth aspect is such that the locking part 4 approaches the terminal part 2 as the distance from the insertion port 11 increases in the insertion direction (Y-axis direction). It is preferable to be inclined with respect to the one surface 20 of the terminal portion 2. In this case, it is preferable that the locking part 4 is in contact with the electric wire 100 at the tip edge 41 closest to the one surface 20 of the terminal part 2 to restrict the movement of the electric wire 100 toward the insertion port 11. According to this configuration, simply by inserting the electric wire 100 from the insertion port 11, the locking portion 4 is pushed by the tip of the electric wire 100, and the leading edge 41 of the locking portion 4 is removed from the one surface 20 of the terminal portion 2. Displace in the direction of leaving. Therefore, the electric wire 100 can be inserted in a state where the release member 9 is not operated. However, this configuration is not an essential configuration for the terminal device 1. For example, the lock portion 4 may have a shape different from the above shape.

  In addition, the wiring device 10 includes the terminal device 1 according to any one of the first to 18th aspects and the device body 101 in which the terminal device 1 is housed. According to this configuration, the wiring device 10 has an advantage that the contact state of the electric wire 100 with respect to the terminal portion 2 is not likely to be unstable. However, the terminal device 1 is not limited to the wiring device 10, and may be used for an electric device such as a home appliance, or may be used alone.

(4) Modification The terminal device 1 according to the first embodiment is merely an example of the present invention, and the present invention is not limited to the first embodiment, and the present invention is not limited to the first embodiment. Various modifications can be made according to the design or the like as long as the technical idea does not depart from the scope. Below, the modification of Embodiment 1 is enumerated.

  The guide groove 23 is not limited to the configuration formed by curving a part of the terminal portion 2 as in the first embodiment, and is a configuration formed by cutting one surface 20 of the terminal portion 2 by cutting, for example. Also good.

  Moreover, the terminal part 2, the pressing part 3, the connection part 5, and the holding part 6 which comprise the terminal block 12 are not restricted to the structure formed by bending one metal plate, For example, extrusion molding etc. May be formed. Similarly, the lock part 4 and the extension part 7 which comprise the spring block 13 are not restricted to the structure formed by bending one metal plate, For example, you may form by extrusion molding etc. .

  In addition, it is not essential for the terminal device 1 that the contact portion 34 is curved with a predetermined radius of curvature. For example, the contact portion 34 may be angular. Similarly, each corner of the holding part 6 and each corner of the extending part 7 are not essential to the terminal device 1 to be curved with a predetermined radius of curvature, and may be angular, for example. . The spring portion 42 is not necessarily indispensable for the terminal device 1 to be curved with a predetermined radius of curvature, and may be angular, for example.

  The terminal block 12 only needs to have conductivity, and the material of the terminal block 12 is not limited to copper, for example, copper alloy such as brass, tin (Sn) bronze, or phosphorus (P) bronze. Also good. Similarly, the spring block 13 only needs to have elasticity, and the material of the spring block 13 is not limited to stainless steel, and may be, for example, iron (Fe) or a copper alloy. The terminal block 12 (pressing portion 3) and the spring block 13 (locking portion 4) may be made of the same material.

  Further, the terminal device 1 is not limited to a two-pole type terminal device that can connect up to two electric wires 100, but can be connected to, for example, a three-pole type that can connect three electric wires 100, or four electric wires 100. A terminal device capable of connecting three or more electric wires 100 such as a four-pole type may be used. In this case, in the terminal device 1, it is preferable that the pressing part 3, the locking part 4, and the connection part 5 are provided by the same number as the number of poles. That is, in the three-pole terminal device 1, it is preferable that the pressing portion 3, the locking portion 4, and the connecting portion 5 are provided three by three.

  Moreover, the pressing part 3, the connection part 5, and the terminal part 2 may not be integral, and the pressing part 3, the connection part 5, and the terminal part 2 may be separate bodies. Specifically, the pressing part 3, the connecting part 5, and the terminal part 2 that are configured separately may be coupled by caulking, welding, pressure bonding, or the like.

  In the first embodiment, the release member 9 has been described as being operated only when the electric wire 100 is removed, but may be operated when the electric wire 100 is inserted. That is, when the operator connects the electric wire 100 to the terminal device 1, the operator operates the release member 9 to displace the tip edge 41 of the lock portion 4 in a direction away from the one surface 20 of the terminal portion 2. The electric wire 100 may be inserted.

(Embodiment 2)
The terminal device 1A according to the present embodiment is a unipolar terminal device that can connect only one electric wire. Hereinafter, the same configurations as those of the first embodiment are denoted by common reference numerals, and description thereof is omitted as appropriate.

  As illustrated in FIG. 9, the terminal device 1 </ b> A corresponds to a configuration in which the terminal device 1 according to the first embodiment (see FIGS. 6A and 6B) is divided into two equal parts in the Z-axis direction. That is, the terminal device 1 </ b> A has only one insertion port 11, and one electric wire 100 can be connected through one insertion port 11. In this terminal device 1 </ b> A, one electric wire 100 is electrically connected to one terminal portion 2. In the terminal device 1A, the pressing part 3, the locking part 4, and the connecting part 5 are provided one by one.

  The terminal device 1 </ b> A of the present embodiment described above also has an advantage that the contact state of the electric wire 100 with respect to the terminal portion 2 is less likely to become unstable, as in the first embodiment. Moreover, 1 A of terminal devices may be used for the wiring instrument 10 (refer FIG. 8) similarly to Embodiment 1. FIG.

  The configuration of the second embodiment can be applied in combination with the configuration of the first embodiment (including modifications) as appropriate.

DESCRIPTION OF SYMBOLS 1,1A Terminal device 2 Terminal part 3 Pushing part 4 Locking part 5 Connection part 6 Holding part 9 Release member 10 Wiring instrument 11 Insertion port 13 Spring block 20 One surface 23 Guide groove 34 Contact part 41 Tip edge 51 Curved part 64 Restriction Part 100 Electric wire 101 Instrument body 231 Bottom surface L1 First distance L2 Second distance

Claims (11)

A terminal section;
A pressing portion that is disposed so as to face one surface of the terminal portion and sandwiches an electric wire inserted along an insertion direction from an insertion port between the terminal portion, and
A locking part that has elasticity and is arranged to face the one surface of the terminal part, and that contacts the electric wire and restricts the electric wire from moving toward the insertion port;
With
The terminal device in which the pressing portion and the locking portion are separate members. In the facing direction of the pressing portion and the terminal portion, a first distance that is a distance between the pressing portion and the one surface of the terminal portion is a distance between the locking portion and the one surface of the terminal portion. The terminal device according to claim 1, wherein the terminal device is larger than a second distance that is a distance between them. Of the pressing portion, an end on the insertion port side in the insertion direction is inclined with respect to the one surface of the terminal portion so as to be separated from the terminal portion as the insertion port is approached in the insertion direction. The terminal device according to claim 1. The terminal device according to claim 1, further comprising a connecting portion that connects the terminal portion and the pressing portion. A holding portion formed integrally with the terminal portion;
The terminal device according to claim 1, wherein the holding unit holds a spring block including the locking portion between the terminal unit and the terminal block. The holding portion contacts the spring block from the side opposite to the insertion port in the insertion direction, and contacts from the side opposite to the terminal portion in the opposing direction of the pressing portion and the terminal portion. The terminal device according to claim 5, further comprising a restriction portion. The terminal device according to claim 1, wherein the pressing portion and the locking portion are made of different materials. The terminal device according to claim 1, wherein a guide groove extending in the insertion direction is formed on the one surface of the terminal portion. The bottom surface of the guide groove has a curved shape so that a cross-sectional shape orthogonal to the insertion direction is convex to the opposite side of the pressing portion in the facing direction of the pressing portion and the terminal portion. The terminal device as described in. A release member that is relatively movable between a normal position and a release position with respect to the terminal portion;
When the release member moves from the normal position to the release position, the release member applies a force in a direction away from the one surface of the terminal portion to the lock portion, and the movement of the electric wire by the lock portion is performed. The terminal device according to claim 1, wherein the restriction is released. The terminal device according to any one of claims 1 to 10,
An instrument body containing the terminal device;
Wiring equipment comprising.

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