JP2019024023A - connector - Google Patents

Abstract

To provide a connector which does not wrongly recognize locking completion, does not slip off, can securely complete fitting work in a short time, and improves reliability.SOLUTION: A second housing includes: a side plate extending in a fitting direction; and at least three second connector lock portions which project from an outer surface of the side plate, and are formed so as to be aligned at intervals in a width direction of the second housing. A first housing includes: a side plate extending in the fitting direction; a locking arm which is formed on the side plate, and covers at least a part of the outer surface of the second housing when the first housing and the second housing are fitted; and at least three first connector lock portions which are formed on the locking arm so as to be aligned at intervals in a width direction of the first housing, and are engaged with the second connector lock portions when the first housing and the second housing are fitted.SELECTED DRAWING: Figure 1

Description

  The present disclosure relates to a connector.

  Conventionally, a connector called a wire-to-board connector is used to connect an electric wire such as a cable to a substrate such as a printed circuit board. In such a connector, one connector is mounted on a substrate and is fitted with the other connector connected to the end of the cable (see, for example, Patent Document 1).

  FIG. 12 is a perspective view showing a state before fitting of a conventional connector.

  In the figure, reference numeral 951 denotes a terminal of the board connector, which is loaded by being press-fitted into the bottom plate of the housing 911 made of an insulating material. The lower end of each terminal 951 penetrates the substrate 991 and is fixed to a member such as a conductive trace formed on the back surface of the substrate 991 by soldering. As a result, the board connector is fixed to the board 991. The housing 911 includes a recess 913 that opens upward, and the vicinity of the upper end of the terminal 951 is exposed in the recess 913.

  Reference numeral 811 denotes a wire connector housing, which is loaded with a wire-side terminal (not shown) connected to the end of each wire 891. The housing 811 is moved in the direction of the arrow shown in the figure, and is inserted into the recess 913 of the housing 911 of the board connector, so that the wire connector and the board connector are fitted. Thereby, the electric wire side terminal connected to the terminal of each electric wire 891 contacts with the corresponding terminal 951, and each electric wire 891 is conducted with the corresponding conductive trace of the substrate 991.

  A pair of protrusions 935 are formed on the front surface of the housing 911 of the board connector. Further, a plate-like arm 831 is provided on the front surface of the housing 811 of the electric wire connector. The arm 831 is swingably attached to the front surface of the housing 811 via an elastically deformable support (not shown). Further, a hook portion 835 having a hook shape is formed at the lower end of the arm 831 so as to protrude toward the front surface of the housing 811.

  Then, when the wire connector housing 811 is inserted into the recess 913 of the board connector housing 911 and the wire connector and the board connector are fitted together, the arm 831 swings, so that the hook portion 835 protrudes 935. Is engaged with the lower end of the protrusion 935. Thereby, the electric wire connector and the board connector are locked to each other, and the electric wire connector is prevented from being detached from the board connector.

  In addition, since the pair of protrusions 935 are arranged separately on the left and right, even when an external force that inclines the electric wire connector in the width direction is applied, the left and right protrusions 935 and the corresponding hook portions Since the engagement with 835 is maintained, the lock is reliably maintained.

  When it is necessary to remove the wire connector from the board connector, an operator's finger or the like is operated to press the upper portion 837 of the arm 831 against the front surface of the housing 811, and the arm 831 is swung to project the hook portion 835 and the protrusion. By releasing the engagement with 935, the lock can be released.

JP 2000-123912 A

  However, in the conventional connector, when the wire connector housing 811 is inserted into the recess 913 of the board connector housing 911 in a posture inclined in the width direction, the lower end of the arm 831 is twisted (screwed). Even if one of the protrusions 935 and the hook part 835 corresponding thereto are engaged, the other protrusion 935 and the corresponding hook part 835 may remain unengaged. Even when such a situation occurs, the operator completes the locking based on the click sound generated by the engagement of one projection 935 and the corresponding hook portion 835 or the click feeling transmitted to the fingers. I misunderstand that. Moreover, since the projections 935 are covered by the arms 831, it is impossible to visually check whether all the projections 935 are engaged with the hook portions 835, that is, whether the locking is completed. .

  Therefore, the lock operation has not been completed, and the fitting work between the wire connector and the board connector has been completed even though some of the wire side terminals may not be in contact with the corresponding terminals 951. It is regarded and left unattended. Further, the other protrusion 935 and the hook portion 835 corresponding thereto remain unengaged, and the insertion of the wire connector housing 811 into the recess 913 of the housing 911 of the board connector remains incomplete. There may be a situation where the electric wire connector is detached from the board connector later.

  Here, when the conventional problem is solved and at least three lock portions are arranged side by side in the width direction, one connector is inclined in the width direction with respect to the other connector. In order to prevent the lock part from being locked, there is no misunderstanding of the completion of the lock, and when both connectors are fitted in the correct posture and the lock is completed, Even when an external force that inclines in the width direction is applied, one connector does not come off from the other connector, and the mating operation can be completed in a short time, which is highly reliable. An object is to provide a connector.

  Therefore, in the connector, the first housing, the first connector including the first terminal loaded in the first housing, the second housing fitted to the first housing, and the second housing A second connector including a second terminal loaded and in contact with the first terminal, wherein the second housing includes a side plate extending in a fitting direction and a second plate protruding from an outer surface of the side plate. Two connector lock parts, at least three second connector lock parts formed so as to be arranged at intervals in the width direction of the second housing, and the second connector lock parts include at least one first connector lock part. Two central lock portions and a pair of second end lock portions formed at both ends, wherein the first housing includes a side plate extending in the fitting direction and a locking arm portion formed on the side plate. Ah Then, when the first housing and the second housing are fitted, a locking arm portion that covers at least a part of the outer surface of the side plate of the second housing is arranged with a gap in the width direction of the first housing. At least three first connector lock portions formed on the locking arm portion, and at least three first connector lock portions that engage with each of the second connector lock portions when the first housing and the second housing are fitted. 1 connector lock portion, the first connector lock portion includes at least one first central lock portion and a pair of first end lock portions formed at both ends, the locking arm portion, The first central lock portion and the first end lock portion include a flat main body, and the first central lock portion and the first end lock portion have locking surfaces facing the second central lock portion and the second end lock portion, respectively.

  In another connector, the first end lock portion is further formed at an end edge of the main body portion.

  In still other connectors, the second connector lock portions have the same side shape and are formed at the same position with respect to the fitting direction, and the first connector lock portions are the same. And are formed at the same position in the fitting direction.

  In still another connector, the second housing is a slide fitting portion formed on the other side plate facing the side plate and a portion of the other side plate corresponding to the second connector lock portion. The first housing has a concave key groove or a convex fitting that fits with the slide fitting part. Contains a key.

  In still another connector, the first connector is a wire connector in which the first terminal is connected to an electric wire, and the second connector is a board connector in which the second terminal is connected to a substrate. .

  Since the connector has at least three lock portions arranged in the width direction, when one connector is inclined with respect to the other connector in the width direction, any lock portion is locked. If the locking is completed with both connectors mated in a proper position without locking, the external force that tilts one of the connectors in the width direction. Even when is added, one connector does not come off the other connector. In addition, the fitting operation can be completed in a short time, and a highly reliable connector can be obtained.

It is a perspective view which shows the state which the electric wire connector and board | substrate connector in embodiment fit. It is a perspective view which shows the state before the electric wire connector and board | substrate connector in embodiment fit. It is a three-plane figure which shows the state which the electric wire connector and board | substrate connector in embodiment fit, Comprising: (a) is a top view, (b) is a side view, (c) is a rear view, The back of a board connector It is the figure seen from. BRIEF DESCRIPTION OF THE DRAWINGS It is a three-plane figure which shows the state before the electric wire connector and board | substrate connector in embodiment fit together, (a) is a top view, (b) is a side view, (c) is a rear view, and is a board connector. It is the figure seen from behind. It is a principal part top view which shows the positional relationship of the electric wire side locking part of the electric wire connector in embodiment, and the board | substrate side locking part of a board | substrate connector, Comprising: (a) is the state before a wire connector and a board | substrate connector fit. (B) is a figure which shows the state which the electric wire connector and the board | substrate connector fitted. It is a principal part perspective view which shows the positional relationship of the electric wire side locking part of the electric wire connector in embodiment, and the board | substrate side locking part of a board | substrate connector, (a) is the state before a wire connector and a board | substrate connector fit. (B) is a figure which shows the state which the electric wire connector and the board | substrate connector fitted. It is a perspective view which shows the inner side of the movable arm of the electric wire connector in embodiment, Comprising: (a) is the figure seen from the front diagonally lower side, (b) is the figure seen from the back diagonally lower side. It is a 1st figure which shows the change of the positional relationship of the electric wire side lock part of the electric wire connector in embodiment, and the board | substrate side lock part of a board | substrate connector, (a) is a top view, (b) is a side view, c) is a cross-sectional side view, and is a cross-sectional view taken along line AA in (a). It is a 2nd figure which shows the change of the positional relationship of the electric wire side lock part of the electric wire connector in embodiment, and the board | substrate side lock part of a board | substrate connector, (a) is a top view, (b) is a side view, c) is a cross-sectional side view, and is a cross-sectional view taken along line AA in (a). It is a 3rd figure which shows the change of the positional relationship of the electric wire side locking part of the electric wire connector in embodiment, and the board | substrate side locking part of a board | substrate connector, (a) is a top view, (b) is a side view, c) is a cross-sectional side view, and is a cross-sectional view taken along line AA in (a). It is a figure which shows the positional relationship when the electric wire connector in embodiment is fitted with the attitude | position inclined in the width direction with respect to the board | substrate connector, Comprising: (a) is a top view, (b) is a principal part expanded top view. It is. It is a perspective view which shows the state before the fitting of the conventional connector.

  Hereinafter, embodiments will be described in detail with reference to the drawings.

  1 is a perspective view showing a state in which the electric wire connector and the board connector in the embodiment are fitted, FIG. 2 is a perspective view showing a state before the electric wire connector and the board connector in the embodiment are fitted, FIG. FIG. 4 is a trihedral view showing a state in which the electric wire connector and the board connector in the embodiment are fitted, and FIG. 4 is a trihedral view showing a state before the electric wire connector and the board connector in the embodiment are fitted. 3 and 4, (a) is a top view, (b) is a side view, and (c) is a rear view, as viewed from the back of the board connector.

  In the figure, 1 is an electric wire connector as a first connector which is one of the connectors in the present embodiment, and is connected to the end of a cable including a plurality of electric wires 91. Reference numeral 101 denotes a board connector as a second connector which is the other connector in the present embodiment, which is mounted on a circuit board as a board (not shown).

  In the example shown in the figure, the board connector 101 is a so-called right-angle type connector, and is placed on the lower surface (right side in FIGS. 3B and 4B) in a state of being transverse to the circuit board. Is mounted so that the surface) faces the surface of the circuit board. Therefore, the insertion recess 113 extends parallel to the circuit board. The board connector 101 is not limited to the right angle type, and may be a so-called straight type connector. In the case of the straight type, the board connector 101 is mounted in an upright state with respect to the circuit board, that is, in an open state facing upward, and the insertion recess 113 is in a direction perpendicular to the circuit board. Extend. Here, for convenience of explanation, only the case where the board connector 101 is a right angle type connector will be described.

  In the present embodiment, expressions indicating directions such as upper, lower, left, right, front, rear, etc. used for explaining the configuration and operation of each part of the wire connector 1 and the board connector 101 are absolute. The wire connector 1 and the board connector 101 are suitable when the wire connector 1 and the board connector 101 are in the posture shown in the figure, but the posture of the wire connector 1 and the board connector 101 is changed when the posture is changed. It should be interpreted according to changes.

  The board connector 101 is integrally formed of an insulating material such as a synthetic resin, and a housing 111 as a second housing that fits with the electric wire connector 1, and a metal second terminal loaded in the housing 111 Board-side terminal 151 and a metal nail 181 as an auxiliary metal fitting for fixing the housing 111 to the circuit board.

  The housing 111 is generally a rectangular parallelepiped extending in a direction orthogonal to the fitting direction with the wire connector 1 and extending in the arrangement direction of the board-side terminals 151, that is, in the width direction of the board connector 101. It is a box-shaped member. The housing 111 includes a substantially rectangular back plate portion 115, a first plate portion 112 as a side plate extending from the upper end edge of the back plate portion 115 in the fitting direction, and the back plate portion. 115 includes a second plate portion 116 as the other side plate extending from the lower end edge of 115 in the fitting direction, and a pair of side wall portions 117 extending from both side edges of the back plate portion 115 in the fitting direction. Yes. The insertion recess 113 is defined by the back plate portion 115, the first plate portion 112, the second plate portion 116, and the side wall portion 117, and has a substantially rectangular parallelepiped space opened forward. . The first plate portion 112 and the second plate portion 116 face each other, and the pair of side wall portions 117 face each other.

  Each board-side terminal 151 is attached to the back plate 115 by being fitted into a through hole formed in the back plate 115. The vicinity of the tip of each board-side terminal 151 is a portion that extends forward from the back plate 115 and is exposed in the insertion recess 113 and is in contact with the wire-side terminal as the first terminal of the wire connector 1. Yes. Further, the vicinity of the rear end of each board-side terminal 151 extends rearward from the lower end edge of the back plate 115 and is electrically connected to a terminal connection pad formed on the surface of the circuit board by soldering or the like. A solder tail portion 152 is formed. For example, the terminal connection pad is electrically connected to a conductive trace of the circuit board. In the example shown in the drawing, a total of ten board-side terminals 151 are arranged in a line along the width direction of the board connector 101 with a pitch of about 2.0 [mm]. The number, pitch, number of rows, etc. can be arbitrarily changed.

  Nail 181 is attached to the side wall portions 117 on both sides. The lower end of the nail 181 is fixed to a fixing pad formed on the surface of the circuit board by soldering or the like.

  A board-side lock part 135 as a second connector lock part is integrally formed on the first plate part 112 so as to be arranged at intervals in the width direction of the housing 111. As shown in the figure, the board side lock portion 135 has a shape that protrudes outward from a substantially flat outer surface 112a that is the upper surface of the first plate portion 112. The substrate-side lock portion 135 includes a substrate-side central lock portion 135b as a second central lock portion and a substrate as a pair of second end lock portions formed on the left and right sides of the substrate-side central lock portion 135b. Side end lock portion 135a. It is desirable that the left and right substrate side end lock portions 135a be separated from each other with a gap as wide as possible.

  In the example shown in the figure, there is a single substrate side central lock portion 135b formed between the pair of substrate side end lock portions 135a, but there are two or more substrate side central lock portions 135b. Also good. That is, the number of substrate side lock portions 135 is not limited as long as it is three or more. Here, for convenience of explanation, only the case where the number of board side lock parts 135 is three will be described.

  Further, it is desirable that a slide fitting portion 118 that slide-fits with the housing 11 of the electric wire connector 1 is formed at a portion corresponding to the board side lock portion 135 in the second plate portion 116. In the example shown in the figure, the slide fitting portion 118 is formed like a convex fitting key that protrudes upward from the inner surface of the second plate portion 116 and extends in the front-rear direction of the board connector 101. However, in this case, a concave keyway to be fitted to the slide fitting portion 118 is formed on the outer surface of the second plate portion (not shown) of the housing 11 of the wire connector 1. The slide fitting portion 118 is formed in a shape like a concave key groove that is recessed downward from the inner surface of the second plate portion 116 and extends in the front-rear direction of the board connector 101. Also good. In this case, on the outer surface of the second plate portion of the housing 11 of the wire connector 1, a convex fitting key that fits with the slide fitting portion 118 is formed.

  The slide fitting portion 118 may be formed in any portion of the second plate portion 116 as long as it is a portion corresponding to the substrate side lock portion 135. However, as in the example shown in the figure, A portion corresponding to the central lock portion 135b is desirable.

  Further, it is desirable that a polar concave portion 122 that slide-fits with the polar convex portion 22 of the housing 11 of the electric wire connector 1 is formed on an inner surface of the first plate portion 112. In the example shown in the figure, the polar concave portion 122 is a concave portion such as a concave key groove that is recessed upward from the inner surface of the first plate portion 112 and extends in the front-rear direction of the board connector 101. However, the number of the concave portions for polarity 122, the portions to be formed, and the like can be arbitrarily changed.

  The wire connector 1 is integrally formed of an insulating material such as a synthetic resin, and a housing 11 as a first housing that fits with the board connector 101, and a metal first terminal loaded in the housing 11 And a wire-side terminal (not shown).

  The housing 11 is a substantially rectangular parallelepiped box-shaped member extending in a direction perpendicular to the fitting direction with the board connector 101 and in the arrangement direction of the electric wires 91, that is, in the width direction of the electric wire connector 1. The housing 11 includes a substantially rectangular back plate portion 15, a first plate portion 12 as a side plate extending in a fitting direction from an upper end edge of the back plate portion 15, and a lower end edge of the back plate portion 15. A second plate portion (not shown) as the other side plate extending in the fitting direction from the first side plate and a pair of side wall portions 17 extending in the fitting direction from both side edges of the back plate portion 15 are included. The first plate portion 12 and the second plate portion face each other, and the pair of side wall portions 17 face each other.

  The housing 11 includes a plurality of terminal accommodating recesses 13 that are open at one end in the back plate portion 15 and extend in the front-rear direction of the wire connector 1. In each terminal accommodating recess 13, a wire-side terminal (not shown) connected and fixed to the front end of the electric wire 91 is accommodated and held. Each electric wire 91 extends from the opening of the terminal accommodating recess 13 to the rear of the housing 11. In the example shown in the figure, the electric wire side terminals and electric wires 91 have a total of 10 pitches of about 2.0 [mm] and are arranged in a line along the width direction of the electric wire connector 1. And the number of wires 91, pitch, the number of rows, etc. can be changed arbitrarily.

  The first plate portion 12 is integrally formed with a movable arm 31 as a locking arm portion. As shown in the figure, the movable arm 31 includes a substantially rectangular flat plate-shaped main body 31a, and is connected to the outside of a substantially flat outer surface 12a, which is the upper surface of the first plate portion 12, via a connecting portion 32. To position. When the housing 11 of the electric wire connector 1 and the housing 111 of the board connector 101 are fitted, the movable arm 31 covers at least a part of the outer surface 112a of the first plate portion 112 of the housing 111. The connecting portion 32 is an elastically deformable member connected between the front end and the rear end of the main body portion 31 a of the movable arm 31, whereby the movable arm 31 is connected to the connecting portion 32. The first plate portion 12 can be swung with the above-mentioned portion as a center.

  In addition, an electric wire side lock portion 35 as a first connector lock portion is integrally formed at the front end portion of the movable arm 31 so as to be arranged at intervals in the width direction of the housing 11. The wire side lock portion 35 includes a wire side center lock portion 35b as a first center lock portion and a pair of first ends formed on the left and right sides of the wire side center lock portion 35b, as will be described later. And an electric wire side end lock portion 35a as a portion lock portion.

  The electric wire side center lock portion 35b and the electric wire side end lock portion 35a are members that engage with the substrate side center lock portion 135b and the substrate side end lock portion 135a of the substrate side lock portion 135. The number corresponding to the substrate side center lock portion 135b and the substrate side end lock portion 135a is formed at a position corresponding to the portion 135b and the substrate side end lock portion 135a. That is, although the electric wire side center lock part 35b is single, the electric wire side center lock part 35b may be two or more. That is, any number of wire-side lock portions 35 may be used as long as there are three or more. Here, for convenience of explanation, only the case where the number of the wire side lock portions 35 is three will be described.

  In the example shown in the figure, the pair of electric wire side end lock portions 35 a are formed so as to protrude outward in the width direction from the left and right ends of the front end portion of the main body portion 31 a of the movable arm 31.

  In the present embodiment, the vicinity of the rear end of the main body 31a of the movable arm 31 is an operation unit 37 that is operated by an operator with his / her fingers and the like. The lock mechanism including the board side lock part 135 of the board connector 101 and the wire side lock part 35 of the electric wire connector 1 is a so-called positive lock, and when locking, the operator can set the board side lock part 135 as well as the electric wire side lock part. 35 does not need to be operated, however, when releasing the lock, the operator needs to operate the operation part 37 of the movable arm 31 with his / her fingers or the like to displace the electric wire side lock part 35. Specifically, when the operator depresses the operation portion 37, the movable arm 31 swings and the electric wire side lock portion 35 formed at the front end portion thereof rises, whereby the board side lock portion 135 and the electric wire side are raised. The engaged state with the lock part 35 is released, and the lock is released.

  Further, it is desirable that the outer surface 12a of the first plate portion 12 is formed with a polarity convex portion 22 that is slidably fitted to the polarity concave portion 122 of the housing 111 of the board connector 101 at an arbitrary position. In the example shown in the figure, the polarity convex portion 22 is protruded upward from the outer surface 12a of the first plate portion 12 and is like a convex fitting key extending in the front-rear direction of the wire connector 1. Although four convex portions are formed in total, two on the left and right sides, the number of the convex portions 22 for polarity, the portions to be formed, and the like can be arbitrarily changed.

  Next, the configuration of the wire side lock part 35 and the board side lock part 135 will be described in more detail.

  FIG. 5 is a top view of the main part showing the positional relationship between the wire-side lock portion of the wire connector and the board-side lock portion of the board connector in the embodiment, and FIG. 6 is the wire-side lock portion and the board connector of the wire connector in the embodiment. FIG. 7 is a perspective view showing the inner side of the movable arm of the wire connector in the embodiment. 5 and 6, (a) is a view showing a state before the wire connector and the board connector are fitted, and (b) is a view showing a state where the wire connector and the board connector are fitted, In FIG. 7, (a) is a diagram viewed from the front diagonally lower side, and (b) is a diagram viewed from the rear diagonally lower side.

  As shown in FIG. 7, the inner side of the main body portion 31 a of the movable arm 31, that is, the side facing the outer surface 12 a of the first plate portion 12 is recessed outward (upward) at the center portion in the width direction. A recessed portion 33 is formed. The concave portion 33 is not formed in the front end portion of the main body portion 31a, so that the inner side of the front end portion is inward (downward) from the concave portion 33, that is, the outer surface of the first plate portion 12. It becomes the electric wire side center lock | rock part 35b which protrudes relatively toward 12a.

  The depth of the recess 33 should be a dimension that can accommodate the board-side center lock part 135b in a state where the wire-side center lock part 35b and the board-side center lock part 135b of the board connector 101 are engaged. Although it can be set arbitrarily, it is desirable to set it so as not to penetrate the movable arm 31. Thereby, the main-body part 31a of the said movable arm 31 turns into a flat plate member in which opening is not formed, and can hold | maintain high intensity | strength compared with the member in which opening was formed.

  In the example shown in the figure, the inner surfaces of the electric wire side central lock portion 35b and the pair of electric wire side end lock portions 35a are substantially flat surfaces 35d. Moreover, the inclined surface 35c connected to the front end of the said flat surface 35d is formed in the front end of the electric wire side center locking part 35b and a pair of electric wire side edge part locking part 35a. Further, the rear end of the electric wire side center lock portion 35b and the pair of electric wire side end lock portions 35a are orthogonal to the flat surface 35d and extend outward (upward) and in the width direction. A locking surface 35e which is a flat surface is formed. In addition, it is desirable that the inclined surfaces 35c and the locking surfaces 35e of the electric wire side central lock portion 35b and the pair of electric wire side end lock portions 35a are flush with each other.

  As shown in FIG. 6, the outer surfaces of the substrate-side central lock portion 135b and the pair of substrate-side end lock portions 135a in the substrate-side lock portion 135 are substantially flat surfaces 135d. In addition, an inclined surface 135c connected to the front end of the flat surface 135d is formed at the front ends of the substrate side central lock portion 135b and the pair of substrate side end lock portions 135a. Further, the rear end of the substrate-side central lock portion 135b and the pair of substrate-side end lock portions 135a are orthogonal to the flat surface 135d and extend inward (downward) and in the width direction. A locking surface 135e, which is a flat surface, is formed. It is desirable that the inclined surfaces 135c and the locking surfaces 135e of the substrate side center lock portion 135b and the pair of substrate side end lock portions 135a are flush with each other.

  When the electric wire connector 1 and the board connector 101 are fitted and the electric wire side lock part 35 and the board side lock part 135 are in a locked state, that is, when the locking is completed, FIGS. 5B and 6B. As shown in FIG. 4, the electric wire side central lock portion 35b and the board side central lock portion 135b are engaged, and the electric wire side end lock portions 35a on both the left and right sides and the board side end lock portions 135a on the left and right sides are engaged. Match. Specifically, the engaging surface 35e of the electric wire side central lock portion 35b and the engaging surface 135e of the substrate side central lock portion 135b are opposed to each other, and the electric wire side central lock portion 35b and the substrate side central lock portion 135b are mutually connected. The locking surface 35e of the wire side end lock portion 35a on both the left and right sides and the locking surface 135e of the board side end lock portion 135a face each other so that the wire side end lock portion 35a and the board side end portion are opposed to each other. The lock part 135a is locked with each other.

  Next, an operation for fitting the wire connector 1 to the board connector 101 will be described.

  FIG. 8 is a first diagram showing a change in the positional relationship between the wire-side lock portion of the wire connector and the board-side lock portion of the board connector in the embodiment, and FIG. 9 shows the wire-side lock portion of the wire connector in the embodiment. FIG. 10 shows a change in the positional relationship between the board-side lock portion of the board connector and the board-side lock portion of the board connector in the embodiment. FIG. 3 and FIG. 11 are views showing the positional relationship when the wire connector in the embodiment is fitted to the board connector in a posture inclined in the width direction. 8 to 10, (a) is a top view, (b) is a side view, (c) is a side sectional view, and is a sectional view taken along line AA in (a). (A) is a top view, (b) is an enlarged top view of the main part.

  When starting the fitting operation for fitting the wire connector 1 to the board connector 101 mounted on the circuit board, the operator controls the posture of the wire connector 1 with fingers or the like, as shown in FIG. The front surface of the housing 11 of the wire connector 1 is positioned so as to face the front surface of the housing 111 of the board connector 101. Note that the posture of the electric wire connector 1 is controlled so that the first plate portion 12 in which the polarity convex portion 22 is formed faces the same direction as the first plate portion 112 in the substrate connector 101 in which the polarity concave portion 122 is formed. The

  That is, before the electric wire connector 1 is fitted to the board connector 101, the positional relationship between the electric wire side lock part 35 and the board side lock part 135 is as shown in FIG.

  Subsequently, the operator moves the wire connector 1 in parallel with the circuit board, and inserts the housing 11 of the wire connector 1 into the insertion recess 113 of the housing 111 of the board connector 101. When the tip of the housing 11 of the wire connector 1 begins to enter the insertion recess 113, the wire-side lock portion 35 of the wire connector 1 is connected to the board-side lock portion 135 of the board connector 101 as shown in FIG. It abuts on the board-side lock part 135. As a result, the vicinity of the front end of the movable arm 31 is raised, the connecting portion 32 is elastically deformed, and the movable arm 31 swings.

  In addition, since the inclined surface 35c is formed in the front end of the electric wire side lock part 35, and the inclined surface 135c is formed in the front end of the board | substrate side lock part 135, the electric wire side lock part 35 is accompanied with the progress of the electric wire connector 1. Can smoothly ride on the board-side lock part 135.

  Subsequently, when the operator further moves the wire connector 1 and inserts the housing 11 of the wire connector 1 into the insertion recess 113, the fitting between the wire connector 1 and the board connector 101 is completed. Each electric wire side terminal comes into contact with the corresponding board side terminal 151 and is conducted. When the fitting between the electric wire connector 1 and the board connector 101 is completed, as shown in FIG. 10, the electric wire side lock part 35 riding on the board side lock part 135 passes through the board side lock part 135. To do. Then, since the connecting portion 32 is elastically restored, the vicinity of the front end of the movable arm 31 is lowered, and the electric wire side lock portion 35 falls and engages with the board side lock portion 135.

  In this case, specifically, the engaging surface 35e of the electric wire side central lock portion 35b and the engaging surface 135e of the substrate side central lock portion 135b face each other so that the electric wire side central lock portion 35b and the substrate side central lock portion 135b are opposed to each other. Are engaged with each other, and the engaging surface 35e of the electric wire side end lock portion 35a and the engaging surface 135e of the substrate side end lock portion 135a face each other so that the electric wire side end lock portion 35a and the substrate The side end lock portions 135a are locked with each other. Therefore, the electric wire side lock part 35 and the board | substrate side lock part 135 will be in the state locked reliably, and the fitting with the electric wire connector 1 and the board | substrate connector 101 is not cancelled | released unnecessarily.

  When it is necessary to release the wire connector 1 from the board connector 101 after releasing the fitting, when the operator depresses the operation unit 37 with a finger or the like, the movable arm 31 swings and is formed at the front end portion thereof. The electric wire side lock part 35 goes up. Thereby, since the engagement state of the board | substrate side lock | rock part 135 and the electric wire side lock | rock part 35 is cancelled | released and a lock | rock is cancelled | released, an operator moves to the direction opposite to the time of fitting the electric wire connector 1. The electric wire connector 1 can be detached from the board connector 101.

  By the way, in the fitting operation for fitting the wire connector 1 to the board connector 101, the housing 11 of the wire connector 1 is mistakenly inserted into the insertion recess 113 of the housing 111 of the board connector 101 in a posture inclined in the width direction. It can happen.

  In the example shown in FIG. 11, the housing 11 of the electric wire connector 1 has an insertion recess 113 of the housing 111 in a posture in which the center line in the width direction is inclined with respect to the center line in the width direction of the housing 111 of the board connector 101. Has been inserted inside. In this example, the vicinity of the left end of the housing 11 of the electric wire connector 1 is inserted deeply into the insertion recess 113, whereas the vicinity of the right end of the housing 11 is inserted only shallowly into the insertion recess 113. Therefore, even if the electric wire side terminal located near the left end of the housing 11 is in contact with the corresponding board side terminal 151, the electric wire side terminal located near the right end of the housing 11 is in contact with the corresponding board side terminal 151. It may not be.

  In this case, as clearly shown in FIG. 11 (b), the left-side wire side end lock portion 35a passes over the corresponding board-side end lock portion 135a, whereas the wire side The central lock portion 35b and the right-side wire-side end lock portion 35a are located on the corresponding substrate-side central lock portion 135b and substrate-side end lock portion 135a. Therefore, the vicinity of the front end of the movable arm 31 does not descend. As a result, the board-side center lock part 135b and the board-side end lock part corresponding to the wire-side center lock part 35b and the right-side wire-side end lock part 35a correspond to each other. In addition to not being engaged with 135a, the left-side wire-side end lock portion 35a is not engaged with the corresponding substrate-side end lock portion 135a. As a result, the click sound produced by the engagement of the wire side lock part 35 and the board side lock part 135 and the click feeling that would be transmitted to the operator's fingers or the like have not yet occurred.

  Therefore, as shown in FIG. 11, when the housing 11 of the electric wire connector 1 is inserted into the insertion recess 113 of the housing 111 of the board connector 101 in a posture inclined in the width direction, the operator assumes that the locking is completed. There is no misunderstanding. Moreover, since it is possible to visually confirm that the right-side wire-side end lock portion 35a does not pass over the corresponding board-side end lock portion 135a, the operator visually confirms that the lock has not been completed. Can also be confirmed.

  In the example shown in FIG. 11, assuming that the electric wire side central lock portion 35b and the substrate side central lock portion 135b do not exist, the right electric wire side end lock portion 35a corresponds to the corresponding substrate side. Even if it is located on the end lock portion 135a, the left end electric wire side end lock portion 35a passes over the corresponding board side end lock portion 135a, so that the movable arm 31 is twisted. Thus, it is possible to imagine a state in which only the left end in the vicinity of the front end is lowered and only the wire end lock portion 35a at the left end is engaged with the corresponding board side end lock portion 135a.

  However, in the present embodiment, the electric wire side central lock portion 35 b exists at the center portion in the width direction of the movable arm 31, and the substrate side is located at the center portion in the width direction of the first plate portion 112 in the housing 111 of the substrate connector 101. Since the central lock portion 135b exists, the central portion in the width direction of the movable arm 31 is supported by the substrate-side central lock portion 135b from below, and only the left-side wire-side end lock portion 35a corresponds to the corresponding substrate side end. Even if it passes over the part lock part 135a, the movable arm 31 is not twisted, and only the left end in the vicinity of the front end thereof is not lowered. Therefore, it is possible to reliably prevent the occurrence of a state in which only the left-side wire-side end lock portion 35a is engaged with the corresponding board-side end lock portion 135a.

  As described above, in the present embodiment, the connector includes the housing 11, the electric wire connector 1 including the electric wire side terminal (not shown) loaded in the housing 11, the housing 111 that fits the housing 11 of the electric wire connector 1, and A board connector 101 including a board side terminal 151 that is loaded in the housing 111 and contacts the electric wire side terminal. 1 to 4 and the like, the housing 111 of the board connector 101 includes a first plate part 112 extending in the fitting direction and a board side lock part protruding from the outer surface 112a of the first plate part 112. 135, and includes at least three board-side lock portions 135 formed so as to be arranged at intervals in the width direction of the housing 111. The housing 11 of the electric wire connector 1 includes a first plate portion 12 extending in the fitting direction and a movable arm 31 formed on the first plate portion 12, and includes the housing 11 of the electric wire connector 1 and the board connector 101. The movable arm 31 is formed so that the movable arm 31 covers at least a part of the outer surface 112a of the first plate portion 112 of the housing 111 and is arranged in the width direction of the housing 11 with an interval. At least three electric wire side lock portions 35, and when the housing 11 of the electric wire connector 1 and the housing 111 of the board connector 101 are fitted, at least three electric wire side lock portions 35 that engage with each of the board side lock portions 135; Is included.

  Accordingly, as shown in FIG. 11, when the housing 11 of the electric wire connector 1 is inclined in the width direction with respect to the housing 111 of the board connector 101, any electric wire side lock portion 35 corresponds. There is no engagement with the board side lock part 135, and the electric wire side lock part 35 and the board side lock part 135 are not locked to each other. Therefore, the operator does not mistake the lock completion.

  Moreover, at least three electric wire side lock portions 35 formed so as to be arranged at intervals in the width direction of the housing 11, and at least three substrate side locks formed so as to be arranged at intervals in the width direction of the housing 111. Since the portion 135 is engaged, as shown in FIGS. 1, 3, 5, etc., when the housing 11 of the wire connector 1 and the housing 111 of the board connector 101 are fitted in a normal posture and locking is completed Is an external force in a direction to release the fitting between the housing 11 of the wire connector 1 and the housing 111 of the board connector 101, and the housing 11 of the wire connector 1 is inclined in the width direction with respect to the housing 111 of the board connector 101. Even when such an external force is applied, the engagement between the wire side lock part 35 and the board side lock part 135 is released. No. Therefore, the fitting between the housing 11 of the wire connector 1 and the housing 111 of the board connector 101 is not released, and the wire connector 1 is not detached from the board connector 101.

  Further, as shown in FIGS. 6 to 8 and the like, all of the substrate side lock portions 135 are connected to the flat surface 135d, the inclined surface 135c connected to the front end of the flat surface 135d, and the rear end of the flat surface 135d. The locking surface 135e has a similar side shape, is formed at the same position in the fitting direction, and both of the electric wire side lock portions 35 are connected to the flat surface 35d and the front end of the flat surface 35d. The inclined surface 35c and the locking surface 35e connected to the rear end of the flat surface 35d have the same side shape and are formed at the same position with respect to the fitting direction.

  Therefore, when the housing 11 of the electric wire connector 1 is advanced in the fitting direction with respect to the housing 111 of the board connector 101, the electric wire side lock part 35 does not receive a large resistance from the board side lock part 135, and all electric wires The side lock portion 35 and the substrate side lock portion 135 are smoothly engaged. Further, even when an external force in a direction to release the fitting between the housing 11 of the wire connector 1 and the housing 111 of the board connector 101 is applied, the engagement between the wire side lock part 35 and the board side lock part 135 is released. There is nothing. Therefore, the fitting between the housing 11 of the electric wire connector 1 and the housing 111 of the board connector 101 is not released, and the electric wire connector 1 is not detached from the board connector 101.

  Further, as shown in FIGS. 1 to 8 and the like, the board-side lock part 135 includes at least one board-side central lock part 135b and a pair of board-side end lock parts 135a formed at both ends. The side lock portion 35 includes at least one electric wire side central lock portion 35b and a pair of electric wire side end lock portions 35a formed at both ends.

  Therefore, since the space | interval of the board | substrate side edge part lock parts 135a formed in both ends and the space | interval of the electric wire side edge part lock | rock part 35a are wide, the housing 11 of the wire connector 1 and the housing 111 of the board | substrate connector 101 are regular. When the locking is completed by fitting in the above posture, the external force is in a direction to release the fitting between the housing 11 of the wire connector 1 and the housing 111 of the board connector 101, and the housing 11 of the wire connector 1 is placed on the board. Even when an external force that inclines in the width direction is applied to the housing 111 of the connector 101, the engagement between the electric wire side end lock portion 35a and the board side end lock portion 135a is released. There is no. Therefore, the fitting between the housing 11 of the electric wire connector 1 and the housing 111 of the board connector 101 is not released, and the electric wire connector 1 is not detached from the board connector 101.

  Further, as shown in FIG. 7 and the like, the movable arm 31 includes a flat plate-like main body portion 31a without opening, and the electric wire side end lock portion 35a protrudes from both left and right ends of the front end portion of the main body portion 31a. The side center lock portion 35b is an inner surface of the main body portion 31a, and when the housing 11 of the wire connector 1 and the housing 111 of the board connector 101 are fitted, at least one of the outer surfaces 112a of the first plate portion 112 of the housing 111. It is formed on the surface facing the part.

  Thus, since the main body portion 31a is a flat plate member having no opening, the strength of the movable arm 31 is high and does not deform. Accordingly, the movable arm 31 is twisted, and only the left or right electric wire side end lock portion 35a of the front end portion of the main body portion 31a is lowered and engaged with the board side end lock portion 135a. There is nothing. Further, even when an external force in a direction to release the fitting between the housing 11 of the wire connector 1 and the housing 111 of the board connector 101 is applied, the engagement between the wire side lock part 35 and the board side lock part 135 is released. There is nothing. Therefore, the fitting between the housing 11 of the electric wire connector 1 and the housing 111 of the board connector 101 is not released, and the electric wire connector 1 is not detached from the board connector 101.

  Further, as shown in FIGS. 1, 4 and the like, when the housing 11 of the wire connector 1 and the housing 111 of the board connector 101 are fitted, the wire side end lock part 35a and the board side end lock part 135a are: The wire-side central lock portion 35b and the board-side central lock portion 135b are engaged in an invisible state when viewed from the outside of the movable arm 31. To do.

  Thus, since the engagement state of the electric wire side end lock part 35a and the board side end lock part 135a is visible from the outside of the movable arm 31, the operator has completed the lock. It can be confirmed visually. Therefore, the operator does not mistake the lock completion.

  Further, the housing 111 of the board connector 101 includes a second plate part 116 facing the first plate part 112 and a slide fitting part 118 formed at a portion corresponding to the board side lock part 135 in the second plate part 116. And the housing 11 of the electric wire connector 1 includes a concave key groove or a convex to be fitted with the slide fitting part 118. Includes strip mating key.

  Thus, when the housing 11 of the wire connector 1 is fitted to the housing 111 of the board connector 101, the housing 11 of the wire connector 1 is inclined in the width direction with respect to the housing 111 of the board connector 101. Can be prevented.

  It should be noted that the disclosure of the present specification describes features related to preferred and exemplary embodiments. Various other embodiments, modifications and variations within the scope and spirit of the claims attached hereto can naturally be conceived by those skilled in the art by reviewing the disclosure of this specification. is there.

  The present disclosure can be applied to a connector.

DESCRIPTION OF SYMBOLS 1 Electric wire connector 11, 111, 811, 911 Housing 12, 112 1st board part 12a, 112a Outer surface 13 Terminal accommodating recessed part 15, 115 Back board part 17, 117 Side wall part 22 Polarity convex part 31 Movable arm 31a Main-body part 32 Connection Portions 33, 913 Recess 35 Electric wire side lock portion 35a Electric wire side end lock portion 35b Electric wire side center lock portion 35c, 135c Inclined surface 35d, 135d Flat surface 35e, 135e Locking surface 37 Operation portion 91, 891 Electric wire 101 Board connector 113 Insertion recess 116 Second plate portion 118 Slide fitting portion 122 Polarity recess 135 Substrate side lock portion 135a Substrate side end lock portion 135b Substrate side center lock portion 151 Substrate side terminal 152 Solder tail portion 181 Nail 831 Arm 835 Hook portion 837 Upper part 935 Protrusion 951 Terminal 991 Board

Claims (5)

(A) a first connector including a first housing and a first terminal loaded in the first housing;
(B) a connector comprising: a second housing that fits into the first housing; and a second connector that is loaded in the second housing and includes a second terminal that contacts the first terminal,
(C) The second housing includes a side plate extending in the fitting direction and a second connector lock portion protruding from an outer surface of the side plate, and is arranged with a gap in the width direction of the second housing. Including at least three second connector lock portions formed, the second connector lock portion including at least one second central lock portion and a pair of second end lock portions formed at both ends,
(D) The first housing is a side plate extending in the fitting direction, and a locking arm formed on the side plate. When the first housing and the second housing are fitted, the second housing A locking arm portion that covers at least a part of the outer surface of the side plate, and at least three first connector locking portions formed on the locking arm portion so as to be arranged at intervals in the width direction of the first housing. When the first housing and the second housing are fitted, the first connector lock portion engages with each of the second connector lock portions, and the first connector lock portion includes at least one first connector lock portion. A first central locking portion and a pair of first end locking portions formed at both ends, and the locking arm includes a flat plate-shaped main body, and the first central locking portion and the first end portion The lock part Respectively, the connector characterized by having a locking surface facing the second central locking portion and a second end lock portion. The connector according to claim 1, wherein the first end lock portion is formed on an end edge of the main body portion. Each of the second connector lock portions has a similar side shape, and is formed at the same position with respect to the fitting direction,
2. The connector according to claim 1, wherein each of the first connector lock portions has a similar side shape and is formed at the same position in the fitting direction. The second housing is a slide fitting portion formed on the other side plate facing the side plate and a portion of the other side plate corresponding to the second connector lock portion, and a convex fitting key or Including a slide fitting portion that is a keyway of a concave stripe,
The connector according to any one of claims 1 to 3, wherein the first housing includes a concave key groove or a convex fitting key to be fitted to the slide fitting portion. The first connector is a wire connector in which the first terminal is connected to an electric wire, and the second connector is a substrate connector in which the second terminal is connected to a substrate. Connector according to item.

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