JP6275603B2 - connector - Google Patents

Description

  The present invention relates to a connector.

  Conventional connectors have various sizes and terminal arrangements according to various requirements such as use and usage environment (for example, Patent Document 1).

JP 2008-176949 A

  However, once a specific type of connector has been manufactured, if it is desired to change the terminal arrangement of the connector front end, even if the shape and size of this connector are the same, it is necessary to modify the die or change the piece. Become.

  This invention is made | formed in view of the above, Comprising: It aims at providing the connector which can change a terminal arrangement | sequence easily.

In order to solve the above-described problems, a connector according to the present invention includes a housing having a hollow portion, an insulating member, and one or a plurality of terminals that are integrally connected to the insulating member, from a predetermined insertion direction. By being inserted into the hollow portion, the insulating members adjacent to each other along the stacking direction orthogonal to the insertion direction are stacked and in contact with each other, and the housing is placed at a predetermined position of the hollow portion. When the plurality of terminal blocks fitted to the body and each of the plurality of terminal blocks are in normal positions in the stacking direction corresponding to the terminal blocks, all of the plurality of terminal blocks are placed in the predetermined position of the hollow portion. And at least a part of the plurality of terminal blocks when at least a part of the plurality of terminal blocks is not at the normal position in the stacking direction corresponding to each of the terminal blocks. And a fitting regulating portion to the housing and the fitting impossible at the predetermined position of the hollow portion, each of the insulating member of the plurality of the terminal block, a width orthogonal to the insertion direction and the stacking direction Extending along the direction, and having an abutting surface that abuts against other insulating members adjacent to each other when fitted to the housing, and the fitting restricting portion includes In a pair of contact surfaces that contact when a plurality of terminal blocks are fitted to the housing, a groove portion provided across the insertion direction of one contact surface, and the groove portion on the other contact surface has a streak portion which is provided to be fitted, the position of the width direction of the groove and the muscle portion, varies depending on the normal position of the terminal block to which the groove portion and the muscle portion is provided, wherein Each of the insulating members of the plurality of terminal blocks includes the insertion direction and the stacking direction. Extending along the intersecting width direction, provided at both ends of the width direction, and having a side surface disposed opposite to the inner peripheral surface of the hollow portion when fitted to the housing, Provided on the side surface and the portion of the inner peripheral surface of the hollow portion that comes into contact with the side surface when the terminal block is fitted into the housing, and the terminal block is located at the predetermined position of the hollow portion. And a locking mechanism for locking the terminal block to the inner peripheral surface of the hollow portion when the terminal block is inserted .

  Further, in the above connector, each of the insulating members of the plurality of terminal blocks is formed to extend along a width direction orthogonal to the insertion direction and the stacking direction, and is fitted into the housing. A contact surface that contacts the other insulating members adjacent to each other, and the fitting restricting portion is a pair of contacts that contact when the plurality of terminal blocks are fitted to the housing. In the contact surface, it has a groove part provided over the said insertion direction of one contact surface, and the stripe part provided in the other contact surface so that a fitting with the said groove part is possible, The said groove part and the said stripe part It is preferable that the position in the width direction differs depending on the regular position of the terminal block in which the groove and the stripe are provided.

  In the connector, it is preferable that one end of the terminal is bent in a direction orthogonal to the insertion direction and connected to the substrate.

  In the connector according to the present invention, if the terminal block is appropriately replaced, the terminal arrangement can be arbitrarily changed for each stage along the stacking direction, so that the terminal arrangement can be easily changed. Play.

FIG. 1 is a perspective view showing a schematic configuration of a PCB connector as an example of a connector according to an embodiment of the present invention. FIG. 2 is a perspective view when the PCB connector shown in FIG. 1 is viewed from another direction, and is a perspective view showing a fifth stage of the assembly procedure of the PCB connector of this embodiment. It is a perspective view which shows the state which fitted the block. FIG. 3 is a front view of the PCB connector shown in FIG. FIG. 4 is an exploded perspective view of the PCB connector shown in FIG. FIG. 5 is a perspective view showing a schematic configuration of the terminal block in FIG. FIG. 6 is a schematic diagram showing a fitting relationship between the terminal blocks. FIG. 7 is a perspective view showing a first stage of the assembly procedure of the PCB connector of the present embodiment, and is a perspective view showing a state in which the first terminal block is fitted to the connector housing. 8 is a sectional view taken along line VIII-VIII in FIG. FIG. 9 is a perspective view showing a second stage of the assembly procedure of the PCB connector of the present embodiment, and is a perspective view showing a state in which the second terminal block is fitted to the connector housing. FIG. 10 is a perspective view showing a third stage of the assembly procedure of the PCB connector of the present embodiment, and is a perspective view showing a state in which the third terminal block is fitted to the connector housing. FIG. 11 is a perspective view showing a fourth stage of the assembly procedure of the PCB connector of the present embodiment, and is a perspective view showing a state where the fourth terminal block is fitted to the connector housing. FIG. 12 is a front view showing an example of a configuration in which a part of the plurality of terminal blocks is replaced with another terminal block in the PCB connector according to the present embodiment. FIG. 13 is a front view showing an example of a configuration in which part of a plurality of terminal blocks is replaced with another terminal block in the PCB connector according to the present embodiment. FIG. 14 is a schematic diagram illustrating a fitting relationship between terminal blocks in a first modification of the embodiment, and is a perspective view of an insulating member of each terminal block as viewed obliquely from above. FIG. 15 is a schematic diagram illustrating a fitting relationship between the terminal blocks in the first modification of the embodiment, and is a perspective view of an insulating member of each terminal block as viewed obliquely from below. FIG. 16 is a schematic diagram illustrating a fitting relationship between the terminal block and the inner peripheral surface of the hollow portion of the connector housing in the second modification of the embodiment.

  Embodiments of a connector according to the present invention will be described below with reference to the drawings. In the following drawings, the same or corresponding parts are denoted by the same reference numerals, and the description thereof will not be repeated.

[Embodiment]
First, with reference to FIGS. 1-6, the structure of the connector which concerns on one Embodiment of this invention is demonstrated. FIG. 1 is a perspective view showing a schematic configuration of a PCB connector as an example of a connector according to an embodiment of the present invention. FIG. 2 is a perspective view when the PCB connector shown in FIG. 1 is viewed from another direction. FIG. 3 is a front view of the PCB connector shown in FIG. FIG. 4 is an exploded perspective view of the PCB connector shown in FIG. FIG. 5 is a perspective view showing a schematic configuration of the terminal block in FIG. FIG. 6 is a schematic diagram showing a fitting relationship between the terminal blocks.

  The connector according to the present embodiment is configured by accommodating a terminal inside the housing, and conductively connects the terminal to the mating terminal. A so-called connection mechanism for wire-to-wire connection or wire-to-board connection is used. It constitutes a connection mechanism. In the present embodiment, as an example of such a connector, a PCB connector 1 which is one of wire-to-board connection mechanisms will be described. As shown in FIGS. 1 and 2, the PCB connector 1 is configured by connecting a plurality of terminals 12 </ b> A to 12 </ b> E supported by a connector housing 2 (housing) to a printed circuit board (PCB) 101. . The PCB connector 1 is mated with a mating mating connector (only the connector housing 102 is shown in FIG. 1), and the internal terminal is electrically connected to a terminal (not shown) accommodated in the mating connector. The PCB 101 connected to the terminals 12A to 12E can be electrically connected to the electric wire connected to the terminal of the mating connector.

  In the following description, the direction in which the main body portions 121A to 121E of the terminals 12A to 12E shown in FIG. 1 extend is referred to as an “extending direction”, and the main body portions 121A to 121E of the terminals 12A to 12E among the extending directions. The side on which the distal end portion is arranged is referred to as “tip side”, and the side on which the connection portions 122A to 122E of the terminals 12A to 12E are arranged is referred to as “base end side”. Further, the direction is perpendicular to the extending direction and the connecting portions 122A to 122E of the terminals 12A to 12E shown in FIG. 1 extend, and the terminal blocks 10A to 10E described later are stacked (also FIG. 3). (Referred to as “stacking direction”), the side on which the printed circuit board 101 to which the connecting portions 122A to 122E of the terminals 12A to 12E are connected is arranged is referred to as “lower side”, and the opposite side is referred to as “upper side”. . In addition, a direction in which the terminals 12A to 12E of each of the terminal blocks 10A to 10E are arranged side by side is referred to as a “width direction”. The “extending direction” may be referred to as a “fitting direction” or an “insertion direction”.

  As illustrated in FIGS. 1 to 4, the PCB connector 1 includes a connector housing 2 and a plurality of terminal blocks 10A to 10E.

  The entire connector housing 2 is made of an insulating synthetic resin material or the like. The connector housing 2 has a hood portion 3 formed in a substantially rectangular cylindrical shape. The hood part 3 has a hollow part 4 formed along the axial direction of the cylindrical shape inside, and both ends in the axial direction of the hollow part 4 are opened as shown in FIGS. Here, the axial direction of the rectangular cylindrical shape of the hood portion 3 is the same direction as the “extending direction” shown in FIG. 1.

  As shown in FIG. 4, on the inner peripheral surface of the hollow portion 4, a partition portion 7 that partitions the hollow portion 4 into a contact-side space portion 5 and a connection-side space portion 6 is provided in an intermediate portion in the axial direction. Yes. The contact-side space portion 5 is a space portion that communicates with one opening (opening on the front end side in the extending direction) of the hood portion 3 and is a counterpart terminal (female terminal) that is electrically connected to the terminals 12A to 12E. ) To hold the connector housing (female housing) 102 of the mating connector (female connector). The connection side space portion 6 is a space portion communicating with the other opening (opening on the base end side in the extending direction) of the hood portion 3, and is a space on the side where the printed circuit board 101 connected to the terminals 12A to 12E is located. Part.

  In the connector housing 2, the partition portion 7 is provided close to the opening side of the connection side space portion 6. Accordingly, the connector housing 2 has a relatively long (depth) distance from the opening in the contact-side space 5 to the partition 7, and a distance from the opening in the connection-side space 6 to the partition 7. (Depth) is formed to be relatively short (shallow). Holding protrusions 8A to 8E (locking mechanisms) for holding the terminal blocks 10A to 10E are provided on the inner peripheral surface of the partition portion 7.

  The plurality of terminal blocks 10A to 10E are members configured by integrally connecting the plurality of terminals 12A to 12E. The terminal blocks 10A to 10E have insulating members 11A to 11E formed of resin or the like, and a plurality of terminals 12A to 12E that are integrally connected to the insulating members 11A to 11E. In addition, the several terminal connected with each insulation member is put together, and is shown with a single code | symbol. That is, for example, a plurality of terminals integrally connected to the insulating member 11A are collectively represented by reference numeral 12A, and a plurality of terminals integrally connected to the insulating member 11E are represented by reference numeral 12E.

  The plurality of terminal blocks 10 </ b> A to 10 </ b> E are inserted into the hollow part 4 from the insertion direction so that the insulating members 11 </ b> A to 11 </ b> E adjacent in the stacking direction are stacked and in contact with each other. The connector housing 2 is fitted at a predetermined position of the four partition portions 7. The plurality of terminal blocks 10 </ b> A to 10 </ b> E are engaged with the connector housing 2 by locking both ends in the width direction of the insulating members 11 </ b> A to 11 </ b> E to locking portions 8 </ b> A to 8 </ b> E provided at predetermined positions of the partition portion 7. As shown in FIG. 3, the space inside the partition portion 7 of the hollow portion 4 is closed to form a partition that partitions the hollow portion 4 into the contact side space portion 5 and the connection side space portion 6.

  The insulating members 11A to 11E are substantially prismatic members formed extending in the width direction, and are provided with upper surfaces 15A to 15E and lower surfaces 16A to 16E that face the upper side and the lower side in the stacking direction. And front surfaces 17A to 17E and rear surfaces 18A to 18E that are provided opposite to each other in the extending direction at the front end side and the base end side, and provided at both ends in the width direction, and upper surfaces 15A to 15E, lower surfaces 16A to 16E, It has a pair of side surfaces 19A to 19E orthogonal to the front surfaces 17A to 17E and the back surfaces 18A to 18E.

  When the insulating members 11A to 11E are fitted into the connector housing 2, the upper surfaces 15A to 15E and the lower surfaces 16A to 16E are brought into contact with the lower surfaces 16A to 16E and the upper surfaces 15A to 15E of other adjacent insulating members. They are stacked in the stacking direction. That is, the upper surfaces 15 </ b> A to 15 </ b> E and the lower surfaces 16 </ b> A to 16 </ b> E serve as contact surfaces that face each other and contact other insulating members when the insulating members 11 </ b> A to 11 </ b> E are fitted to the connector housing 2. In addition, when the insulating members 11 </ b> A to 11 </ b> E are fitted into the connector housing 2, the side surfaces 19 </ b> A to 19 </ b> E at both ends in the width direction are arranged to face the inner peripheral surface of the hollow portion 4.

  The insulating members 11A to 11E have a plurality of terminals 12A to 12E arranged in parallel along the width direction. The insulating members 11A to 11E are provided with a plurality of press-fit holes along the extending direction. The press-fitting holes are formed so as to penetrate between the front surfaces 17A to 17E and the rear surfaces 18A to 18E. And each of the main-body parts 121A-121E of the plurality of terminals 12A-12E is press-fitted into the plurality of press-fitting holes and supported along the extending direction.

  Here, the plurality of terminals 12A to 12E installed on each of the insulating members 11A to 11E are formed with a predetermined pitch and a predetermined number according to specifications and usage conditions required for a device to which the PCB connector 1 is applied. Is done. In addition, the plurality of terminals 12A to 12E can individually set the pitch and the number of installed terminals for each of the terminal blocks 10A to 10E installed. In the present embodiment, the terminals 12A to 12E set in the insulating members 11A to 11E of the terminal blocks 10A to 10E have the same pitch and the same number of installations, and as shown in FIG. Arranged in a row. Since the insulating members 11A to 11E have five stages in the stacking direction, a total of 55 terminals 12A to 12E are installed in the terminal blocks 10A to 10E.

  Locking projections 20A to 20E and abutting portions 21A to 21E are provided on the side surfaces 19A to 19E at both ends in the width direction of the respective insulating members 11A to 11E so as to protrude outward in the width direction. In the same side surfaces 19A to 19E, the locking projections 20A to 20E and the butting portions 21A to 21E are arranged in parallel along the extending direction with a predetermined interval. The predetermined interval is formed with a width that allows the holding protrusions 8A to 8E of the connector housing 2 to be fitted. The locking protrusions 20 </ b> A to 20 </ b> E are formed with inclined surfaces that are inclined toward the center side in the width direction as proceeding to the distal end side in the extending direction, and the insulating members 11 </ b> A to 11 </ b> E are formed in the hollow portion 4 of the connector housing 2. At the time of insertion, the holding projections 8A to 8E can be overcome by further advancing in the insertion direction while being in contact with the holding projections 8A to 8E on the partition portion 7 by this inclined surface. The abutting portions 21A to 21E abut against the holding projections 8A to 8E on the partition portion 7 when the insulating members 11A to 11E are inserted into the hollow portion 4 of the connector housing 2, and the hollow portions of the insulating members 11A to 11E. It is comprised so that the further insertion to 4 can be controlled.

  The insulating members 11A to 11E are inserted into the hollow portion 4 of the connector housing 2, and the holding projections 8A to 8E on the partition portion 7 are formed between the locking projections 20A to 20E of the insulating members 11A to 11E and the abutting portions 21A to 21E. By being locked in the gap, the terminal blocks 10A to 10E are fitted into the connector housing 2 (see FIG. 8). That is, the locking projections 20A to 20E and the abutting portions 21A to 21E provided on the side surfaces 19A to 19E of the insulating members 11A to 11E, and the partition portion 7 of the connector housing 2 (that is, the terminal blocks 10A to 10E are fitted into the connector housing 2). The holding projections 8A to 8E provided on the inner peripheral surface of the hollow portion 4 that abuts the side surfaces 19A to 19E at the time of joining are inserted into the predetermined positions of the hollow portion 4 with the terminal blocks 10A to 10E. Sometimes it functions as a locking mechanism for locking the terminal blocks 10A to 10E to the inner peripheral surface of the hollow portion 4. Further, the holding protrusions 8A to 8E are locked in the gaps between the locking protrusions 20A to 20E and the abutting portions 21A to 21E, whereby the terminal blocks 10A to 10E are positioned with respect to the connector housing 2, and the terminal blocks 10A to 10E are positioned. The position in the insertion direction of 10E is defined.

  The terminals 12A to 12E are entirely composed of a conductive metal material or the like, and the surface is subjected to conductive plating or the like. The terminals 12A to 12E are wire terminals made of a rectangular wire formed in a rod shape. Each terminal 12A-12E is formed in the rectangular column shape corresponding to the shape of each press-fit hole provided in insulating member 11A-11E. That is, each of the terminals 12A to 12E has a rectangular cross-sectional shape in a direction orthogonal to the extending direction.

  Each of the terminals 12A to 12E has main body parts 121A to 121E and connection parts 122A to 122E formed by bending at right angles from the main body parts 121A to 121E. The main body portions 121A to 121E are portions that are press-fitted and locked in the press-fitting holes of the insulating members 11A to 11E, and are arranged along the extending direction so that the front ends thereof are the front end side in the extending direction. The portions of the main body portions 121A to 121E that protrude from the front surfaces 17A to 17E of the insulating members 11A to 11E toward the front end side in the extending direction are the contact side space portions when the insulating members 11A to 11E are fitted to the connector housing 2. 5, the contact part which contacts the other party terminal at the time of connector fitting is comprised in the edge part side. On the other hand, portions of the main body portions 121A to 121E that protrude from the rear surfaces 18A to 18E of the insulating members 11A to 11E toward the proximal direction in the extending direction protrude outward from the connection side space portion 6 and bend downward in the stacking direction. It becomes connection part 122A-122E. The connecting portions 122A to 122E are arranged along the stacking direction so that the end portions are on the lower side in the stacking direction. The connection parts 122A to 122E are connected to the printed circuit board 101 on the end side and are electrically connected.

  As shown in FIG. 5, the terminals 12A to 12E indicate the extension direction positions of the end portions of the main body portions 121A to 121E and the stacking direction positions of the end portions of the connection portions 122A to 122E. All are configured to be the same regardless of the terminal blocks 10A to 10E installed. On the other hand, each terminal 12A-12E is comprised so that the bending position of the connection parts 122A-122E with respect to the main-body parts 121A-121E may differ with terminal blocks 10A-10E in which each terminal 12A-12E is installed. As the terminal blocks 10A to 10E are arranged on the lower side in the stacking direction, the bending position is formed on the front side in the extending direction. Moreover, it is comprised so that the space | interval of the terminals set to an adjacent terminal block may become fixed in the state in which terminal block 10A-10E was mutually assembled | attached. That is, as shown in FIG. 4, the longitudinal dimensions of the main body portions 121A to 121E projecting from the insulating members 11A to 11E toward the proximal direction in the extending direction and the longitudinal dimensions of the connecting portions 122A to 122E are at the bottom in the stacking direction. The terminal block 10A to be arranged is the shortest, and the number increases stepwise as it goes upward in the stacking direction, and the terminal block 10E to be arranged at the uppermost part in the stacking direction becomes the longest.

  As described above, since the terminal dimensions of the plurality of terminal blocks 10A to 10E differ depending on the number of stages in the stacking direction, the normal positions in the stacking direction corresponding to the terminal blocks 10A to 10E are determined. The normal position of the terminal block 10A in the stacking direction is a position where the holding protrusion 8A that is the lowermost part in the stacking direction is provided. The normal position in the stacking direction of the terminal block 10B is the position where the second holding projection 8B is provided from the bottom in the stacking direction. The normal position of the terminal block 10C in the stacking direction is the position where the third holding projection 8C from the bottom in the stacking direction is provided. The normal position in the stacking direction of the terminal block 10D is a position where the fourth holding projection 8D from the bottom in the stacking direction is provided. The normal position in the stacking direction of the terminal block 10E is the position where the fifth holding projection 8E from the bottom in the stacking direction is provided.

  The plurality of terminal blocks 10A to 10E include a pair of adjacent contact surfaces when the terminal blocks 10A to 10E are fitted to the connector housing 2, that is, an upper surface of one insulating member of the pair of adjacent insulating members, Grooves 14B, 14C, 14D, and 14E and stripes 13A, 13B, 13C, and 13D are provided on the lower surface of the other insulating member so as to be fitted to each other. Specifically, the lower surface 16E of the insulating member 11E has a groove portion 14E, and the upper surface 15D of the insulating member 11D in contact with the lower surface 16E has a streak portion 13D provided so as to be fitted to the groove portion 14E. Similarly, the lower surface 16D of the insulating member 11D has a groove portion 14D, and the upper surface 15C of the insulating member 11C that comes into contact with the lower surface 16D has a streak portion 13C that can be fitted to the groove portion 14D. Similarly, the lower surface 16C of the insulating member 11C has a groove portion 14C, and the upper surface 15B of the insulating member 11B that comes into contact with the lower surface 16C has a streak portion 13B that can be fitted to the groove portion 14C. Similarly, the lower surface 16B of the insulating member 11B has a groove portion 14B, and the upper surface 15A of the insulating member 11A that comes into contact with the lower surface 16B has a streak portion 13A that can be fitted to the groove portion 14B.

  As shown in FIG. 4, the streaks 13A, 13B, 13C, and 13D have the extending direction (that is, the insertion direction of the terminal blocks 10A to 10E) as the longitudinal direction, and the top surfaces of the insulating members 11A to 11D across the extending direction. 15A to 15D. Similarly to the streaks 13A to 13D, the grooves 14B, 14C, 14D, and 14E have the extending direction (that is, the insertion direction of the terminal blocks 10A to 10E) as the longitudinal direction, and the insulating members 11B to 11E extend in the extending direction. It is provided on the lower surfaces 16B to 16E. Accordingly, the terminal blocks 10A to 10E are configured to be slidable along the insertion direction in a state where the groove portion and the stripe portion are fitted between the adjacent terminal blocks.

  The positions of the groove portions 14B, 14C, 14D, 14E and the stripe portions 13A, 13B, 13C, 13D in the width direction are terminal blocks in which the groove portions 14B, 14C, 14D, 14E and the stripe portions 13A, 13B, 13C, 13D are provided. It is comprised so that it may differ according to the normal position of the lamination direction of 10A-10E. That is, the width direction positions of the streaks 13A and the grooves 14B, the width direction positions of the streaks 13B and the grooves 14C, the width direction positions of the streaks 13C and the grooves 14D, and the width direction positions of the streaks 13D and the grooves 14E. Are set at different positions. As a result, when the terminal blocks 10A to 10E are at regular positions in the stacking direction corresponding to the terminal blocks 10A to 10E, that is, from the lower side to the upper side in the stacking direction, the terminal block 10A, the terminal block 10B, the terminal block 10C, Only when the terminal blocks 10E are stacked in this order, all the groove portions 14B, 14C, 14D, and 14E can be fitted to the stripe portions 13A, 13B, 13C, and 13D. At this time, all of the plurality of terminal blocks 10 </ b> A to 10 </ b> E can be fitted to the connector housing 2 at a predetermined position of the hollow portion 4. On the other hand, when at least a part of the terminal blocks 10A to 10E is not in the normal position in the stacking direction corresponding to each of the terminal blocks 10A to 10E, at least one set of the groove portions 14B, 14C, 14D, 14E and the stripe portions 13A, 13B, 13C, 13D is present. They are not placed facing each other and cannot be fitted together. At this time, among the plurality of terminal blocks 10A to 10E, at least a terminal block that is not arranged in the normal position cannot be inserted into the gap between other terminal blocks adjacent to its own groove or streak. The connector housing 2 cannot be fitted at a predetermined position of the portion 4.

  Thus, in this embodiment, the groove portions 14B to 14E and the stripe portions 13A to 13D have a plurality of terminal blocks when each of the plurality of terminal blocks 10A to 10E is at a normal position in the corresponding stacking direction. All of 10A to 10E can be fitted to the connector housing 2 at a predetermined position on the inner peripheral surface of the hollow portion 4, and at least a part of the plurality of terminal blocks 10A to 10E is at regular positions in the stacking direction corresponding to each. When there is not, at least a part of the plurality of terminal blocks 10 </ b> A to 10 </ b> E functions as a “fitting restricting portion” that cannot be fitted to the connector housing 2 at a predetermined position on the inner peripheral surface of the hollow portion 4.

  Next, an assembly procedure of the PCB connector 1 of the present embodiment will be described with reference to FIGS. FIG. 7 is a perspective view showing a first stage of the assembly procedure of the PCB connector of the present embodiment, and is a perspective view showing a state in which the first terminal block is fitted to the connector housing. 8 is a sectional view taken along line VIII-VIII in FIG. FIG. 9 is a perspective view showing a second stage of the assembly procedure of the PCB connector of the present embodiment, and is a perspective view showing a state in which the second terminal block is fitted to the connector housing. FIG. 10 is a perspective view showing a third stage of the assembly procedure of the PCB connector of the present embodiment, and is a perspective view showing a state in which the third terminal block is fitted to the connector housing. FIG. 11 is a perspective view showing a fourth stage of the assembly procedure of the PCB connector of the present embodiment, and is a perspective view showing a state where the fourth terminal block is fitted to the connector housing. FIG. 2 is a perspective view showing a fifth stage of the assembly procedure of the PCB connector of this embodiment, and is also a perspective view showing a state in which all terminal blocks are fitted to the connector housing.

  First, as in the first stage shown in FIG. 7, among the plurality of terminal blocks 10 </ b> A to 10 </ b> E, the terminal block 10 </ b> A whose normal position in the stacking direction is the first from the bottom is the connector housing 2 from the base end side in the extending direction. Is inserted into the hollow portion 4. The terminal block 10 </ b> A is a position in the stacking direction that can be engaged with the holding protrusion 8 </ b> A positioned at the lowermost part in the stacking direction among the plurality of holding protrusions 8 </ b> A to 8 </ b> E provided in the partition 7 on the inner peripheral surface of the hollow portion 4. Is inserted along the extending direction. Then, as shown in FIG. 8, the holding protrusion 8A is locked in the gap between the locking protrusion 20A of the insulating member 11A and the abutting portion 21A, so that the terminal block 10A is connected to the connector as shown in FIGS. The housing 2 is fitted. 8 is a view showing a fitting state between the terminal block 10A and the holding projection 8A, but the fitting relationship between the other terminal blocks 10B to 10E and the holding projections 8B to 8E is the same. Hereinafter, the description may be made with reference to FIG. 8 by replacing the reference A in FIG.

  Next, as in the second stage shown in FIG. 9, the terminal block 10B whose normal position in the stacking direction is the second from the bottom is inserted into the hollow portion 4 of the connector housing 2 from the base end side in the extending direction. . The terminal block 10 </ b> B is a stacked layer in which the position in the stacking direction can be engaged with the second holding protrusion 8 </ b> B from the lower side among the plurality of holding protrusions 8 </ b> A to 8 </ b> E provided on the partition portion 7 on the inner peripheral surface of the hollow portion 4. It is inserted along the extending direction at the position of the direction. At this time, in the terminal block 10B, the groove portion 14B provided on the lower surface 16B of the insulating member 11B is fitted with the line portion 13A provided on the upper surface 15A of the insulating member 11A of the terminal block 10A, and the terminal block 10B slides along the line portion 13A. It moves to the front end side in the extending direction while moving. Then, as shown in FIG. 8, the holding projection 8B is locked in the gap between the locking projection 20B of the insulating member 11B and the abutting portion 21B, so that the terminal block 10B is connected to the connector housing 2 as shown in FIG. Fitted.

  Next, as in the third stage shown in FIG. 10, the terminal block 10 </ b> C whose normal position in the stacking direction is the third from the bottom is inserted into the hollow portion 4 of the connector housing 2 from the base end side in the extending direction. . The terminal block 10 </ b> C is a stacked layer in which the position in the stacking direction can be engaged with the third holding protrusion 8 </ b> C from the lower side among the plurality of holding protrusions 8 </ b> A to 8 </ b> E provided in the partition portion 7 on the inner peripheral surface of the hollow portion 4. It is inserted along the extending direction at the position of the direction. At this time, in the terminal block 10C, the groove portion 14C provided on the lower surface 16C of the insulating member 11C is fitted with the line portion 13B provided on the upper surface 15B of the insulating member 11B of the terminal block 10B, and the terminal block 10C slides along the line portion 13B. It moves to the front end side in the extending direction while moving. As shown in FIG. 8, the holding projection 8C is locked in the gap between the locking projection 20C of the insulating member 11C and the abutting portion 21C, so that the terminal block 10C is connected to the connector housing 2 as shown in FIG. Fitted.

  Next, as in the fourth stage shown in FIG. 11, the terminal block 10D whose normal position in the stacking direction is the fourth from the bottom is inserted into the hollow portion 4 of the connector housing 2 from the base end side in the extending direction. . The terminal block 10D is a stacked layer in which the position in the stacking direction can be engaged with the fourth holding protrusion 8D from the lower side among the plurality of holding protrusions 8A to 8E provided in the partition portion 7 on the inner peripheral surface of the hollow portion 4. It is inserted along the extending direction at the position of the direction. At this time, the terminal block 10D fits the groove portion 14D provided on the lower surface 16D of the insulating member 11D with the line portion 13C provided on the upper surface 15C of the insulating member 11C of the terminal block 10C, and slides along the line portion 13C. It moves to the front end side in the extending direction while moving. Then, as shown in FIG. 8, the holding protrusion 8D is locked in the gap between the locking protrusion 20D of the insulating member 11D and the abutting portion 21D, so that the terminal block 10D is connected to the connector housing 2 as shown in FIG. Fitted.

  Then, as in the fifth stage shown in FIG. 2, the terminal block 10 </ b> E whose normal position in the stacking direction is the fifth from the bottom is inserted into the hollow portion 4 of the connector housing 2 from the base end side in the extending direction. The terminal block 10 </ b> E is a stacked layer in which the position in the stacking direction can be engaged with the fifth holding protrusion 8 </ b> E from the lower side among the plurality of holding protrusions 8 </ b> A to 8 </ b> E provided on the partition portion 7 on the inner peripheral surface of the hollow portion 4. It is inserted along the extending direction at the position of the direction. At this time, in the terminal block 10E, the groove portion 14E provided on the lower surface 16E of the insulating member 11E is fitted with the stripe portion 13D provided on the upper surface 15D of the insulation member 11D of the terminal block 10D, and the terminal block 10E slides along the stripe portion 13D. It moves to the front end side in the extending direction while moving. Then, as shown in FIG. 8, the holding projection 8E is locked in the gap between the locking projection 20E of the insulating member 11E and the abutting portion 21E, so that the terminal block 10E is connected to the connector housing 2 as shown in FIG. Fitted. As a result, all of the plurality of terminal blocks 10A to 10E are fitted into the connector housing 2, and the assembly of the PCB connector 1 is completed.

  Next, effects of the PCB connector 1 according to the present embodiment will be described.

  The PCB connector 1 according to the present embodiment includes a connector housing 2 having a hollow portion 4, insulating members 11A to 11E, and a plurality of terminals 12A to 12E integrally connected to the insulating members 11A to 11E. By inserting the insulating members 11A to 11E adjacent to each other along the stacking direction orthogonal to the insertion direction by being inserted into the hollow portion 4 from the insertion direction, the predetermined positions of the hollow portion 4 are in contact with each other. When the plurality of terminal blocks 10A to 10E fitted to the connector housing 2 and the plurality of terminal blocks 10A to 10E are at regular positions in the stacking direction corresponding to the terminal blocks 10A to 10E, respectively. Can be fitted to the connector housing 2 at a predetermined position on the inner peripheral surface of the hollow portion 4, and at least a part of the plurality of terminal blocks 10A to 10E. , A fitting that makes it impossible to fit at least a part of the plurality of terminal blocks 10 </ b> A to 10 </ b> E with the connector housing 2 at a predetermined position on the inner peripheral surface of the hollow portion 4 when they are not in the proper positions in the stacking direction corresponding to each of them. And a regulation unit. Specifically, the fitting restricting portion includes a pair of contact surfaces that contact when the plurality of terminal blocks 10A to 10E are fitted to the connector housing 2 (one upper surface 15A to one of the adjacent pair of terminal blocks). 15D and the other lower surfaces 16B to 16E), the groove portions 14B to 14E provided across the insertion direction of one contact surface (lower surfaces 16B to 16E), and the groove portion 14B to the other contact surface (upper surfaces 15A to 15D). 14E and the streaks 13A to 13D provided so as to be fitted. Further, the positions in the width direction of the groove portions 14B to 14E and the stripe portions 13A to 13D are the normal positions in the stacking direction corresponding to the terminal blocks 10A to 10E provided with the groove portions 14B to 14E and the stripe portions 13A to 13D, respectively. Depending on.

  With these configurations, the plurality of terminals 12A to 12E included in the PCB connector 1 can be divided into the plurality of terminal blocks 10A to 10E and arranged on the PCB connector 1. Further, since the plurality of terminal blocks 10A to 10E are configured to be detachable from the connector housing 2, part or all of the terminal blocks 10A to 10E may be replaced with another terminal block having a different terminal arrangement. Is possible. That is, the PCB connector 1 of the present embodiment can arbitrarily change the terminal arrangement for each stage along the stacking direction by appropriately replacing the terminal blocks 10A to 10E. Therefore, in the present embodiment, when the terminal arrangement of the connector front of the PCB connector 1 is to be changed, there is no need to perform mold correction or piece change, and the work of replacing the terminal blocks 10A to 10E with another one. The terminal arrangement of the PCB connector 1 can be easily changed simply by performing the above. In the present embodiment, the plurality of terminals 12A to 12E are first press-fitted into the insulating members 11A to 11E and assembled integrally as the terminal blocks 10A to 10E, and then the connector housing 2 in units of these terminal blocks 10A to 10E. Fitted. Such an assembly procedure is easier to assemble than a method in which a plurality of terminals are directly press-fitted into a housing as in a conventional connector. Therefore, the ease of assembling the connector can be improved by this embodiment.

  Furthermore, by the said structure, the groove parts 14B-14E and the line | wire parts 13A-13D as a fitting control part are provided in each insulation member 11A-11E of several terminal block 10A-10E. Thus, only when each of the plurality of terminal blocks 10A to 10E is in a normal position in the stacking direction corresponding to each of the plurality of terminal blocks 10A to 10E, the groove portions 14B to 14E and the stripe portions 13A to 13D are all properly fitted, and the terminal block 10A 10E can be inserted into the hollow portion 4 in a state where the insulating members 11A to 11E are laminated and in contact with each other, and all of the terminal blocks 10A to 10E can be correctly fitted to the connector housing 2. On the other hand, when at least a part of the plurality of terminal blocks 10A to 10E is not in the normal position in the stacking direction corresponding to each of the terminal blocks 10A to 10E, at least a part of the groove parts 14B to 14E and the stripe parts 13A to 13D are not properly fitted. At least some of the plurality of terminal blocks 10 </ b> A to 10 </ b> E cannot be fitted to the connector housing 2. By generating a situation in which the terminal blocks cannot be fitted, it becomes easy for the worker of the assembly work to recognize that the plurality of terminal blocks 10A to 10E are not in the normal position in the stacking direction. It is possible to prevent an erroneous insertion of the connector housing 2 of 10E.

  Here, with reference to FIGS. 12 and 13, the effect of the above-described embodiment will be further described. 12 and 13 are front views showing an example of a configuration in which a part of the plurality of terminal blocks is replaced with another terminal block in the PCB connector according to the present embodiment.

  In the above embodiment, as the plurality of terminal blocks 10A to 10E, the pitches and the number of the terminals 12A to 12E installed in each block are all the same, and 11 terminals are arranged in a row in the width direction. The configuration is exemplified (see FIG. 3). 12 and 13, as terminal blocks different from the terminal blocks 10A to 10E, terminal blocks 30A, 30B, and 30C (hereinafter collectively referred to as “terminal block 30”) in which eight terminals are arranged in a row in the width direction. And terminal blocks 40D and 40E in which six terminals are arranged in a row in the width direction (hereinafter may be collectively referred to as “terminal block 40”). In FIG. 12, the terminal blocks 30A and 30B are replaced at the positions of the terminal blocks 10A and 10B, and the terminal blocks 40D and 40E are replaced at the positions of the terminal blocks 10D and 10E, and are fitted into the connector housing 2. . In FIG. 13, the terminal block 30A is replaced at the position of the terminal block 10A, the terminal block 30C is replaced at the position of the terminal block 10C, and the terminal block 40E is replaced at the position of the terminal block 10E. Has been.

  As shown in FIGS. 3, 12 and 13, the terminal block 30 </ b> A has a streak 13 </ b> A at the same position in the width direction as the terminal block 10 </ b> A. As illustrated in FIGS. 12 and 13, the terminal block 30 </ b> B has a streak 13 </ b> B and a groove 14 </ b> B at the same position in the width direction as the terminal block 10 </ b> B. As shown in FIGS. 12 and 13, the terminal block 30 </ b> C has a line portion 13 </ b> C and a groove portion 14 </ b> C at the same position in the width direction as the terminal block 10 </ b> C. As illustrated in FIGS. 12 and 13, the terminal block 40 </ b> D has a line portion 13 </ b> D and a groove portion 14 </ b> D at the same position in the width direction as the terminal block 10 </ b> D. As shown in FIGS. 3, 12, and 13, the terminal block 40E has a groove 14E at the same position in the width direction as the terminal block 10E.

  Thus, in the PCB connector 1 of the present embodiment, the terminal block 30 has a terminal arrangement different from that of the plurality of terminal blocks 10A to 10E and has grooves or streaks arranged in the same manner as the terminal blocks 10A to 10E to be replaced. By replacing with 40, the terminal arrangement of each stage along the stacking direction can be arbitrarily changed. As a result, for example, if one type of connector housing having the same outer shape is created, it is possible to easily manufacture connectors with various terminal arrangements by appropriately changing the terminal block, and thus the degree of freedom of connector terminal arrangement. In addition, the versatility of the connector can be greatly improved.

  Further, in the PCB connector 1 of the present embodiment, the insulating members 11A to 11E of the plurality of terminal blocks 10A to 10E are formed to extend along the width direction orthogonal to the insertion direction and the stacking direction. Side surfaces 19 </ b> A to 19 </ b> E that are provided at both ends and are disposed to face the inner peripheral surface of the hollow portion 4 when fitted to the connector housing 2. The PCB connector 1 includes a locking mechanism that locks the terminal blocks 10A to 10E to the inner peripheral surface of the hollow portion 4 when the terminal blocks 10A to 10E are inserted to a predetermined position of the hollow portion 4. Specifically, as the locking mechanism, the locking projections 20A to 20E and the butting portions 21A to 21E provided on the side surfaces 19A to 19E of the insulating members 11A to 11E and the terminal blocks 10A to 10E are fitted into the connector housing 2. Holding projections 8A to 8E provided on a portion (partition portion 7) on the inner peripheral surface of the hollow portion 4 that contacts the side surfaces 19A to 19E.

  With this configuration, when the terminal blocks 10A to 10E are inserted to a predetermined position of the hollow portion 4 of the connector housing 2, the terminal blocks 10A to 10E can be appropriately locked to the inner peripheral surface of the hollow portion 4. The positioning accuracy of the terminal blocks 10A to 10E with respect to the connector housing 2 can be improved.

  Further, in the PCB connector 1 of this embodiment, one end of the terminals 12A to 12E is bent downward in the stacking direction orthogonal to the insertion direction and connected to the printed circuit board 101.

  With this configuration, in the PCB connector 1, the stacking direction of the plurality of terminal blocks 10 </ b> A to 10 </ b> E is the same as the direction in which the connector is erected from the printed circuit board 101, and is thus coupled to each of the plurality of terminal blocks 10 </ b> A to 10 </ b> E. The terminals 12A to 12E to be used are classified according to the longitudinal dimensions of the connecting portions 122A to 122E. Accordingly, when the plurality of terminal blocks 10A to 10E are not in the normal positions in the stacking direction, the end positions of the connecting portions 122A to 122E of the terminals 12A to 12E are not uniform, so that the terminal blocks 10A to 10E are inserted. It is even easier for the assembly operator to recognize the mistake.

[First modification]
Next, a first modification of the above embodiment will be described with reference to FIGS. FIG. 14 is a schematic diagram illustrating a fitting relationship between terminal blocks in a first modification of the embodiment, and is a perspective view of an insulating member of each terminal block as viewed obliquely from above. FIG. 15 is a schematic diagram illustrating a fitting relationship between the terminal blocks in the first modification of the embodiment, and is a perspective view of an insulating member of each terminal block as viewed obliquely from below.

  As shown in FIGS. 14 and 15, holes 114B, 114C, 114D, and 114E and protrusions 113A, 113B, 113C, and 113D are provided instead of the grooves 14B to 14E and the streaks 13A to 13D of the above embodiment. Also good.

  Specifically, the lower surface 16E of the insulating member 11E has a hole 114E, and the upper surface 15D of the insulating member 11D that abuts on the lower surface 16E has a protrusion 113D that can be fitted to the hole 114E. Similarly, the lower surface 16D of the insulating member 11D has a hole 114D, and the upper surface 15C of the insulating member 11C that comes into contact with the lower surface 16D has a protrusion 113C that can be fitted to the hole 114D. Similarly, the bottom surface 16C of the insulating member 11C has a hole 114C, and the top surface 15B of the insulating member 11B that comes into contact with the bottom surface 16C has a protrusion 113B that can be fitted to the hole 114C. Similarly, the lower surface 16B of the insulating member 11B has a hole 114B, and the upper surface 15A of the insulating member 11A in contact with the lower surface 16B has a protrusion 113A provided so as to be fitted to the hole 114B.

  As shown in FIG. 14, the protrusions 113A, 113B, 113C, and 113D protrude from the upper surfaces 15A to 15D of the insulating members 11A to 11D on the upper side in the stacking direction. The protrusions 113A, 113B, 113C, and 113D have a substantially cylindrical shape in the example of FIG. The holes 114B, 114C, 114D, and 114E are formed along the stacking direction from the lower surfaces 16B to 16E of the insulating members 11B to 11E.

  The positions in the width direction of the holes 114B, 114C, 114D, and 114E and the protrusions 113A, 113B, 113C, and 113D are the same as those of the grooves 14B to 14E and the streaks 13A to 13D in the above embodiment. 114C, 114D, 114E and the terminal blocks 10A to 10E provided with the protrusions 113A, 113B, 113C, 113D are configured to differ depending on the normal positions in the stacking direction.

  In the first modification, when the PCB connector 1 is assembled, first, each of the protrusions 113A, 113B, 113C, 113D is fitted into the holes 114B, 114C, 114D, 114E. 10E are made into a state in which the insulating members 11A to 11E are laminated and in contact with each other and are integrally assembled. Then, the plurality of terminal blocks 10 </ b> A to 10 </ b> E in an integrally assembled state are inserted into the hollow portion 4 and fitted into the connector housing 2 at a predetermined position of the hollow portion 4.

  In the first modified example, the holes 114B to 114E and the protrusions 113A to 113D have a plurality of terminal blocks 10A to 10A when the plurality of terminal blocks 10A to 10E are at regular positions in the stacking direction corresponding to the terminal blocks 10A to 10E, respectively. When all of 10E can be fitted to the connector housing 2 at a predetermined position on the inner peripheral surface of the hollow portion 4, and at least some of the plurality of terminal blocks 10A to 10E are not at regular positions in the corresponding stacking direction. In addition, all of the plurality of terminal blocks 10 </ b> A to 10 </ b> E function as “fitting restriction portions” that cannot be fitted to the connector housing 2 at predetermined positions on the inner peripheral surface of the hollow portion 4.

[Second modification]
Next, a second modification of the above embodiment will be described with reference to FIG. FIG. 16 is a schematic diagram illustrating a fitting relationship between the terminal block and the inner peripheral surface of the hollow portion of the connector housing in the second modification of the embodiment.

  As shown in FIG. 16, instead of the groove portions 14B to 14E and the stripe portions 13A to 13D of the above embodiment, the insulating members 11A to 11E of the terminal blocks 10A to 10E are provided on the side surfaces 19A to 19E at both ends in the width direction. Member-side fitting portions 213A to 213E and portions on the inner peripheral surface of the hollow portion 4 that come into contact with the side surfaces 19A to 19E when the terminal blocks 10A to 10E are fitted to the connector housing 2 (partition portion 7) It is good also as a structure which has the housing | casing side fitting parts 214A-214E provided in this.

  Each of the member side fitting parts 213A to 213E and the housing side fitting parts 214A to 214E is a pair of fitting parts. That is, the member side fitting portion 213A and the housing side fitting portion 214A, the member side fitting portion 213B and the housing side fitting portion 214B, the member side fitting portion 213C and the housing side fitting portion 214C, and the member side fitting portion 213D. The housing side fitting portion 214D, the member side fitting portion 213E, and the housing side fitting portion 214E are a pair of fitting portions that are fitted to each other.

  Each pair of the member side fitting portions 213A to 213E and the case side fitting portions 214A to 214E is provided over the insertion direction (extending direction) of the terminal blocks 10A to 10E, and extends as shown in FIG. They are formed into shapes that can be fitted to each other when viewed from the direction. That is, each pair of the member-side fitting portions 213A to 213E and the case-side fitting portions 214A to 214E is inserted in the insertion direction of the terminal blocks 10A to 10E when the terminal blocks 10A to 10E are fitted to the connector housing 2. The member side fitting portions 213A to 213E can slide with respect to the housing side fitting portions 214A to 214E in the extending direction (perpendicular to the plane of FIG. 16). Is formed.

  Furthermore, the shape of each pair of the member-side fitting portions 213A to 213E and the housing-side fitting portions 214A to 214E depends on the normal position in the stacking direction of the terminal blocks 10A to 10E provided with the respective fitting portions. Configured differently.

  In the second modification, when the member side fitting portions 213A to 213E and the housing side fitting portions 214A to 214E are at the normal positions in the stacking direction corresponding to the terminal blocks 10A to 10E, All of the plurality of terminal blocks 10A to 10E can be fitted to the connector housing 2 at a predetermined position on the inner peripheral surface of the hollow portion 4, and at least a part of the plurality of terminal blocks 10A to 10E corresponds to the corresponding stacking direction. When not in the regular position, at least a part of the plurality of terminal blocks 10 </ b> A to 10 </ b> E functions as a “fitting restricting portion” that cannot be fitted to the connector housing 2 at a predetermined position on the inner peripheral surface of the hollow portion 4. .

  As mentioned above, although embodiment of this invention was described, the said embodiment was shown as an example and is not intending limiting the range of invention. The above-described embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. The above-described embodiments and modifications thereof are included in the invention described in the claims and the equivalents thereof, as long as they are included in the scope and gist of the invention.

  In the above-described embodiment, the configuration in which the plurality of terminals 12A to 12E are integrally connected to the respective insulating members 11A to 11E of the plurality of terminal blocks 10A to 10E is exemplified, but a single terminal is provided to one insulating member 11A to 11E. It is good also as a structure which provides.

  Moreover, in the said embodiment, although the PCB connector 1 which is one of the connection mechanisms for wire-to-boards was illustrated as an example of the connector which concerns on this invention, this invention connects the terminals 12A-12E to an electric wire etc., for example. The present invention can also be applied to a connector as a connection mechanism for wire-to-wire connection, such as a configuration. Moreover, in the said embodiment, although the terminal 12A-12E bent as a right angle and illustrated the structure connected to the printed circuit board 101 as a structure of the PCB connector 1, it is good also as a structure other than this.

1 PCB connector (connector)
2 Connector housing (housing)
4 Hollow part 7 Partition part 8A-8E Holding protrusion (locking mechanism)
10A to 10E Terminal block 11A to 11E Insulating member 12A to 12E Terminals 13A, 13B, 13C, 13D Muscle part (fitting regulation part)
14B, 14C, 14D, 14E Groove (Fitting restriction)
15A to 15E Upper surface (contact surface)
16A-16E Lower surface (contact surface)
19A-19E Side 20A-20E Locking protrusion (locking mechanism)
21A-21E Butting part (locking mechanism)
101 Printed circuit board (board)
113A, 113B, 113C, 113D Protruding part (fitting restricting part)
114B, 114C, 114D, 114E Hole (Fitting restriction)
213A-213E Member side fitting part (fitting regulation part)
214A-214E Case side fitting part (fitting regulation part)

Claims (2)

A housing having a hollow portion;
It has an insulating member and one or a plurality of terminals that are integrally connected to the insulating member, and is adjacent to the stacking direction perpendicular to the insertion direction by being inserted into the hollow portion from a predetermined insertion direction. A plurality of terminal blocks that fit with the housing at a predetermined position of the hollow portion in a state where the insulating members are stacked and in contact with each other;
When each of the plurality of terminal blocks is in a normal position in the stacking direction corresponding to each of the plurality of terminal blocks, all of the plurality of terminal blocks can be fitted to the housing at the predetermined position of the hollow portion, When at least a part of the plurality of terminal blocks is not in the normal position in the stacking direction corresponding to each of the plurality of terminal blocks, the at least a part of the plurality of terminal blocks is placed at the predetermined position of the hollow portion with the housing. A fitting restricting portion which makes the fitting impossible,
Equipped with a,
Each insulating member of the plurality of terminal blocks is formed to extend along the width direction perpendicular to the insertion direction and the stacking direction, and is adjacent to the other insulating member when fitted to the housing And abutting surfaces that abut against each other,
The fitting restricting portion includes a groove provided in the insertion direction of one of the abutting surfaces and a other of the pair of abutting surfaces that abut when the plurality of terminal blocks are fitted to the housing. And a streak portion that can be fitted to the groove portion on the contact surface of
The position in the width direction of the groove and the stripe varies depending on the regular position of the terminal block provided with the groove and the stripe,
Each of the insulating members of the plurality of terminal blocks is formed to extend along a width direction orthogonal to the insertion direction and the stacking direction, provided at both ends in the width direction, and fitted to the housing. Having a side surface disposed opposite to the inner peripheral surface of the hollow portion,
Provided on the side surface and the portion of the inner peripheral surface of the hollow portion that comes into contact with the side surface when the terminal block is fitted into the housing, and the terminal block is located at the predetermined position of the hollow portion. A connector, comprising: a locking mechanism that locks the terminal block to the inner peripheral surface of the hollow portion when the terminal block is inserted . The connector according to claim 1 , wherein one end of the terminal is bent in a direction orthogonal to the insertion direction and connected to the substrate.

Images