JP2019192613A - connector - Google Patents

Abstract

To obtain a connector having simple constitution while achieving downsizing.SOLUTION: A connector 1 includes: a plurality of terminals 13 to which wires 1A are connected; a housing 10 in which a plurality of spaces S2, S3 to which the terminals 13 are inserted are formed; and a retainer 14 attached to the housing 10 and regulating ejection of the terminals 13 from the housing 10. Each of the terminals 13 includes: a terminal body section 131 having a peripheral wall which is extended in insertion directions of the terminal 13 into the spaces S2, S3; a contact section 133 which is connected to the one side in the insertion direction of the terminal body section 131; and a wire connection section 134 which is connected to the other side in the insertion directions of the terminal body section 131 and to which a wire 1A is connected. When the terminal 13 is arranged so that the insertion direction is a horizontal direction and the contact section 133 is arranged on the lower side, a first insertion hole 131f opened upward and a second insertion hole 131g opened downward are formed on the peripheral wall of the terminal 13.SELECTED DRAWING: Figure 15

Description

  The present disclosure relates to a connector.

  2. Description of the Related Art Conventionally, a connector having a terminal to which an electric wire is connected, a housing in which a plurality of spaces into which the terminal is inserted is formed, and a retainer that is attached to the housing and restricts removal of the terminal from the housing is known as a connector. (For example, refer to Patent Document 1).

  In Patent Document 1, the retainer mounted on the housing is moved to the locking position, and the locking protrusion formed on the retainer is locked to the terminal inserted into the housing, thereby preventing the terminal from coming off by the retainer. Is made.

  Furthermore, in Patent Document 1, a plurality of space groups arranged side by side in the width direction are formed in the housing in the up and down direction, and a plurality of terminals having substantially the same shape are inserted into the upper and lower spaces, respectively. At this time, terminals in an inverted state are inserted into the upper space and the lower space, respectively. Then, the two retainers are mounted on the top and bottom of the housing, and the respective retainers are moved to the locking positions, whereby the terminals inserted into the upper space and the terminals inserted into the lower space are respectively engaged with the retainer. It is stopped and each terminal is prevented from coming off.

JP 2005-322658 A

  If the terminal is inserted above and below the housing as in the conventional technique, the connector can be reduced in the width direction. Furthermore, it becomes possible to suppress the height of the connector from being increased by inserting the terminals in the mutually inverted state into the upper and lower spaces, respectively.

  However, if the terminals are inserted above and below the housing in an inverted state, it is necessary to mount two retainers on the top and bottom of the housing, which complicates the connector structure.

  As described above, the conventional technology cannot reduce the size of the connector without complicating the structure.

  Therefore, an object of the present disclosure is to obtain a connector that can have a simpler configuration while achieving downsizing.

  A connector according to the present disclosure includes a plurality of terminals to which an electric wire is connected, a housing in which a plurality of spaces into which the terminals are inserted are formed, and a retainer that is attached to the housing and restricts the terminal from being removed from the housing. And. The terminal includes a terminal main body portion having a peripheral wall extending in the insertion direction of the terminal into the space, a contact portion connected to one side of the terminal main body in the insertion direction, and the terminal main body portion. And an electric wire connecting portion connected to the other side in the insertion direction to which the electric wire is connected. The contact portion is formed at a position deviated from the center of the electric wire extending in the insertion direction when viewed along the insertion direction, and the insertion direction is horizontal in the space. The first space and the second space are respectively formed on the upper side and the lower side of the housing arranged to be. Further, the terminal inserted into the first space has the contact portion positioned on the lower side when the housing is disposed so that the first space is located above the second space. It is inserted into the first space. Further, the terminal inserted into the second space has the contact portion positioned on the upper side when the housing is arranged so that the first space is located above the second space. It is inserted in the second space. Further, when the terminal is arranged so that the insertion direction is a horizontal direction and the contact portion is positioned on the lower side, a first insertion hole that opens upward and a lower opening on the peripheral wall of the terminal A second insertion hole is formed. In addition, the retainer includes a retainer main body that is slidably mounted on the housing in a vertical direction when the housing is disposed so that the first space is located above the second space. Further, the retainer body includes a first restricting protrusion that restricts the terminal inserted into the first space when the retainer body is slid to one side in the up and down direction, and the second restrictor. A second restricting protrusion for restricting the terminal inserted into the space from being pulled out is formed. When the retainer main body is slid to the one side, the first restriction protrusion is inserted into one of the first insertion hole and the second insertion hole, and the second restriction protrusion Is inserted into the other.

  According to the present disclosure, it is possible to obtain a connector that can be reduced in size and have a simpler configuration.

It is a figure which shows an example of a connector set, Comprising: It is a perspective view shown disassembled into the plug connector mounted in the cable and the receptacle connector connected to the electric wire. It is a figure which shows an example of a connector set, Comprising: It is a perspective view which shows the state which fitted the plug connector mounted in the cable, and the receptacle connector connected to the electric wire. It is a figure which shows the contact state of the terminal by the side of a plug connector of a connector set shown as an example, and the terminal by the side of a receptacle connector, Comprising: (a) is a contact with the 1st terminal by the side of a plug connector, and the terminal by the side of a receptacle connector. The perspective view which shows a state, (b) is a perspective view which shows the contact state of the 2nd terminal by the side of a plug connector, and the terminal by the side of a receptacle connector. It is a perspective view which decomposes | disassembles and shows the receptacle connector with which the connector set shown as an example, and an electric wire. It is a figure which shows the receptacle housing with which the receptacle connector shown as an example is shown, Comprising: (a) is the perspective view seen from the front side, (b) is the perspective view seen from the rear side. It is a figure which shows the receptacle housing with which the receptacle connector shown as an example is provided, Comprising: (a) is a top view, (b) is a back view. It is a figure which shows the receptacle housing with which the receptacle connector shown as an example is shown, Comprising: (a) is a front view, (b) is a rear view, (c) is a side view, (d) is a sectional side view is there. It is a figure which shows the retainer with which the receptacle connector shown as an example is provided, Comprising: (a) is the perspective view seen from the front side, (b) is the perspective view seen from the rear side. It is a figure which shows the retainer with which the receptacle connector shown as an example is provided, Comprising: (a) is a top view, (b) is a back view, (c) is a front view, (d) is a rear view, (e ) Is a side view, and (f) is a side sectional view. It is a figure which shows typically the terminal with which the receptacle connector shown as an example is shown, Comprising: (a) is the perspective view seen from the front side, (b) is the perspective view seen from the back side. It is a figure which shows the terminal with which the receptacle connector shown as an example, Comprising: (a) is a top view, (b) is a side view, (c) is a back view, (d) is a front view, (e ) Is a rear view. It is a perspective view which shows the state which attached the retainer so that it might protrude partially in the receptacle housing of the receptacle connector shown as an example. It is a perspective view which shows the state which inserted the terminal in the receptacle housing in the state of FIG. It is a perspective view which shows the relationship between a retainer and a terminal in the state shown in FIG. It is a perspective view which shows the relationship between a retainer and a terminal in the state which accommodated the retainer in the receptacle housing. It is a sectional side view which shows the relationship between the retainer and the upper terminal in the state shown in FIG. It is a sectional side view which shows the relationship between a retainer and the upper terminal in the state which accommodated the retainer in the receptacle housing. It is a sectional side view which shows the relationship between the retainer and the lower terminal in the state shown in FIG. It is a sectional side view which shows the relationship between a retainer and the lower terminal in the state which accommodated the retainer in the receptacle housing.

  Hereinafter, embodiments of the present disclosure will be described in detail with reference to the drawings. Below, the direction where the terminals accommodated in the housing are arranged side by side will be described as the width direction (Y direction), and the insertion direction of the terminals into the housing will be described as the front-rear direction (X direction). A direction intersecting with the width direction (Y direction) and the front-rear direction (X direction) will be described as the up-down direction (Z direction).

  And the side where the retainer of a housing is inserted is prescribed | regulated as the upper direction of an up-down direction, and when a connector is fitted, the side facing a mating connector is prescribed | regulated as the front of the front-back direction.

[Configuration example of connector set]
A receptacle connector (connector) 1 according to the present embodiment is used in the connector set C1 shown in FIGS.

  As shown in FIGS. 1 and 2, the connector set C1 includes a plug connector 2 that fits into the receptacle connector 1 described above.

  In the present embodiment, the plug connector 2 includes a plug housing 21 and terminals 23 and 24 accommodated and held in the plug housing 21. The plug connector 2 is formed so as to be mountable on a cable (connected member) 2A such as an FPC or FFC. That is, the plug connector 2 is mounted on the cable 2A by electrically connecting (mounting) the terminals 23 and 24 included in the plug connector 2 to the conductor portion 2aA of the cable 2A.

  On the other hand, the receptacle connector 1 includes a receptacle housing 10 into which the plug housing 21 is fitted, and a plurality of relay terminals 13 that are accommodated and held in the receptacle housing 10. And each relay terminal 13 is electrically connected to the conductor portion 1bA of the electric wire 1A. In the present embodiment, the receptacle connector 1 is formed by accommodating and holding the relay terminal 33 to which the electric wire 1 </ b> A is connected in the receptacle housing 10.

  Then, the plug connector 2 is fitted to the receptacle connector 1, and the terminals 23, 24 and the relay terminal 13 are connected to each other, thereby forming a connector set C1 for electrically connecting the cable 2A and the electric wire 1A. (See FIGS. 2 and 3).

[Configuration Example of Receptacle Connector 1]
Next, an example of the configuration of the receptacle connector 1 will be described with reference to FIGS.

  As shown in FIG. 4, the receptacle connector 1 includes a plurality of relay terminals 13 to which the electric wires 1 </ b> A are connected, and a receptacle housing 10 in which a plurality of spaces into which the relay terminals 13 are inserted are formed. In addition, the receptacle connector 1 includes a retainer 14 that is attached to the receptacle housing 10 and restricts the relay terminal 13 from coming off the receptacle housing 10.

  The receptacle housing 10 has rigidity and can be formed using, for example, an insulating resin material.

  As shown in FIGS. 5 to 7, the receptacle housing 10 includes a substantially rectangular parallelepiped front housing 11 and a substantially rectangular parallelepiped rear housing 12 connected to the rear end of the front housing 11. Yes. In the present embodiment, the rear housing 12 is formed to be slightly smaller than the front housing 11, and the receptacle housing 10 as a whole has a shape in which two rectangular parallelepipeds having different sizes are connected. .

  The front housing 11 includes a top wall 111, a bottom wall 112, a pair of side walls 113 respectively connecting the top wall 111 and both ends of the bottom wall 112 in the width direction (Y direction), a top wall 111, a bottom wall 112, and And a rear wall 114 connected to the rear ends of the side walls 113 and 113.

  A space into which the lock portion 22 of the plug connector 2 is inserted is formed at the center in the width direction of the top wall 111 (see FIGS. 1 and 2). Specifically, an accommodation portion 111a that accommodates the lever portion 221 having the operation portion 221a is formed at a substantially central portion in the width direction of the top wall 111. An engaged portion (engagement hole) 111b that engages with an engagement protrusion 221b formed on the lever portion 221 is formed at the center in the front-rear direction of the housing portion 111a. Further, guide grooves 111c into which the guide wall portions 211a are inserted are formed on both sides in the width direction of the housing portion 111a.

  The front housing 11 is formed with a fitting space S1 that opens forward (on the plug connector 2 side). This fitting space S1 is a space into which the plug connector 2 is inserted and fitted, and is defined by the top wall 111, the bottom wall 112, the pair of side walls 113, 113, and the rear wall 114.

  On the other hand, the rear housing 12 includes a top wall 121, a bottom wall 122, a pair of side walls 123 connecting both ends of the top wall 121 and the bottom wall 122 in the width direction (Y direction), a top wall 121, a bottom wall A wall 122 and a front wall 124 connected to the front ends of the side walls 123 and 123.

  In this embodiment, the rear wall 114 of the front housing 11 and the front wall 124 of the rear housing 12 are integrated, and the rear wall 114 and the front wall 124 partition the receptacle housing 10 in the front-rear direction. 100 is formed.

  The rear housing 12 includes a partition wall 125 that is connected to the pair of side walls 123 and divides the space defined by the top wall 121, the bottom wall 122, and the side walls 123, 123 up and down.

  Further, the rear housing 12 includes a plurality of upper partition walls 126 connected to the top wall 121 and the partition wall 125, and the upper space partitioned by the partition wall 125 is made into a plurality of spaces by the upper partition wall 126. It is partitioned. In addition, the rear housing 12 includes a plurality of lower partition walls 127 connected to the bottom wall 122 and the partition wall 125, and a plurality of lower spaces partitioned by the partition wall 125 by the lower partition walls 127. It is divided into spaces.

  Further, the partition wall 100 is formed with a through hole 100 a that communicates the fitting space S <b> 1 with the space formed in the rear housing 12. The through hole 100a is formed in a portion corresponding to a space partitioned by the upper partition wall 126 and the lower partition wall 127 when the receptacle housing 10 is viewed along the front-rear direction. That is, the receptacle housing 10 has a plurality of spaces penetrating in the front-rear direction. And the relay terminal 13 is each inserted in the space penetrated in the front-back direction.

  Thus, in this embodiment, a plurality of spaces arranged in parallel in the width direction (Y direction) are formed in two stages in the vertical direction (Z direction) at the rear end portion of the rear housing 12. Furthermore, when the rear housing 12 is viewed from the rear in the front-rear direction, a plurality of spaces are formed in a staggered pattern. By doing so, the receptacle connector 1 is miniaturized in the width direction.

  Specifically, on the upper side of the rear end portion of the rear housing 12, a plurality of spaces defined by the top wall 121, the partition wall 125, and the upper partition wall 126 are arranged side by side in the width direction (Y direction). A space formed on the upper side of the rear housing 12 is a first space S2 into which the relay terminal 13 is inserted.

  On the other hand, below the rear end portion of the rear housing 12, a plurality of spaces defined by the bottom wall 122, the partition wall 125, and the lower partition wall 127 are arranged in parallel in the width direction (Y direction). A space formed below the rear housing 12 is a second space S3 into which the relay terminal 13 is inserted.

  Further, in the present embodiment, the upper partition 126 and the lower partition 127 are formed at positions shifted in the width direction. That is, a part of the first space S2 and a part of the second space S3 overlap each other in a plan view in a state where the receptacle housing 10 is arranged so that the insertion direction of the relay terminal 13 is the horizontal direction.

  The relay terminal 13 is inserted forward from the opening on the rear end side of the first space S2, and the opening on the rear end side of the first space S2 serves as an insertion port S2a. Further, the opening (through hole 100a) on the front end side of the first space S2 is smaller than the insertion port S2a so that the relay terminal 13 does not fall out. That is, the forward movement of the relay terminal 13 inserted from the insertion port S2a is regulated by the partition wall 100. The opening (through hole 100a) on the front end side of the first space S2 is an insertion hole S2b into which the substantially rod-shaped contact portion 133 of the relay terminal 13 is inserted.

  Similarly, the relay terminal 13 is inserted forward from the opening on the rear end side of the second space S3, and the opening on the rear end side of the second space S3 is an insertion port S3a. . Further, the opening (through hole 100a) on the front end side of the second space S3 is smaller than the insertion port S3a so that the relay terminal 13 does not fall out. That is, the forward movement of the relay terminal 13 inserted from the insertion port S3a is restricted by the partition wall 100. The opening (through hole 100a) on the front end side of the second space S3 is an insertion hole S3b into which the substantially rod-shaped contact portion 133 of the relay terminal 13 is inserted.

  In addition, a groove 121a that opens in the front-rear direction and downward is formed in the lower portion of the top wall 121 so as to communicate with the first space S2. The groove 121a is for inserting the tip of a protruding piece 131d of the relay terminal 13 described later to guide the insertion of the relay terminal 13 into the first space S2. In the present embodiment, the groove 121a is formed on one side (right side) of the first space S2 in the width direction in the state shown in FIG. 7B. The tip of the protruding piece 131d of the relay terminal 13 is formed so as to pass through the groove 121a from the start of insertion of the relay terminal 13 into the first space S2 until the insertion completion state.

  Similarly, a groove 122a that opens in the front-rear direction and upward is formed in the lower portion of the bottom wall 122 so as to communicate with the second space S3. The groove 122a is also used to guide insertion of the relay terminal 13 into the second space S3 by inserting the tip of the protruding piece 131d of the relay terminal 13. In this embodiment, the groove part 122a is formed in the one side (left side) of the width direction of 2nd space S3 in the state shown in FIG.7 (b). The leading end of the protruding piece 131d of the relay terminal 13 passes through the groove 122a from the start of insertion of the relay terminal 13 into the second space S3 until the insertion completion state.

  Thus, in the present embodiment, the second space S3 has a shape obtained by inverting (rotating 180 degrees) the first space S2 when the receptacle housing 10 is viewed from the rear in the front-rear direction.

  In addition, the top wall 121 is formed with a notch 121c that opens in the vertical direction and forward so as to communicate with the first space S2, and protrudes forward into the notch 121c and can be elastically deformed in the vertical direction. An abutting piece 121b is formed. The abutting piece 121b is a relay terminal to which the electric wire 1A is connected when the relay terminal 13 is inserted into the first space S2 (insertion complete state) and a retaining piece 131e of the relay terminal 13 described later abuts. 13 is suppressed (see FIGS. 16 and 17).

  Similarly, the bottom wall 122 is formed with a cutout 122c that opens in the vertical direction and forward so as to communicate with the second space S3. The cutout 122c projects forward and elastically deforms in the vertical direction. A possible abutting piece 122b is formed. The abutting piece 122b is also in a state in which the relay terminal 13 is inserted into the second space S3 (insertion complete state), and the relay terminal 13 to which the electric wire 1A is connected is brought into contact with the retaining piece 131e of the relay terminal 13. This prevents the slipping out (see FIGS. 18 and 19).

  Furthermore, in this embodiment, the retainer accommodation space S4 in which the retainer 14 is slidably inserted is formed in the front portion of the rear housing 12. The retainer housing space S4 is formed so as to open upward when the rear housing 12 is disposed so that the first space S2 is positioned above the second space S3. That is, the retainer 14 is inserted into the retainer accommodating space S4 from above in a state where the rear housing 12 is disposed so that the first space S2 is positioned above the second space S3. At this time, the retainer 14 is accommodated in the retainer accommodating space S4 so as to be slidable in the vertical direction (direction intersecting the insertion direction of the relay terminal 13 into the receptacle housing 10).

  The retainer 14 includes a retainer main body 140 that is slidably mounted on the rear housing 12 in the vertical direction when the rear housing 12 is disposed so that the first space S2 is positioned above the second space S3. ing.

  In the present embodiment, the retainer main body 140 includes a top wall 141, a bottom wall 142, and a pair of side walls 143 that respectively connect both ends of the top wall 141 and the bottom wall 142 in the width direction (Y direction). Yes.

  The retainer main body 140 includes a plurality of partition walls 144 that are connected to the top wall 141 and the bottom wall 142. Thus, by providing the partition wall 144 of the partition wall 144, the retainer body 140 is defined by the top wall 141, the bottom wall 142, and the adjacent partition walls 144 and 144, and the insertion hole 145 penetrating in the front-rear direction is formed in the width direction. A plurality are arranged side by side. Each insertion hole 145 is formed so as to communicate with the first space S2 in a state in which the retainer main body 140 is accommodated in the retainer accommodating space S4. Accordingly, the relay terminal 13 is also inserted into the insertion hole 145 when being inserted into the first space S2.

  In the present embodiment, the side wall 143 includes a rear extension 143a that extends rearward in the front-rear direction and a lower extension 143b that extends downward in the vertical direction. By doing so, when the retainer main body 140 is accommodated in the retainer accommodating space S4, or when the retainer main body 140 accommodated in the retainer accommodating space S4 is slid up and down, the retainer main body 140 moves in the width direction and the front-rear direction. It is possible to suppress this.

  A first restricting protrusion 141 a that protrudes downward is formed in the lower portion of the top wall 141 so as to be disposed in the insertion hole 145. This 1st control protrusion 141a controls the omission of the relay terminal 13 inserted in 1st space S2 when the retainer main body 140 is slid.

  In addition, an extended protrusion 141b is integrally connected to the rear end of the first restriction protrusion 141a, and the extended protrusion 141b has a lower surface that follows the shape of the upper surface of the retaining piece 131e. Is formed.

  A groove 145 a that opens rearward and downward is formed in the lower part of the top wall 141 so as to communicate with the insertion hole 145. The end of the protrusion 131d of the relay terminal 13 is inserted into the groove 145a in a state where the relay terminal 13 is inserted into the first space S2 (insertion complete state). And the protrusion 131d of the relay terminal 13 guides the slide of the retainer body 140 in the vertical direction. In the present embodiment, the groove 145a is formed on one side (left side) in the width direction of the insertion hole 145 in the state shown in FIG.

  Furthermore, in the present embodiment, a second restricting protrusion 142 a that protrudes downward is formed at the lower portion of the bottom wall 142. The second restricting protrusion 142a protrudes in the same direction as the first restricting protrusion 141a, and restricts removal of the relay terminal 13 inserted into the second space S3 when the retainer main body 140 is slid. .

  The relay terminal 13 has conductivity, and is held by the receptacle housing 10 so that a plurality of relay terminal groups arranged in parallel in the width direction (Y direction) of the receptacle housing 10 are formed vertically. Yes. As shown in FIGS. 10 and 11, the relay terminal 13 has a shape obtained by bending a single strip-shaped metal member in the thickness direction. Such a relay terminal 13 can be formed, for example, by bending a strip-shaped metal member.

  The relay terminal 13 is connected to the terminal main body 131 having a peripheral wall extending in the front-rear direction (direction in which the relay terminal 13 is inserted into the space) and the front side (one side) of the terminal main body 131 in the front-rear direction. A contact portion 133. In the present embodiment, the contact portion 133 has a substantially rod shape, and is connected to the terminal main body 131 via a connecting portion 132 formed so that the diameter decreases toward the front.

  In addition, the relay terminal 13 includes a wire connecting portion 134 that is connected to the rear side (the other side) in the front-rear direction of the terminal main body 131 and to which the electric wire 1A is connected.

  The electric wire 1A has flexibility and includes a covering portion 1aA made of an insulating material and a conductor portion 1bA covered with the covering portion 1aA. And 1 A of electric wires are exposing the conductor part 1bA by the front-end | tip of the side connected to the relay terminal 13. FIG.

  Then, the conductor portion 1bA of the electric wire 1A and the relay terminal 13 are conductively connected by electrically connecting the electric wire connecting portion 134 to the exposed conductor portion 1bA. The wire connecting portion 134 is formed on the terminal main body 131 side and is a conductor caulking portion 134a that is caulked and fixed to the conductor portion 1bA. The electric wire connecting portion 134 is formed at a position farther from the terminal main body portion 131 than the conductor caulking portion 134a. And an electric wire caulking portion 134b that is fixed by caulking.

  Further, the relay terminal 13 is formed at a position farther from the terminal body 131 than the wire crimping portion 134b, and a guide piece 135 is formed to guide insertion of the relay terminal 13 to which the wire 1A is connected into the space. .

  The terminal main body 131 includes a bottom wall 131a, a pair of side walls 131b connected to both ends in the width direction of the bottom wall 131a, and a top wall 131c connected to the side walls 131b and covering the top of the bottom wall 131a. ing.

  In the present embodiment, the bottom wall 131a, the pair of side walls 131b and 131b, and the top wall 131c correspond to peripheral walls, and the terminal main body 131 has a substantially box shape in which substantially the entire periphery is covered with the peripheral walls.

  In addition, a protruding piece 131d protruding upward is formed on one side of the side wall 131b. The protrusion 131d is a part where the tip passes through the groove 121a or the groove 122a or is accommodated in the groove 145a when the relay terminal 13 is inserted into the space.

  Further, a retaining piece 131e protruding rearward is formed at the rear end of the top wall 131c. The retaining piece 131e is formed so as to be elastically deformable in the vertical direction so that the rear end abuts against the abutting piece 121b in a state where the relay terminal 13 is inserted into the first space S2 (insertion complete state). It has become. Further, when the relay terminal 13 is inserted into the second space S3 (when the insertion is completed), the rear end abuts against the abutting piece 122b.

  Here, in the present embodiment, the center of the electric wire 1A that the contact portion 133 extends in the front-rear direction in a state viewed from the front in the front-rear direction (a state viewed along the insertion direction of the relay terminal 13 into the space). (See FIG. 11D).

  When the rear housing 12 is disposed so that the relay terminal 13 inserted into the first space S2 is positioned above the second space S3, the contact portion 133 is on the lower side. In this state, it is inserted into the first space S2.

  On the other hand, the relay terminal 13 inserted into the second space S3 is arranged such that the contact portion 133 is located on the upper side when the rear housing 12 is arranged so that the first space S2 is located above the second space S3. In this state, it is inserted into the second space S3.

  That is, the relay terminal 13 inserted into the second space S3 is the second space in a state where the relay terminal 13 inserted into the first space S2 is inverted (rotated 180 degrees) about the axial direction of the electric wire 1A. It is inserted in S3. Furthermore, the vertical distance (shortest distance) between the contact portion 133 of the relay terminal 13 inserted into the first space S2 and the contact portion 13 of the relay terminal 13 inserted into the second space S3 is the center of the wire 1A. It is made to become smaller than the distance (shortest distance) between the up and down directions.

  Furthermore, when the relay terminal 13 is inserted into the space as described above, the first insertion hole 131f that opens upward and the second insertion hole 11g that opens downward are formed on the peripheral wall of the terminal main body 131. Has been. In the present embodiment, the first insertion hole 131f and the second insertion hole 131g are formed to face each other in the vertical direction in plan view. That is, the first insertion hole 131f and the second insertion hole 131g are formed to be at the same position in the front-rear direction and the width direction in plan view.

  When the retainer body 140 is slid downward (in one direction) in the vertical direction, the first restricting protrusion 141a formed on the retainer body 140 is either the first insertion hole 131f or the second insertion hole 131g. Either one (the first insertion hole 131f) is inserted. Furthermore, the 2nd control protrusion 142a formed in the retainer main body 140 is inserted in the other (2nd insertion hole 131g).

  By doing this, simply by sliding one retainer 14 to one side (downward), the relay terminal 13 inserted into the first space S2 and the relay terminal 13 inserted into the second space S3 are disconnected. Can be simultaneously controlled by the retainer 14.

  Further, by simply sliding one retainer 14 to the other side (upward), restriction of the relay terminal 13 inserted into the first space S2 and restriction of the relay terminal 13 inserted into the second space S3 are restricted. And can be released at the same time.

  In addition, in the state which inserted the relay terminal 13 in each space (1st space S2 and 2nd space S3), the contact part 133 will be arrange | positioned in fitting space S1.

  Next, an example of a method for assembling the receptacle connector 1 will be described. Note that the method of assembling the receptacle connector 1 is not limited to the method described below.

  First, as shown in FIG. 12, the retainer 14 is mounted on the rear housing 12 so that the upper portion protrudes upward from the top wall 121. At this time, the retainer main body 140 is accommodated in the retainer accommodating space S4 in a state where the insertion holes 145 communicate with the first space S2.

  Further, the electric wire 1A is connected to the plurality of relay terminals 13 inserted into the space of the rear housing 12 (see FIGS. 10 and 11).

  Note that either the mounting of the retainer body 140 on the rear housing 12 and the connection of the electric wire 1A to the plurality of relay terminals 13 may be performed first or simultaneously.

  Next, as shown in FIG. 13, the relay terminal 13 to which the electric wire 1 </ b> A is connected is inserted into the space of the rear housing 12. At this time, the relay terminal 13 is inserted into the second space S3 in a state where the relay terminal 13 inserted into the first space S2 is inverted (rotated 180 degrees) about the axial direction of the electric wire 1A. I have to. Further, the vertical distance (shortest distance) between the contact portion 133 of the relay terminal 13 inserted into the first space S2 and the contact portion 133 of the relay terminal 13 inserted into the second space S3 is the center of the electric wire 1A. It is made to become smaller than the distance (shortest distance) between the up and down directions.

  And in the state (insertion completion state) which inserted the relay terminal 13 in 1st space S2, the 1st penetration hole 131f was made to oppose the 1st control protrusion 141a, and the relay terminal 13 was inserted in 2nd space S3. In the state (insertion completed state), the second insertion hole 131g is opposed to the second restricting protrusion 142a.

  Next, the retainer main body 140 is slid downward so that the retainer 14 is accommodated in the retainer accommodating space S4. By doing so, the first restricting protrusion 141a formed on the retainer main body 140 is inserted into the first insertion hole 131f, and the second restricting protrusion 142a is inserted into the second insertion hole 131g.

  Thus, the receptacle connector 1 is formed in which the disconnection of the relay terminal 13 inserted into the first space S2 and the disconnection of the relay terminal 13 inserted into the second space S3 are simultaneously restricted by the retainer 14 (FIG. 15). FIG. 17 and FIG. 19).

  When the plug connector 2 described above is fitted to the receptacle connector 1 having such a configuration, the lock portion 22 of the plug connector 2 is inserted into the center in the width direction of the top wall 111 of the receptacle housing 10. Then, the plug housing 21 is inserted into the fitting space S1 of the front housing 11.

  Specifically, the engaging protrusion 221 b formed on the lever portion 221 is pressed downward by the top wall 111 of the front housing 11. Thus, when the engagement protrusion 221b is pressed downward by the top wall 111, the rear end portion (operation part 221a) of the lever part 221 is elastically deformed so as to move downward, and the engagement protrusion 221b. Can move to the back side of the fitting space S1.

  When the engagement protrusion 221b is moved to the back side of the fitting space S1, the downward pressing of the engagement protrusion 221b by the top wall 111 is released, and the engagement protrusion is caused by the elastic restoring force of the lever portion 221. The part 221b moves upward. Then, the engagement protrusion 221b moves upward to engage with the engaged portion 111b formed on the receptacle connector 1, and the plug connector 2 and the receptacle connector 1 are locked in a fitted state. become.

  Further, in the middle of fitting the plug connector 2 to the receptacle connector 1, the tip of the contact portion 133 of the relay terminal 13 inserted into the second space S 3 is introduced into the plug housing 21, and the first plug terminal 23 It contacts the contact part 230a. In the present embodiment, the substantially plug-shaped contact portion 133 is inserted between the pair of contact pieces 238 and 238 and sandwiched between the pair of contact pieces 238 and 238, whereby the first plug terminal 23 and the relay terminal 13. Are electrically connected (see FIG. 3A).

  Similarly, the tip of the contact portion 133 of the relay terminal 13 inserted into the first space S2 is introduced into the plug housing 21 and contacts the contact portion 240a of the second plug terminal 24. In this embodiment, the substantially plug-shaped contact portion 133 is inserted between the pair of contact pieces 248 and 248 and is sandwiched between the pair of contact pieces 248 and 248, so that the second plug terminal 24 and the relay terminal 13 are inserted. Are electrically connected (see FIG. 3B).

  Thus, the connector set C1 which electrically connects the cable 1A and the electric wire 1A is formed by fitting the plug connector 2 to the receptacle connector 1 and electrically connecting the terminals 23, 24 and the relay terminal 13. Is done.

  On the other hand, when removing the plug connector 2 from the receptacle connector 1, first, the operating portion 221 a of the lever portion 221 is pushed down to move the lever portion 221 downward. By doing so, the engagement protrusion 221b also moves downward, and the engagement between the engagement protrusion 221b and the engaged portion 111b is released. When the plug connector 2 is pulled with respect to the receptacle connector 1 in a state where the engagement between the engagement protrusion 221b and the engaged portion 111b is released, the plug connector 2 is removed from the receptacle connector 1. It will move relative to the direction.

  As described above, when the plug connector 2 is moved relative to the receptacle connector 1 in the removal direction, first, the conductive connection between the terminals is released, and then the fitting between the housings is released. In this way, the plug connector 2 is removed from the receptacle connector 1.

  As described above, the receptacle connector (connector) 1 according to the present embodiment is a receptacle housing in which a plurality of relay terminals (terminals) 13 to which the electric wires 1A are connected and a plurality of spaces into which the relay terminals 13 are inserted are formed. (Housing) 10. In addition, the receptacle connector 1 includes a retainer 14 that is attached to the receptacle housing 10 and restricts the relay terminal 13 from coming off from the receptacle housing 10.

  The relay terminal 13 includes a terminal main body 131 having a peripheral wall extending in the insertion direction (X direction) of the relay terminal 13 into the space. Furthermore, the relay terminal 13 is connected to the contact portion 133 connected to one side in the insertion direction of the terminal main body 131 and the wire connection portion 134 connected to the other side of the terminal main body 131 in the insertion direction to which the electric wire 1A is connected. And.

  Here, the contact portion 133 is formed at a position deviated from the center of the electric wire 1 </ b> A extended in the insertion direction when viewed along the insertion direction (X direction). The space also includes a first space S2 and a second space S3 formed on the upper side and the lower side of the receptacle housing 10 arranged so that the insertion direction (X direction) is a horizontal direction.

  The relay terminal 13 inserted into the first space S2 has the contact portion 133 positioned on the lower side when the receptacle housing 10 is disposed so that the first space S2 is positioned above the second space S3. In the state, it is inserted into the first space S2. In addition, the relay terminal 13 inserted into the second space S3 has the contact portion 133 positioned on the upper side when the receptacle housing 10 is disposed so that the first space S2 is located above the second space S3. In the second space S3.

  Further, when the relay terminal 13 is arranged so that the insertion direction (X direction) is a horizontal direction and the contact portion 133 is positioned on the lower side, the first insertion hole 131f that opens upward is formed in the peripheral wall of the relay terminal 13. And the 2nd penetration hole 131g opened below is formed.

  In addition, the retainer 14 includes a retainer body 140 that is slidably mounted on the receptacle housing 10 in the vertical direction when the receptacle housing 10 is disposed so that the first space S2 is positioned above the second space S3. Yes.

  The retainer main body 140 includes a first restricting protrusion 141a for restricting the relay terminal 13 inserted into the first space S2 from slipping when the retainer main body 140 is slid downward (one side in the vertical direction). A second restricting protrusion 142a for restricting the relay terminal 13 inserted in the second space S3 from coming off is formed.

  When the retainer main body 140 is slid downward, the first restriction protrusion 141a is inserted into the first insertion hole 131f of the relay terminal 13 inserted into the first space S2. At this time, the second restricting protrusion 142a of the retainer main body 140 is inserted into the second insertion hole 131g of the relay terminal 13 inserted into the second space S3.

  Thus, by inserting the plurality of relay terminals 13 into the space formed in the upper and lower two stages of the receptacle housing 10, the receptacle housing 10 can be downsized in the width direction.

  In addition, the plurality of relay terminals 13 are inserted above and below the receptacle housing 10 in a state where the distance in the vertical direction between the contact portions 133 is small (inverted state). If it carries out like this, it will become possible to suppress that the height of the receptacle housing 10 reduced in the width direction becomes high.

  Thus, the receptacle connector 1 can be downsized by adopting the configuration of the receptacle connector 1 according to the present embodiment.

  Furthermore, in the present embodiment, since the first insertion hole 131f and the second insertion hole 131g are formed in the relay terminal 13, it is possible to prevent the relay terminal 13 inserted vertically by simply sliding one retainer 14. Can be performed. As a result, the configuration of the receptacle connector 1 can be simplified.

  Thus, according to the present embodiment, it is possible to obtain the receptacle connector 1 that can be reduced in size and can have a simpler configuration.

  In the present embodiment, the first space S2 and the second space S3 are formed in a staggered manner when the receptacle housing 10 is viewed along the insertion direction (X direction).

  If it carries out like this, the contact part 133 of the relay terminal 13 inserted in 1st space S2 and 2nd space S3 will also be arrange | positioned in zigzag form, and height direction is ensured while ensuring the insulation distance between the contact parts 133. The distance can be reduced. As a result, the receptacle connector 1 can be further miniaturized.

  As mentioned above, although preferred embodiment of this indication was described, this indication is not limited to the above-mentioned embodiment and its modification, and various modifications are possible.

  For example, in the above-described embodiment, the receptacle connector in which the plug connector mounted on the cable is fitted is illustrated, but the receptacle connector in which the plug connector mounted on the circuit board is fitted can also be used.

  Further, the present disclosure may be applied to the plug connector side.

  Moreover, the specifications (shape, size, layout, etc.) of the housing, terminals, and other details can be changed as appropriate.

1 Receptacle connector (connector)
10 Receptacle housing (housing)
13 relay terminal 131 terminal main body portion 131f first insertion hole 131g second insertion hole 133 contact portion 134 electric wire connection portion 14 retainer 140 retainer main body 141a first regulating projection 142a second regulating projection S2 first space S3 second space 1A Electrical wire

Claims (2)

A plurality of terminals to which wires are connected;
A housing in which a plurality of spaces into which the terminals are inserted are formed;
A retainer that is mounted on the housing and restricts the terminal from coming off from the housing;
With
The terminal is
A terminal body having a peripheral wall extending in the direction of insertion of the terminal into the space;
A contact portion provided continuously on one side of the terminal main body in the insertion direction;
An electric wire connecting portion connected to the other side of the terminal main body in the insertion direction, and connected to the electric wire;
With
The contact portion is formed at a position deviated from the center of the electric wire extending in the insertion direction, as viewed along the insertion direction,
The space includes a first space and a second space respectively formed on the upper side and the lower side of the housing arranged so that the insertion direction is a horizontal direction.
The terminal inserted into the first space has the contact portion positioned on the lower side when the housing is disposed so that the first space is located above the second space. Inserted in one space,
The terminal inserted into the second space has the contact portion positioned on the upper side when the housing is disposed such that the first space is located above the second space. Inserted into the space,
When the terminal is arranged so that the insertion direction is a horizontal direction and the contact portion is positioned on the lower side, a first insertion hole that opens upward and a first opening hole that opens downward are formed on the peripheral wall of the terminal. 2 insertion holes are formed,
The retainer includes a retainer body that is slidably mounted on the housing in a vertical direction when the housing is disposed so that the first space is located above the second space.
The retainer body includes a first restricting protrusion that restricts removal of the terminal inserted into the first space when the retainer body is slid to one side in the vertical direction, and the second space. A second restricting protrusion that restricts the insertion of the inserted terminal is formed,
When the retainer body is slid to the one side, the first restriction protrusion is inserted into one of the first insertion hole and the second insertion hole, and the second restriction protrusion is the other. A connector characterized by being inserted into the connector.   2. The connector according to claim 1, wherein the first space and the second space are formed in a zigzag shape when the housing is viewed along the insertion direction.

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