JP7122540B2 - connector - Google Patents

Description

The present disclosure relates to connectors.

2. Description of the Related Art Conventionally, as a connector, there is known a connector that includes a housing and terminals that are accommodated in the housing and electrically connected to terminals of a mating connector (see, for example, Patent Document 1).

In Patent Document 1, the terminal includes a terminal main body housed in a housing and a leg portion extending from the terminal main body. A mounting portion is formed. By arranging the mounting portion so as to be exposed from the housing while the terminal main body is accommodated in the housing, the connector and the cable (mounted member) can be easily connected.

JP 2016-110994 A

However, in the conventional technique described above, there is a risk that the leg extending from the terminal body may be deformed when the terminal is inserted into the housing. If the leg portion of the terminal is deformed in this way, the position of the mounting portion changes, and there is a possibility that the terminal cannot be mounted on the member to be mounted.

Accordingly, an object of the present disclosure is to obtain a connector that allows terminals to be more reliably mounted on a mounted member.

A connector according to the present disclosure includes a housing, and a terminal held by the housing, mounted on a mounted member arranged outside the housing, and inserted into a space formed in the housing . Further, the space includes a first space formed in the housing and having a first insertion port on one side in the insertion direction, and a space above the first space in the housing in the vertical direction crossing the insertion direction. a second space formed at a position and having a second insertion opening on one side in the insertion direction. Further, the terminal includes a first main body portion inserted into the first space, and a first leg portion extending downward in the vertical direction from the first insertion port side of the first main body portion. , a first mounting portion connected to the first leg portion and mounted on the mounted member; a second main body portion inserted into the second space; and the second main body. a second leg portion extending downward in the vertical direction from the second insertion port side of the portion; and a second mounting portion connected to the second leg portion and mounted on the mounted member. and a second terminal having a . The housing is formed with a plurality of grooves that open to one of the first insertion openings, and two of the plurality of grooves are a first leg holder that holds the first leg and the A second leg holder that holds the second leg.

Advantageous Effects of Invention According to the present disclosure, it is possible to obtain a connector that allows terminals to be more reliably mounted on a mounting member.

1 is a diagram showing an example of a connector set, and is a perspective view showing an exploded view of a plug connector mounted on a cable and a receptacle connector mounted on a circuit board; FIG. FIG. 4 is a diagram showing an example of a connector set, and is a perspective view showing a state in which a plug connector mounted on a cable and a receptacle connector mounted on a circuit board are fitted together. FIG. 4 is a view showing a state of contact between terminals on the plug connector side and terminals on the receptacle connector side of the connector set shown as an example, FIG. (b) is a perspective view showing a contact state between a second terminal on the plug connector side and a second terminal on the receptacle connector side. FIG. 10 is a perspective view showing another example of the connector set, disassembled into a plug connector mounted on a cable and a receptacle connector connected to an electric wire; FIG. 10 is a diagram showing another example of a connector set, and is a perspective view showing a state in which a plug connector mounted on a cable and a receptacle connector connected to an electric wire are fitted together; FIG. 10A is a view showing a contact state between terminals on the plug connector side and terminals on the receptacle connector side of a connector set shown as another example, FIG. (b) is a perspective view showing a contact state between a second terminal on the plug connector side and a terminal on the receptacle connector side. FIG. 10 is a perspective view showing a state before a plug connector included in the connector set shown as an example and another example is mounted on a cable; FIG. 10 is a diagram for explaining how the plug connector included in the connector set shown as an example and another example is mounted on a cable, where (a) is a perspective view of the state before mounting as seen from the back side, and (b) is a It is the perspective view which looked at the state after mounting from the back side. FIG. 4 is an exploded perspective view showing a plug connector included in the connector set shown as an example and another example; FIG. 4 is a view showing a plug housing included in the plug connector, (a) being a plan view and (b) being a rear view; FIG. 3 is a view showing a plug housing included in the plug connector, (a) is a front view, (b) is a rear view, (c) is a side view, and (d) is a side sectional view. FIG. 4 is a diagram showing a first terminal provided in the plug connector, (a) is a perspective view, (b) is a plan view, (c) is a side view, (d) is a rear view, and (e) is a , a front view, and (f) a rear view. FIG. 10 is a view showing a second terminal included in the plug connector, (a) is a perspective view, (b) is a plan view, (c) is a side view, (d) is a back view, and (e) is a , a front view, and (f) a rear view. FIG. 2 is a diagram showing a mounting state of the plug connector and the cable, in which (a) is a side cross-sectional view showing a state where the first terminal is mounted on the conductor portion of the cable, and (b) is a side sectional view showing the state where the second terminal is mounted on the conductor of the cable; It is a side cross-sectional view showing a state in which it is mounted on the part. FIG. 4 is an enlarged perspective view showing a leg holding portion of the plug connector; FIG. 10 is a diagram illustrating a state in which the first space of the plug connector is divided by the second leg; FIG. 4 is an enlarged perspective view showing a terminal guide groove of the plug connector; FIG. 4 is a perspective view showing a state before a receptacle connector included in the connector set shown as an example is mounted on a circuit board; FIG. 3 is an exploded perspective view of a receptacle connector included in the connector set shown as an example; FIG. 4A is a plan view of a receptacle housing included in the receptacle connector shown as an example, and FIG. 4B is a rear view thereof; FIG. 10 is a view showing a receptacle housing included in the receptacle connector shown as an example, (a) is a front view, (b) is a rear view, (c) is a side view, and (d) is a side sectional view. be. 1A is a perspective view, (b) is a plan view, (c) is a side view, (d) is a rear view, and FIG. (e) is a front view, and (f) is a rear view. FIG. 10 is a diagram showing a second terminal included in the receptacle connector shown as an example, wherein (a) is a perspective view, (b) is a plan view, (c) is a side view, (d) is a back view, (e) is a front view, and (f) is a rear view. FIG. 10 is a diagram showing a mounted state of the receptacle connector shown as an example and a circuit board, in which (a) is a side cross-sectional view showing a state in which the first terminal is mounted on the conductor portion of the circuit board; FIG. 4 is a side cross-sectional view showing a state in which two terminals are mounted on conductor portions of a circuit board; FIG. 11 is an exploded perspective view showing a receptacle connector and electric wires included in a connector set shown as another example; FIG. 10A is a perspective view of a receptacle housing included in a receptacle connector shown as another example, and FIG. FIG. 10A is a plan view of a receptacle housing included in the receptacle connector shown as another example, and FIG. FIG. 10 is a view showing a receptacle housing included in a receptacle connector shown as another example, wherein (a) is a front view, (b) is a rear view, (c) is a side view, and (d) is a side sectional view. It is a diagram. FIG. 10A is a perspective view of a retainer included in a receptacle connector shown as another example, and FIG. FIG. 10 is a view showing a retainer included in a receptacle connector shown as another example, wherein (a) is a plan view, (b) is a rear view, (c) is a front view, (d) is a rear view, (e) is a side view, and (f) is a side sectional view. FIG. 8 is a diagram schematically showing a terminal included in a receptacle connector shown as another example, where (a) is a perspective view seen from the front side and (b) is a perspective view seen from the back side; FIG. 10 is a view showing terminals provided in a receptacle connector shown as another example, (a) is a plan view, (b) is a side view, (c) is a rear view, (d) is a front view, (e) is a rear view. FIG. 11 is a perspective view showing a state in which a retainer is attached to a receptacle housing of a receptacle connector shown as another example so as to partially protrude. 34 is a perspective view showing a state in which the terminals are inserted into the receptacle housing in the state of FIG. 33; FIG. 35 is a perspective view showing the relationship between the retainer and the terminals in the state shown in FIG. 34; FIG. FIG. 4 is a perspective view showing the relationship between the retainer and the terminals when the retainer is accommodated in the receptacle housing; FIG. 35 is a side sectional view showing the relationship between the retainer and the upper terminal in the state shown in FIG. 34; FIG. 4 is a side cross-sectional view showing the relationship between the retainer and the upper terminals when the retainer is accommodated in the receptacle housing; FIG. 35 is a side sectional view showing the relationship between the retainer and the lower terminal in the state shown in FIG. 34; FIG. 5 is a side cross-sectional view showing the relationship between the retainer and the lower terminal when the retainer is accommodated in the receptacle housing;

Hereinafter, embodiments of the present disclosure will be described in detail with reference to the drawings. A plug connector 1 mounted on a cable 1A, a receptacle connector 2 mounted on a circuit board 2A, and a receptacle connector 3 to which electric wires 3A are connected are exemplified below.

Regarding the plug connector 1 and the receptacle connector 2, the direction orthogonal to the mounting surface of the mounted member (normal direction to the mounting surface) when mounted on the mounted member will be described as the up-down direction (Z direction) of the connector. . Also, the direction in which the terminals accommodated in the housing of each connector are arranged side by side is defined as the width direction (Y direction), and the direction in which the terminals are inserted into the housing of each connector is defined as the front-rear direction (X direction).

Furthermore, when the connector mounted on the member to be mounted is positioned on the upper side of the mounting surface, the upper side is defined as the upper side in the vertical direction. Define the direction forward.

Further, regarding the receptacle connector 3, the direction in which the terminals accommodated in the housing are arranged side by side is defined as the width direction (Y direction), and the direction in which the terminals are inserted into the housing is defined as the front-rear direction (X direction). A direction intersecting the width direction (Y direction) and the front-rear direction (X direction) will be described as the vertical direction (Z direction).

The side of the housing where the retainer is inserted is defined as the upper side in the vertical direction, and the side facing the mating connector when the connectors are mated is defined as the front side in the front-rear direction.

[Configuration example of connector set]
A plug connector (connector) 1 according to this embodiment is used in the connector set C1 shown in FIGS. 1 to 3, the connector set C2 shown in FIGS. 4 to 6, and the like.

The connector set C1, as shown in FIGS. 1 and 2, includes a receptacle connector 2 into which the plug connector 1 described above is fitted. The connector set C2, as shown in FIGS. A receptacle connector 3 to which the connector 1 is fitted is provided.

In this embodiment, the plug connector 1 is formed so as to be mountable on a cable (member to be connected) 1A such as FPC or FFC. That is, the plug connector 1 is mounted on the cable 1A by electrically connecting (mounting) the terminals 13 and 14 of the plug connector 1 to the conductor portion 151bA of the cable 1A.

On the other hand, the receptacle connector 2 is formed so as to be mountable on a circuit board (mounted member) 2A. That is, the receptacle connector 2 is mounted on the circuit board 2A by electrically connecting (mounting) the terminals 23 and 24 of the receptacle connector 2 to the conductor portion 2bA of the circuit board 2A.

Further, the receptacle connector 3 has a plurality of relay terminals 33, and each relay terminal 33 is electrically connected to the conductor portion 3bA of the electric wire 3A. In this embodiment, the receptacle connector 3 is electrically connected to the plurality of wires 3A by electrically connecting the relay terminal 33 to the conductor portion 3bA exposed from the covering portion 3aA of the wire 3A. there is

Thus, the connector set C1 electrically connects the cable 1A and the circuit board 2A by fitting the plug connector 1 into the receptacle connector 2 and electrically connecting the terminals 13, 14 and the terminals 23, 24. It is to be connected (see FIGS. 2 and 3).

On the other hand, in the connector set C2, the plug connector 1 is fitted into the receptacle connector 3 and the terminals 13, 14 and 33 are conductively connected, thereby electrically connecting the cable 1A and the electric wire 3A. (See FIGS. 5 and 6).

[Configuration example of cable 1A]
Next, an example of the configuration of the cable 1A on which the plug connector 1 is mounted will be described with reference to FIGS. 7 and 8. FIG.

The cable 1A has a sheet shape (flat plate shape) having a front surface (front surface: one surface) 1aA and a back surface (rear surface: other surface) 1bA, and the front surface 1aA is a mounting surface on which the plug connector 1 is mounted. . Furthermore, the cable 1A is flexible and can be bent (bent) in the cable thickness direction.

This cable 1A has a connection region 11A used for connection with the plug connector 1 and an extension region 12A through which the conductor layer 15bA extends for wiring with other circuits.

In this embodiment, the cable 1A is formed such that the connecting region 11A is positioned on one end side of the extension region 12A. When the plug connector 1 with the connecting region 11A connected thereto is fitted to the receptacle connector (the receptacle connector 2 or the receptacle connector 3), the extension region 12A is located on the opposite side of the receptacle connector.

Moreover, the cable 1A has a multi-layer structure and includes a support layer 15aA and a conductor layer 15bA supported by the support layer 15aA. The support layer 15aA is composed of a plurality of insulating films and covers the conductor layer 15bA. On the other hand, the conductor layer 15bA is a conductor film printed on the insulating film forming the support layer 15aA, and is a plurality of wiring patterns respectively corresponding to a plurality of terminals 13 and 14, which will be described later.

A plurality of conductor portions 151bA, which are conductor layers 15bA exposed from the support 15aA, are formed on the upper surface of the connecting region 11A. The plurality of conductor portions 151bA are formed in two rows in the front-rear direction, and the conductor portions 151bA in each row are arranged in the width direction (Y direction) at a predetermined pitch. Furthermore, in the present embodiment, the plurality of conductor portions 151bA are formed in a zigzag pattern when viewed from above (when viewed along the mounting surface 1Aa).

Such a structure can be formed by, for example, forming a conductor layer 15bA by printing a plurality of conductor films on the support layer 15aA, and covering the conductor layer 15bA with another support layer 15aA. At this time, if another support layer 15aA is provided so that the tip of the conductive layer 15bA is not covered, the cable 1A is formed in which the tip of the conductive layer 15bA is exposed to one side (upward in the vertical direction).

In addition, the method of forming the cable 1A is not limited to the above method, and can be formed by various methods.

A fixing portion 15cA to which a holding metal fitting 15 of the plug connector 1, which will be described later, is fixed is formed on the upper surface of the connecting region 11A. In this embodiment, the cable 1A includes wide portions 16A extending on both sides in the width direction (Y direction) of a plurality of conductor layers 15bA arranged in the width direction (Y direction). A pair of fixing portions 15cA are formed on the tip side (the front side in the front-rear direction) of the portion 16A. A fixing portion 15dA to which the housing 10 of the plug connector 1 is fixed is formed on the rear side of each wide portion 16A in the front-rear direction. The fixing portion 15cA and the fixing portion 15dA can be formed, for example, in the same manner as the conductor layer 15bA in the printing process of the conductor layer 15bA.

In addition, in the present embodiment, a slit 11aA that is elongated in the front-rear direction (X direction) and opens forward is formed in the connection region 11A of the cable 1A. Through holes 11bA penetrating in the cable thickness direction (vertical direction; Z direction) are formed on both sides of the slit 11aA in the connecting region 11A in the width direction (Y direction).

Furthermore, in this embodiment, the cable 1A is provided with a reinforcing plate 14A. The reinforcing plate 14A is made of glass epoxy resin, stainless steel, or the like, and sandwiches the connecting region 11A of the cable 1A with the plug connector 1 to reinforce the connecting region 11A of the cable 1A. .

In this embodiment, the reinforcing plate 14A has a shape corresponding to the shape of the connecting region 11A of the cable 1A. That is, the reinforcing plate 14A has a contour shape that is substantially the same as the contour shape of the connection region 11A in plan view (when viewed along the mounting surface 1Aa). Therefore, the reinforcing plate 14A is formed with a slit 14aA that is elongated in the front-rear direction (X direction) and opens forward, and a through hole 14bA that penetrates in the cable thickness direction (vertical direction; Z direction). The reinforcing plate 14A is attached to the back side of the connecting region 11A with an adhesive or the like in a state in which the slits 11aA and the slits 14aA communicate with each other and the through holes 11bA and 14bA communicate with each other.

At this time, it is preferable that the entire conductor portion 151bA overlaps the reinforcing plate 14A in plan view (when viewed along the mounting surface 1Aa). In this way, the entire conductor portion 151bA is supported by the reinforcing plate 14A, so that the conductor portion 151bA is prevented from bending in the vertical direction (Z direction) or bending in the width direction (Y direction). be able to.

[Configuration example of plug connector 1]
Next, an example of the configuration of the plug connector 1 will be described with reference to FIGS. 9 to 17. FIG.

The plug connector 1, as shown in FIG. I have.

By mounting the plug terminals 13 and 14 held by the plug housing 10 on the conductor portion 151bA of the cable 1A arranged outside the plug housing 10, the plug connector 1 is attached to the cable 1A as a member to be mounted. It is to be implemented. The plug terminals 13 and 14 are mounted on the conductor portion 151bA by soldering or the like. The holding metal fitting 15 is fixed to the fixing portion 15cA of the cable 1A by soldering or the like while being held by the plug housing 10, thereby fixing the plug housing 10 to the cable 1A.

The plug housing 10 has a rigid housing body 11, and can be made of, for example, an insulating resin material.

A lock portion 12 is formed on the upper portion of the housing body 11 to hold the plug housing 10 and the housing of the receptacle connector (receptacle connector 2 or receptacle connector 3) in a mated state or to release the mated state. It is

Thus, in this embodiment, the plug housing 10 includes the housing body 11 and the lock portion 12 formed on the housing body 11 .

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

A locking portion 12 is formed in the widthwise central portion of the upper portion of the ceiling wall 111 . Specifically, the lock portion 12 includes a lever portion 121 that is connected to the front end of the top wall 111 and extends rearward. The rear side of the lever portion 121 can move vertically relative to the top wall 111 (housing body 11). An operation portion 121a for operating the lever portion 121 is formed at the rear end of the lever portion 121, and an engaged portion formed on the receptacle connector is engaged at the central portion of the lever portion 121 in the front-rear direction. An engaging protrusion 121b is formed to fit.

In this embodiment, when the plug housing 10 and the housing of the receptacle connector are fitted together, the engaging protrusion 121b engages with the engaged portion to lock the housings of the respective connectors together (in the fitted state). maintenance). Then, by pushing down the operating portion 121a of the lever portion 121 to move the lever portion 121 downward, the engaging protrusion 121b is also moved downward, and the engagement with the engaged portion is released, thereby releasing each connector. housings can be disengaged from each other.

Furthermore, engaged portions 121c projecting outward in the width direction are formed on both sides in the width direction of the lower side of the operation portion 121a. The engaged portion 121c is engaged with the restricting protrusion 111d formed on the top wall 111, thereby preventing the rear end (operation portion 121a) of the lever portion 121 from going too far upward. . In this embodiment, guide wall portions 111a for guiding the fitting between the plug housing 10 and the housing of the receptacle connector are formed to extend upward on both sides in the width direction of the fitting operation portion 12 in the ceiling wall 111. there is

At the rear portion of the guide wall portion 111a, a restricting protrusion 111d that protrudes inward in the width direction is formed so that its tip overlaps with the engaged portion 121c in plan view. By doing so, when the operating portion 121a is lifted upward by a predetermined amount, the engaged portion 121c is engaged with the tip of the restricting protrusion 111d, and the upward movement of the lever portion 121 is restricted.

The ceiling wall 111 is also formed with a guide groove 111b for guiding the fitting of the plug housing 10 and the housing of the receptacle connector.

A projection 112a extending in the width direction and a projection 112b extending rearward in the front-rear direction from the center in the width direction of the projection 112a are provided at the front end of the lower side (back side) of the bottom wall 112. are formed so as to protrude downward. The projections 112a and 112b are formed on the bottom wall 112 so that the amount of projection is equal to or greater than the sum of the thickness of the cable 1A and the thickness of the reinforcing plate 14A.

By forming such projections 112 a and 112 b on the bottom wall 112 , a recess 112 c is formed on the lower surface of the bottom wall 112 . When the plug connector 1 is mounted on the cable 1A, the connecting region 11A to which the reinforcing plate 14A is attached is accommodated in the recess 112c (see FIG. 8(b)).

Thus, in this embodiment, the plug housing 10 has a pair of wall portions (top wall 111 and bottom wall 112) facing each other in the thickness direction of the housing (vertical direction: Z direction). A bottom wall 112, which is one of the pair of walls (top wall 111 and bottom wall 112), is formed with a recess 112c for accommodating the connection region 11A of the cable 1A. That is, the plug housing 10 has a receiving portion (recess 112b) for receiving the cable (mounted member) 1A on one wall portion (bottom wall 112b) in the housing thickness direction (vertical direction).

In addition, the protrusion 112b is formed to correspond to the slit 11aA and the slit 14aA, and by inserting the protrusion 112b into the slit 11aA and the slit 14aA, the displacement of the cable 1A in the width direction is suppressed. I'm trying Further, the projection 112a prevents the cable 1A from shifting forward.

The housing body 11 also has a partition wall 115 which is connected to a pair of side walls 113 and a front wall 114 and vertically partitions a space defined by the top wall 111, the bottom wall 112, the side walls 113, 113 and the front wall 114. It has

Further, the housing body 11 has a plurality of upper partition walls 116 connected to the ceiling wall 111, the partition wall 115, and the front wall 114. The upper partition walls 116 create a plurality of upper spaces partitioned by the partition walls 115. It is partitioned into a space of The housing main body 11 also includes a plurality of lower partition walls 117 connected to the bottom wall 112, the partition wall 115, and the front wall 114. The lower partition walls 117 form the lower partition partitioned by the partition walls 115. The space is divided into multiple spaces.

Further, the front wall 114 is formed with through holes 14 a that communicate with a plurality of spaces partitioned by the partition wall 115 , the upper partition wall 116 and the lower partition wall 117 . Thus, in this embodiment, the housing main body 11 is formed with a plurality of spaces penetrating in the front-rear direction. Then, the plug terminals 13 and 14 are press-fitted (inserted) into spaces penetrating in the front-rear direction.

In this embodiment, a plurality of spaces arranged side by side in the width direction (Y direction) are formed in two stages in the vertical direction (Z direction) in the housing body 11 . Furthermore, when the housing body 11 is viewed from the rear in the front-rear direction, a plurality of spaces are formed in a zigzag pattern. By doing so, the size of the plug connector 1 in the width direction is reduced.

Specifically, a plurality of spaces defined by a bottom wall 112, a partition wall 115, and a lower partition wall 117 are arranged side by side in the width direction (Y direction) on the lower side of the housing body 11 (mounting surface 1aA side). there is A space formed on the lower side of the housing main body 11 (on the side of the mounting surface 1aA) serves as a first space S1 into which a first plug terminal 13 (described later) of the plug terminals 13 and 14 is press-fitted (inserted). there is

On the other hand, above the housing body 11 (a position farther from the mounting surface 1aA than the first space S1), a space defined by the ceiling wall 111, the partition wall 115 and the upper partition wall 116 extends in the width direction (Y direction). Multiple are arranged side by side. A space formed on the upper side of the housing body 11 serves as a second space S2 into which a second plug terminal 14 (described later) of the plug terminals 13 and 14 is press-fitted (inserted).

Furthermore, in this embodiment, the upper partition 116 and the lower partition 117 are formed at positions shifted in the width direction. That is, the first space S1 and the second space S2 are formed so as to partially overlap each other in plan view. In other words, with the plug terminals 13 and 14 held by the housing 10 and mounted on the cable 1A, when the housing 10 is viewed along the normal direction (vertical direction) of the mounting surface 1aA, the first space S1 and the second space S2 are designed to overlap each other.

The first plug terminal 13 is press-fitted (inserted) forward from an opening on the rear end side of the first space S1, and the opening on the rear end side of the first space S1 serves as an insertion port. S1a. Further, the opening on the front end side of the first space S1 is smaller than the insertion opening S1a so that the first plug terminal 13 does not come off. That is, the front wall 114 restricts the forward movement of the first plug terminal 13 press-fitted (inserted) through the insertion opening S1a. An opening on the front end side of the first space S1 serves as an introduction port S1b for introducing a contact portion of a receptacle terminal of a receptacle connector, which will be described later, into the first space S1. A peripheral portion of the introduction port S1b is tapered so that the contact portion of the receptacle terminal can be easily introduced.

Similarly, the second plug terminal 14 is press-fitted (inserted) forward from the opening at the rear end of the second space S2, and the opening at the rear end of the second space S2 is inserted. It has a port S2a. In addition, the opening on the front end side of the second space S2 is smaller than the insertion opening S2a so that the second plug terminal 14 does not come off. That is, the front wall 114 restricts the forward movement of the second plug terminal 14 press-fitted (inserted) through the insertion opening S2a. The opening on the front end side of the second space S2 also serves as an introduction port S2b for introducing a contact portion of a receptacle terminal of a receptacle connector, which will be described later, into the second space S2. The peripheral portion of the introduction port S2b is also tapered so that the contact portion of the receptacle terminal can be easily introduced.

Further, a groove portion 111c that opens rearward and downward is formed in the lower portion of the ceiling wall 111 so as to communicate with the second space S2. The upper end of the side wall 144 of the upper plug terminal 14, which will be described later, is inserted into the groove 111c to guide the press-fitting (insertion) of the upper plug terminal 14 into the second space S2.

In this embodiment, as shown in FIG. 17, the grooves 111c are formed on both sides in the width direction of the second space S2, and each groove 111c is formed to extend from the insertion port S2a to the front wall 114. ing.

That is, the length of the groove portion 111c in the insertion direction (X direction) is set to be greater than or equal to the distance that the upper plug terminal 14 moves during the period from the start until the insertion into the groove portion 111c of the upper end of the side wall 134 is completed. is formed in Therefore, the portion of the upper end of the side wall 134 that is first inserted into the groove portion 111c is located between the start of insertion into the groove portion 111c and the completion of press-fitting (insertion) of the upper plug terminal 14 into the second space S2. It exists in the groove part 111c.

The groove portion 111c is formed so that the groove width (the length in the Y direction) is slightly wider than the plate thickness of the side wall 134. As shown in FIG.

Similarly, a groove portion 115a that opens rearward and downward is formed in the lower portion of the partition wall 115 so as to communicate with the first space S1. The upper end of the side wall 134 of the lower plug terminal 13, which will be described later, is inserted into the groove 115a to guide the press-fitting (insertion) of the lower plug terminal 13 into the first space S1.

In this embodiment, as shown in FIG. 17, the grooves 115a are also formed on both sides in the width direction of the first space S1, and each groove 115a is formed to extend from the insertion port S1a to the front wall 114. ing.

That is, the length of the groove portion 115a in the insertion direction (X direction) is set to be equal to or greater than the distance that the plug terminal 13 moves during the period from the start until the insertion into the groove portion 115a at the upper end of the side wall 134 is completed. formed. Therefore, the portion of the upper end of the side wall 134 that is first inserted into the groove portion 115a extends from the start of insertion into the groove portion 115a to the completion of press-fitting (insertion) of the lower plug terminal 13 into the first space S1. , in the groove 115a.

The groove portion 115a is formed such that the groove width (the length in the Y direction) is slightly wider than the plate thickness of the side wall 134. As shown in FIG.

Furthermore, in the present embodiment, the rear end of the partition wall 115 is formed with a groove portion 115b that extends in the vertical direction and whose ends are open to the first space S1 and the second space S2, respectively. Specifically, the groove portion 115b is vertically opposed to one of the two groove portions 111c (on the right side in FIGS. 16 and 17) of the two groove portions 111c formed to communicate with the single second space S2. is formed in

That is, as shown in FIG. 16, when the housing 10 is viewed from the rear in the front-rear direction, the groove portion 115b and the groove portion 111c on one side (the right side in FIG. 16) are arranged so as to be vertically aligned. there is The upper portion of the leg portion 141 of the second plug terminal 14 is inserted into the groove portion 115b when the press-fitting (insertion) is completed.

A groove portion 112d is formed at the rear end of the bottom wall 112 so as to extend in the vertical direction and open to the first space S1 at its upper end. Specifically, when the housing 10 is viewed from the rear in the front-rear direction, the groove 112d and the grooves 111c and 115b on one side (on the right side in FIG. 16) are arranged vertically in a straight line. The lower portion of the leg portion 141 of the second plug terminal 14 is inserted into the groove portion 112d when the press-fitting (insertion) is completed.

Further, the rear end of the bottom wall 112 is formed with a groove portion 112e that extends vertically and whose both ends are open to the first space S1 and to the lower side of the housing 10, respectively. Specifically, the groove portion 112e is vertically opposed to one of the two groove portions 115a (on the right side in FIGS. 16 and 17) of the two groove portions 115a formed so as to communicate with the one first space S1. is formed in

That is, as shown in FIG. 16, when the housing 10 is viewed from the rear in the front-rear direction, the groove portion 112e and the groove portion 115a on one side (on the right side in FIG. 16) are arranged so as to be vertically aligned. there is The leg portion 131 of the first plug terminal 13 is inserted into the groove portion 112e after the press-fitting (insertion) is completed.

A recess 112f is formed at the rear end of the bottom wall 112 so as to open downward and rearward and extend in the front-rear direction. The recess 112f accommodates the mounting piece (mounting portion) 132 of the first plug terminal 13 in the press-fitting (insertion) completed state.

In addition, the pair of side walls 113, 113 are formed with extension portions 113a, 113a extending rearward, respectively. 132 and 142 are accommodated in the concave portion 113b.

Thus, in this embodiment, the mounting pieces (mounting portions) 132 and 142 of the terminals 13 and 14 are mounted on the conductor portion 151bA of the cable 1A on the front side of the rear ends of the extension portions 113a and 113a. ing. Furthermore, in the present embodiment, the distal ends (rear ends) of the extended portions 113a, 113a are fixed to the fixing portion 15dA of the cable 1A. At this time, the connection region 11A of the cable 1A is sandwiched between the extension portions 113a, 113a and the reinforcing plate 14A.

In this way, when the cable 1A is moved in a direction away from the reinforcing plate 14A, it is possible to more reliably prevent the bond between the cable 1A and the reinforcing plate 14A from coming off. Furthermore, since the mounting pieces (mounting portions) 132 and 142 of the terminals 13 and 14 are positioned in front of the tips (rear ends) of the extension portions 113a and 113a, the terminals 13 and 14 may be damaged by the tilt of the cable 1A. Therefore, deformation of the legs 131 and 141 and the mounting pieces 132 and 142 can be suppressed. That is, the mounting portion of the terminals 13 and 14 and the cable 1A can be protected from the tilt of the cable 1A.

Further, at the front ends of the pair of side walls 113, 113, metal fitting mounting portions 113c, 113c for holding the metal fitting 15 are formed, respectively.

In the present embodiment, the metal fitting attachment portion 113c is connected to a concave portion 113d that opens outward in the vertical direction and the width direction, and is continuous with the inner side of the concave portion 113d in the width direction, and extends in the longitudinal direction of the main body portion 151 of the metal fitting 15. Slits 113e, 113e into which both ends are inserted are provided. Then, in a state in which the holding metal fitting 15 is held by the plug housing 10, the fixing piece 152 connected to the lower end of the main body portion 151 is fixed to the fixing portion 15cA of the cable 1A, thereby fixing the plug housing 10 to the cable 1A. ing.

Further, in this embodiment, the plug terminal includes a main body portion inserted into the space formed in the plug housing 10, a leg portion extending from the main body portion toward the mounting surface 1aA of the cable 1A, and a leg portion. and a mounting portion that is connected and mounted on the cable 1A.

Specifically, the plug terminal includes a first plug terminal 13 that is press-fitted (inserted) into a first space S1 formed on the lower side of the housing body 11 (mounting surface 1aA side). Further, the plug terminal includes a second plug terminal 14 that is press-fitted (inserted) into a second space S2 formed above the housing body 11 (a position farther from the mounting surface 1aA than the first space S1). .

In the present embodiment, the first plug terminals 13 are electrically conductive and arranged side by side in the width direction (Y direction) of the plug housing 10 . As shown in FIG. 12, the first plug terminal 13 has a shape obtained by bending a strip-shaped metal member in the plate thickness direction. It has a substantially U shape in the folded state (see FIGS. 12(e) and 12(f)). Such a first plug terminal 13 can be formed, for example, by bending a strip-shaped metal member.

The first plug terminal 13 also includes a first body portion 130 that is press-fitted (inserted) into the first space S1. Further, the first plug terminal 13 includes a first leg portion 131 extending from the first body portion 130 toward the mounting surface 1aA, and a first leg portion 131 connected to the first leg portion 131 and mounted on the cable 1A. A mounting piece (first mounting portion) 132 is provided.

The first main body portion 130 includes a bottom wall 133 and side walls 134 connected to both ends of the bottom wall 133 in the width direction (Y direction).

The bottom wall 133 includes a bottom wall main body 135 connected to the lower end of the side wall 134 and a contact protection portion 136 connected to the front end of the bottom wall main body 135 and projecting forward. The contact protection portion 136 prevents the contact portion 130a of the first plug terminal 13 from coming into contact with the housing body 11 when the first body portion 130 is press-fitted (inserted) into the first space S1. be.

Further, the bottom wall main body 135 and the contact protection portion 136 are formed with restricting pieces 135a and 136a projecting outward from both ends in the width direction (Y direction), respectively. When the first body portion 130 is press-fitted (inserted) into the first space S1, the restriction pieces 135a and 136a prevent the first body portion 130 from being obliquely press-fitted (inserted). I have to.

The side wall 134 includes a side wall body 137 whose lower end is connected to the bottom wall body 135, and a contact piece 138 that is connected to the front end of the side wall body 137 so as to be elastically deformable and contacts the contact portion of the receptacle connector. there is

A regulating projection 137a is formed at the upper end of the side wall main body 137, and the regulating projection 137a prevents the first main body 130 from floating when the first main body 130 is press-fitted (inserted) into the first space S1. It is designed to be suppressed from being put away.

In addition, the contact piece 138 includes an inner bent piece 138a connected to the front end of the side wall main body 137 so as to bend inward in the width direction, and an inner bent piece 138a connected to the front end of the inner bent piece 138a to bend inward in the width direction. and an outer bending piece 138b.

In this embodiment, the contact piece 138 is connected to each of the pair of side wall main bodies 137, 137, and is formed substantially line-symmetrically in a plan view. That is, the pair of contact pieces 138, 138 are composed of inner bent pieces 138a, 138a that are bent toward each other toward the front, and outer bent pieces 138b, 138b that are bent away from each other toward the front. , is equipped with

The contact portion of the receptacle connector is clamped at the portion where the pair of contact pieces 138, 138 come closest (the continuous portion between the inner bent piece 138a and the outer bent piece 138b) (Fig. 3(a)). and FIG. 6(b)). Thus, in this embodiment, the pair of contact pieces 138 , 138 function as the contact portion 130 a of the first plug terminal 13 . The pair of outer bent pieces 138b function as guides for smoothly introducing the contact portions of the receptacle connector.

Furthermore, in the present embodiment, an extension wall 139 projecting rearward is connected to the rear end of one side wall body 137 of the pair of side wall bodies 137, 137, and the first body portion 130 is is shaped to protrude backwards.

A press-fitting projection 139a is formed at the upper end of the extension wall 139, and the first body portion 130 is press-fitted into the first space S1 by making the housing body 11 bite into the press-fitting projection 139a.

In this embodiment, the upper end of the side wall 134 of the first plug terminal 13 is inserted to form the groove 115a that guides the press-fitting (insertion) of the first plug terminal 13 into the first space S1. Therefore, even when the first plug terminal 13 is press-fitted (inserted) into the first space S1 by pressing one side wall 134 of the first main body portion 130 that protrudes rearward, the first plug terminal 13 does not move. Positional deviation is suppressed. As a result, the first plug terminal 13 can be press-fitted (inserted) into the first space S1 more smoothly and more accurately.

The first leg portion 131 extends downward (cable 1A: mounted member) from the rear end portion of the extension wall 139 . Thus, in the present embodiment, the first leg portion 131 extends in the thickness direction of the housing from the first body portion 130 that is press-fitted (inserted) into the first space S1. A first mounting piece 132 is connected to the lower end of the first leg portion 131 so as to protrude forward.

At this time, the first leg portion 131 and the first mounting piece 132 are formed in a thin plate shape (plate shape), and are formed such that the plate thickness direction is substantially the same as the plate thickness direction of the side wall main body 137 . ing.

Therefore, when the first body portion 130 is inserted into the first space S1 and the first mounting piece (first mounting portion) 132 is mounted on the cable (mounted member) 1A, the plate thickness direction of the first leg portion 131 is is the width direction (Y direction). That is, when the plug connector 1 is mounted on the cable 1A, the plate thickness direction of the first leg portion 131 intersects the insertion direction of the first body portion 130 into the first space S1 and the normal direction of the mounting surface 1aA. direction.

On the other hand, the second plug terminals 14 also have electrical conductivity, and are arranged side by side in the width direction (Y direction) of the plug housing 10 . As shown in FIG. 13, the second plug terminal 14 has a shape obtained by bending a strip-shaped metal member in the plate thickness direction. It has a substantially U shape in the folded state (see FIGS. 13(e) and 13(f)). Such a second plug terminal 14 can also be formed, for example, by bending a strip-shaped metal member.

The second plug terminal 14 also includes a second body portion 140 that is press-fitted (inserted) into the second space S2. Further, the second plug terminal 14 includes a second leg portion 141 extending from the second body portion 140 toward the mounting surface 1aA, and a second leg portion 141 connected to the second leg portion 141 and mounted on the cable 1A. A mounting piece (second mounting portion) 142 is provided.

The second body portion 140 includes a bottom wall 143 and side walls 144 connected to both ends of the bottom wall 143 in the width direction (Y direction).

The bottom wall 143 includes a bottom wall main body 145 connected to the lower ends of the side walls 144 and a contact protection portion 146 connected to the front end of the bottom wall main body 145 and protruding forward. The contact protection portion 146 prevents the contact portion 140a of the second plug terminal 14 from coming into contact with the housing body 11 when the second body portion 140 is press-fitted (inserted) into the second space S2. be.

Further, the bottom wall main body 145 and the contact protection portion 146 are formed with restriction pieces 145a and 146a projecting outward from both ends in the width direction (Y direction), respectively. When the second body portion 140 is press-fitted (inserted) into the second space S2, the restriction pieces 145a and 146a prevent the second body portion 140 from being obliquely press-fitted (inserted). I have to.

The side wall 144 includes a side wall body 147 whose lower end is connected to the bottom wall body 145, and a contact piece 148 that is connected to the front end of the side wall body 147 so as to be elastically deformable and contacts the contact portion of the receptacle connector. there is

A regulating projection 147a is formed at the upper end of the side wall main body 147, and the regulating projection 147a prevents the second main body 140 from floating when the second main body 140 is press-fitted (inserted) into the second space S2. It is designed to be suppressed from being put away.

In addition, the contact piece 148 includes an inner bent piece 148a connected to the front end of the side wall body 147 so as to bend inward in the width direction, and an inner bent piece 148a connected to the front end of the inner bent piece 148a to bend inward in the width direction. and an outer bending piece 148b.

In this embodiment, the contact piece 148 is connected to each of the pair of side wall bodies 147, 147, and is formed substantially line-symmetrically in a plan view. That is, the pair of contact pieces 148, 148 are composed of inner bent pieces 148a, 148a bent in directions that approach each other toward the front, and outer bent pieces 148b, 148b that are bent in directions away from each other toward the front. , is equipped with

The contact portion of the receptacle connector is clamped at the portion where the pair of contact pieces 148, 148 are closest (the continuous portion between the inner bent piece 148a and the outer bent piece 148b) (FIG. 3(b)). and FIG. 6(b)). Thus, in this embodiment, the pair of contact pieces 148 , 148 function as the contact portion 140 a of the second plug terminal 14 . The pair of outer bent pieces 148b function as guides for smoothly introducing the contact portions of the receptacle connector.

Furthermore, in the present embodiment, an extension wall 149 projecting rearward is connected to the rear end of one side wall body 147 of the pair of side wall bodies 147, 147, and the second body portion 140 is is shaped to protrude backwards.

A press-fitting protrusion 149a is formed at the upper end of the extension wall 149, and the second body portion 140 is press-fitted into the second space S2 by making the housing body 11 bite into the press-fitting protrusion 149a.

In this embodiment, the upper end of the side wall 144 of the second plug terminal 14 is inserted to form a groove 111c that guides the press-fitting (insertion) of the second plug terminal 14 into the second space S2. Therefore, even when the second plug terminal 14 is press-fitted (inserted) into the second space S2 by pressing the one-side side wall 144 protruding rearward of the second body portion 140, the second plug terminal 14 does not move. Positional deviation is suppressed. As a result, the second plug terminal 14 can be press-fitted (inserted) into the second space S2 more smoothly and more accurately.

A second leg portion 141 extends downward (cable 1A: mounted member) from the rear end portion of the extension wall 149 . The second leg portion 141 is longer than the first leg portion 131 in the vertical direction. Thus, in this embodiment, the second leg portion 141 extends in the thickness direction of the housing from the second body portion 140 that is press-fitted (inserted) into the second space S2. A second mounting piece 142 is connected to the lower end of the second leg portion 141 so as to protrude rearward.

Thus, in the present embodiment, the first mounting piece (first mounting portion) 132 protrudes forward (one side) in the front-rear direction (the direction of insertion of the main body portion into the space). It is connected to the section 131 . In addition, a second mounting piece (second mounting portion) 142 is connected to the second leg portion 141 so as to protrude rearward (the other side) in the front-rear direction (X direction: the direction in which the main body is inserted into the space). there is

Also, the first leg portion 131 and the second leg portion 141 are positioned substantially at the same position in the front-rear direction when the first body portion 130 and the second body portion 140 are inserted into the first space S1 and the second space S2. (See FIG. 14). The first leg portion 131 and the second leg portion 141 are positioned at approximately half a pitch in the width direction when the first body portion 130 and the second body portion 140 are inserted into the first space S1 and the second space S2. I try to shift only.

Therefore, in this embodiment, the mounting portions (the first mounting piece 132 and the second mounting piece 142) are arranged in a staggered manner while the plug housing 10 holds the plurality of plug terminals.

Further, the first mounting piece 132 is accommodated in the recess 112f formed in the rear end portion of the bottom wall 112 with the first body portion 130 inserted into the first space S1. On the other hand, the second mounting piece 142 is positioned behind the insertion opening S1a of the second space S2 when the second body portion 140 is inserted into the second space S2.

Therefore, the first mounting piece 132 overlaps the plug housing 10 in plan view in a state in which the plurality of plug terminals are held by the plug housing 10 and mounted on the cable 1A. On the other hand, the second mounting piece 142 is exposed from the plug housing 10 in plan view in a state where the plurality of plug terminals are held by the plug housing 10 and mounted on the cable 1A.

That is, with the plug connector 1 mounted on the cable 1A, when the plug housing 10 is viewed along the normal direction of the mounting surface 1aA, one of the first mounting piece 132 and the second mounting piece 142 is mounted. A mounting piece (mounting portion) overlaps the plug housing 10 .

As described above, in this embodiment, the mounting portions are arranged in a staggered manner on both sides of the insertion opening (rear edge) of the space while the plurality of plug terminals are held by the plug housing. .

The second leg portion 141 and the second mounting piece 142 are also formed in a thin plate shape (plate shape), and are formed such that the plate thickness direction is substantially the same as the plate thickness direction of the side wall main body 147 . there is

Therefore, when the second body portion 140 is inserted into the second space S2 and the second mounting piece (second mounting portion) 142 is mounted on the cable (mounted member) 1A, the plate thickness direction of the second leg portion 141 is is the width direction (Y direction). That is, when the plug connector 1 is mounted on the cable 1A, the plate thickness direction of the second leg portion 141 intersects the insertion direction of the second body portion 140 into the second space S2 and the normal direction of the mounting surface 1aA. direction.

Further, in the present embodiment, when the main body portions 130 and 140 of the terminals 13 and 14 are inserted into the spaces S1 and S2, the first insertion opening S1a can be viewed from the rear in the front-rear direction. is divided into two regions R1 and R2 (see FIG. 16). That is, when the plug housing is viewed along the direction of insertion into the spaces S1 and S2 of the main bodies 130 and 140 with the plug connector 1 mounted on the cable 1A, the first insertion opening S1a of the first space S1 is It is divided into two regions R1 and R2 by the second leg 141 .

Furthermore, in the present embodiment, the first leg portion 131 is inserted into the groove portion 112e in the width direction (Y direction; plate thickness direction) at the completion position of press-fitting (insertion) of the first main body portion 130 into the first space S1. movement to is kept under control. That is, the groove 112 e formed in the bottom wall 112 of the housing body 11 functions as a leg holding portion 118 that holds the first leg 131 . Thus, the plug connector 1 is connected to the plug housing 10 and includes the leg holding portion 118 that holds the first leg portion 131 . In this embodiment, the leg holding portion 118 is formed integrally with the plug housing 10 . The leg holding portion may be formed by connecting a member separate from the plug housing 10 to the plug housing 10 .

Further, at the position where the second main body portion 140 is press-fitted (inserted) into the second space S2, the second leg portion 141 is inserted into the groove portion 115b and the groove portion 112d to extend in the width direction (Y direction; plate thickness direction). It keeps movement restricted. That is, the groove 115 b formed in the partition wall 115 of the housing body 11 and the groove 112 e formed in the bottom wall 112 function as the leg holder 119 that holds the second leg 141 . Thus, the plug connector 1 is connected to the plug housing 10 and has the leg holding portion 119 that holds the second leg portion 141 . In this embodiment, the leg holding portion 119 is also formed integrally with the plug housing 10, but may be formed separately.

By doing so, when the terminals 13 and 14 are press-fitted (inserted) into the spaces S1 and S2 of the body portions 130 and 140, and when the terminals 13 and 14 press-fitted (inserted) into the spaces S1 and S2 are mounted on the cable 1A, The leg portions 131 and 141 are prevented from being deformed at times.

[Configuration example of receptacle connector 2]
Next, an example of the configuration of the receptacle connector 2 will be described with reference to FIGS. 18 to 24. FIG.

The receptacle connector 2 includes a receptacle housing (housing) 20 and receptacle terminals (terminals) 23 and 24 held by the receptacle housing 20, as shown in FIGS. The receptacle connector 2 also has a holding metal fitting 25 held by the receptacle housing 20 .

By mounting the receptacle terminals 23 and 24 held by the receptacle housing 20 on the conductor portion 2bA of the circuit board 2A arranged outside the receptacle housing 20, the receptacle connector 2 is a circuit board as a member to be mounted. 2A. The receptacle terminals 23 and 24 are also mounted on the conductor portion 2bA by soldering or the like. The holding metal fittings 25 are for fixing the receptacle housing 20 to the circuit board 2A by being fixed to the fixing portion 2cA of the circuit board 2A by soldering or the like while being held by the receptacle housing 20. .

The circuit board 2A has a substantially rectangular plate shape, and includes a board body 2aA made of a resin material or the like having rigidity and insulating properties. A conductor portion 2bA and a fixing portion 2cA are formed so as to be exposed on the surface 21aA of the substrate main body 2aA. Thus, in this embodiment, the surface 21aA of the substrate main body 2aA is the mounting surface.

The receptacle housing 20 has a rigid housing body 21, and can be made of, for example, an insulating resin material.

Further, on the upper part of the housing body 21, there is formed a lock portion inserting portion 22 into which the lock portion 12 is inserted to hold the plug housing 10 and the receptacle housing 20 in the mated state or to release the mated state. ing.

As described above, in this embodiment, the receptacle housing 20 includes the housing body 21 and the lock insertion portion 22 formed in the housing body 21 .

The housing main body 21 includes a top wall 211, a bottom wall 212, a pair of side walls 213 connecting both ends of the top wall 211 and the bottom wall 212 in the width direction (Y direction), the top wall 211, the bottom wall 212 and the bottom wall 212. and a rear wall 214 connected to rear ends of the side walls 213 , 213 .

A locking portion inserting portion 22 is formed in the central portion of the ceiling wall 211 in the width direction. Specifically, the locking portion inserting portion 22 is formed inside a portion of the top wall 211 that protrudes upward, and includes an accommodating portion 221 that accommodates the lever portion 121 . An engaged portion (engagement concave portion) 221a with which the engagement protrusion 121b of the lock portion 12 engages is formed in the center portion of the accommodation portion 221 in the front-rear direction. Further, guide grooves 221c into which the guide wall portions 111a are inserted are formed on both sides in the width direction of the accommodation portion 221 .

The ceiling wall 211 is formed with a guide protrusion 211b that is accommodated in the guide groove 111b.

In addition, a plurality of spaces penetrating in the front-rear direction are formed in the rear wall 214 . In this embodiment, a plurality of spaces arranged side by side in the width direction (Y direction) are formed in two stages in the vertical direction (Z direction). Furthermore, when the housing body 21 is viewed from the rear in the front-rear direction, a plurality of spaces are formed in a zigzag pattern. By doing so, the size of the receptacle connector 2 in the width direction is reduced.

The receptacle terminals 23 and 24 are press-fitted (inserted) into the space penetrating in the longitudinal direction.

Specifically, the space formed on the lower side of the housing body 21 (on the side of the mounting surface 21aA) serves as a first space S3 into which a first receptacle terminal 23 (described later) of the receptacle terminals 23 and 24 is press-fitted (inserted). It's becoming

On the other hand, a space formed on the upper side of the housing body 21 (a position farther from the mounting surface 21aA than the first space S3) is press-fitted (inserted) with a second receptacle terminal 24, which will be described later, out of the receptacle terminals 23 and 24. It is the second space S4.

The first receptacle terminal 23 is press-fitted (inserted) forward from the opening at the rear end of the first space S3, and the opening at the rear end of the first space S3 serves as an insertion port. S3a. Similarly, the second receptacle terminal 24 is press-fitted (inserted) forward from the opening at the rear end of the second space S4, and the opening at the rear end of the second space S4 is inserted. It has a port S4a.

Further, the housing body 21 is formed with a fitting space S5 that opens forward (on the side of the plug connector 1). The fitting space S5 is a space into which the housing body 11 of the plug housing 10 is inserted and fitted, and is defined by a top wall 211, a bottom wall 212, a pair of side walls 213, 213 and a rear wall 214. As shown in FIG. Therefore, the first space S3 and the second space S4 are formed so as to communicate with the fitting space S5.

Furthermore, in the present embodiment, a plurality of ridges 214a extending in the vertical direction and protruding rearward are arranged side by side in the width direction at the rear end of the rear wall 214 . Specifically, the ridge 214a is formed between the first space S3 and the second space S4 that are adjacent in the width direction.

A recess 212a is formed at the rear end of the bottom wall 212 to open downward and rearward and extend in the front-rear direction. The recess 212a accommodates the mounting piece (mounting portion) 242 of the second receptacle terminal 24 in the press-fitted (inserted) state.

Further, the pair of side walls 213, 213 are formed with holding metal fitting mounting portions 213a, 213a for holding the holding metal fitting 25, respectively.

In the present embodiment, the metal fitting attachment portion 213a includes a concave portion 213b that opens outward in the vertical direction and width direction, and is continuous with the inner side of the concave portion 213b in the width direction so as to extend in the longitudinal direction of the main body portion 251 of the metal fitting 25. Slits 213c, 213c into which both ends are inserted are provided. Then, in a state in which the holding metal fittings 25 are held on the receptacle housing 20, the fixing piece 252 connected to the lower end of the main body portion 251 is fixed to the fixing portion 2cA of the circuit board 2A, whereby the receptacle housing 20 is attached to the circuit board 2A. I have it fixed.

Further, in this embodiment, the receptacle terminal includes a main body portion inserted into the space formed in the receptacle housing 20, a leg portion extending from the main body portion toward the mounting surface 21aA of the circuit board 2A, and a leg portion. and a mounting portion connected to and mounted on the circuit board 2A.

Specifically, the receptacle terminal includes a first receptacle terminal 23 that is press-fitted (inserted) into a first space S3 formed on the lower side of the housing body 21 (mounting surface 21aA side). Further, the receptacle terminal includes a second receptacle terminal 24 that is press-fitted (inserted) into a second space S4 formed above the housing body 21 (a position farther from the mounting surface 21aA than the first space S3). .

In the present embodiment, the first receptacle terminals 23 are electrically conductive and arranged side by side in the width direction (Y direction) of the receptacle housing 20 . As shown in FIG. 22, the first receptacle terminal 23 is formed in a thin plate shape, and has a first space formed in the housing body 21 with the plate thickness direction substantially aligned with the width direction (Y direction). It is press-fitted (inserted) into S3 from the rear. Such a first receptacle terminal 23 can be formed, for example, by stamping a thin sheet metal.

Further, the first receptacle terminal 23 has a first body portion 230 that is press-fitted (inserted) into the first space S3. Further, the first receptacle terminal 23 includes a first leg portion 231 extending from the first body portion 230 toward the mounting surface 21aA, and a first leg portion 231 connected to the first leg portion 231 and mounted on the circuit board 2A. 1 mounting piece (first mounting portion) 232 is provided.

A substantially rod-shaped contact portion 230a is formed at the front end of the first body portion 230 so as to protrude forward. Press-fit projections 230b are formed at the upper and lower ends of the first body portion 230, and the first body portion 230 is press-fitted into the first space S3 by making the housing body 21 bite into the press-fit projections 230b. ing. The contact portion 230a is arranged in the fitting space S5 while the first body portion 230 is press-fitted (inserted) into the first space S3.

Further, in the present embodiment, the first leg portion 231 extends downward from the rear end portion of the first main body portion 230 (circuit board 2A: mounted member). Specifically, the first leg portion 231 has a crank-like bent shape, and the lower end thereof is positioned rearward of the first main body portion 230 . As described above, in the present embodiment, the first leg portion 231 extends in the housing thickness direction (vertical direction) from the first main body portion 230 that is press-fitted (inserted) into the first space S3. A first mounting piece 232 is connected to the lower end of the first leg portion 231 so as to protrude rearward.

On the other hand, the second receptacle terminals 14 also have conductivity, and are arranged in parallel in the width direction (Y direction) of the receptacle housing 20 . As shown in FIG. 23, the second receptacle terminal 24 is formed in the shape of a thin plate. It is press-fitted (inserted) into S4 from the rear. Such a second receptacle terminal 24 can also be formed, for example, by punching a thin sheet metal.

The second receptacle terminal 24 also includes a second main body portion 240 that is press-fitted (inserted) into the second space S4. Further, the second receptacle terminal 24 includes a second leg portion 241 extending from the second body portion 240 toward the mounting surface 21aA, and a second leg portion 241 connected to the second leg portion 241 and mounted on the circuit board 2A. Two mounting pieces (second mounting portion) 242 are provided.

A substantially rod-shaped contact portion 240a is formed at the front end of the second body portion 240 so as to protrude forward. Press-fit projections 240b are formed at the upper and lower ends of the second body portion 240, and the second body portion 240 is press-fitted into the second space S4 by making the housing body 21 bite into the press-fit projections 240b. ing. With the second body portion 240 press-fitted (inserted) into the second space S4, the contact portion 240a is arranged in the fitting space S5.

Further, in the present embodiment, the second leg portion 241 extends substantially linearly from the rear end portion of the second body portion 240 downward (circuit board 2A: mounted member). As described above, in the present embodiment, the second leg portion 241 extends in the housing thickness direction (vertical direction) from the second body portion 240 that is press-fitted (inserted) into the second space S4. The second leg portion 241 is longer than the first leg portion 231 in the vertical direction. A first mounting piece 232 is connected to the lower end of the second leg portion 241 so as to protrude forward.

Thus, in the present embodiment, the second mounting piece (second mounting portion) 242 protrudes forward (one side) in the front-rear direction (the direction of insertion of the main body portion into the space). It is connected to the portion 241 . In addition, a first mounting piece (first mounting portion) 232 is connected to the first leg portion 231 so as to protrude rearward (the other side) in the front-rear direction (the X direction: the direction in which the main body is inserted into the space). there is

That is, the mounting portions (the first mounting piece 232 and the second mounting piece 242) are arranged in a staggered manner while the receptacle housing 20 holds the plurality of receptacle terminals.

Further, the second mounting piece 242 is accommodated in the recess 212a formed in the rear end portion of the bottom wall 212 with the second body portion 240 inserted into the second space S4. On the other hand, the first mounting piece 232 is positioned behind the insertion opening S3a of the first space S3 when the first body portion 230 is inserted into the first space S3.

Therefore, the second mounting piece 242 overlaps the receptacle housing 20 in plan view in a state where the plurality of receptacle terminals are held by the receptacle housing 20 and mounted on the circuit board 2A. On the other hand, the first mounting piece 232 is exposed from the receptacle housing 20 in plan view in a state in which the plurality of receptacle terminals are held by the receptacle housing 20 and mounted on the circuit board 2A.

That is, when the receptacle connector 1 is mounted on the circuit board 2A and the receptacle housing 20 is viewed along the normal direction of the mounting surface 21aA, one of the first mounting piece 232 and the second mounting piece 242 is mounted. The mounting piece (mounting portion) of the is overlapped with the receptacle housing 20 .

As described above, in this embodiment, the mounting portions are arranged in a staggered manner on both sides of the insertion opening (rear edge) of the space while the plurality of receptacle terminals are held by the receptacle housing. .

Furthermore, in the present embodiment, when the first body portion 230 is press-fitted (inserted) into the first space S3, the first leg portion 231 is positioned between the protrusions 214a in the width direction (Y direction; plate thickness direction). movement to is kept under control. That is, the ridge 214 a formed on the rear wall 214 of the housing body 21 functions as a leg holder 216 that holds the first leg 231 . Thus, the receptacle connector 2 is connected to the receptacle housing 20 and has the leg holding portion 216 that holds the first leg portion 231 . In this embodiment, the leg holder 216 is formed integrally with the receptacle housing 20 . The leg holding portion may be formed by connecting a member separate from the receptacle housing 20 to the receptacle housing 20 .

Further, at the position where the second body portion 240 has been press-fitted (inserted) into the second space S4, the movement of the second leg portion 241 in the width direction (Y direction; plate thickness direction) is restricted between the protrusions 214a. It is designed to be held in a That is, the ridge 214 a formed on the rear wall 214 of the housing body 21 functions as a leg holder 217 that holds the second leg 241 . Thus, the receptacle connector 2 is connected to the receptacle housing 20 and includes the leg holder 217 that holds the second leg 241 . In this embodiment, the leg holding portion 217 is also formed integrally with the receptacle housing 20, but may be formed separately.

By doing so, deformation of the leg portions 231 and 241 is suppressed when the terminals 23 and 24 are press-fitted (inserted) into the spaces S3 and S4 of the body portions 230 and 240, respectively.

When the above-described plug connector 1 is fitted into the receptacle connector 2 configured as described above, the locking portion 12 of the plug housing 10 is inserted into the locking portion inserting portion 22 of the receptacle housing 20, and the housing body 11 extends into the fitting space S5. will be inserted into the

At this time, the engaging projection 121b of the lever portion 121 is pressed downward by the top wall 211 of the receptacle housing 20. As shown in FIG. In this way, when the engaging projection 121b is pressed downward by the top wall 211, the rear end portion (operation portion 121a) of the lever portion 121 is elastically deformed to move downward, and the engaging projection 121b is pushed downward. can move to the far side of the lock part insertion part 22.例文帳に追加

Then, when the engaging projection 121b is moved to the far side of the lock portion insertion portion 22, the downward pressure of the engaging projection 121b by the top wall 211 is released, and the elastic restoring force of the lever portion 121 engages the engaging projection 121b. The protrusion 121b moves upward. When the engaging projection 121b moves upward, it engages with the engaged portion 221a formed on the receptacle connector 2, and the plug connector 1 and the receptacle connector 2 are locked in a fitted state. become.

Also, while the plug connector 1 is being fitted to the receptacle connector 2, the tip of the contact portion 230a of the first receptacle terminal 23 is introduced from the inlet S1b into the first space S1 formed in the plug housing 10, 1 contacts the contact portion 130 a of the plug terminal 13 . In the present embodiment, the substantially bar-shaped contact portion 230a is inserted between the pair of contact pieces 138, 138 and sandwiched between the pair of contact pieces 138, 138, thereby connecting the first plug terminal 13 and the first receptacle. It is electrically connected to the terminal 23 .

Similarly, the tip of the contact portion 240a of the second receptacle terminal 24 is introduced from the inlet S2b into the second space S2 formed in the plug housing 10 and contacts the contact portion 140a of the second plug terminal 14. As shown in FIG. In the present embodiment, the substantially bar-shaped contact portion 240a is inserted between the pair of contact pieces 238, 238 and sandwiched between the pair of contact pieces 238, 238, thereby connecting the second plug terminal 14 and the second receptacle. It is electrically connected to the terminal 24 .

By fitting the plug connector 1 into the receptacle connector 2 and electrically connecting the terminals 13 and 14 with the terminals 23 and 24, the connector set C1 electrically connects the cable 1A and the circuit board 2A. is formed.

On the other hand, when removing the plug connector 1 from the receptacle connector 2, first, the operating portion 121a of the lever portion 121 is pushed down to move the lever portion 121 downward. By doing so, the engaging projection 121b also moves downward, and the engagement between the engaging projection 121b and the engaged portion 221a is released. When the plug connector 1 is pulled in the removal direction with respect to the receptacle connector 2 in a state in which the engagement between the engaging protrusion 121b and the engaged portion 221a is released, the plug connector 1 is removed from the receptacle connector 2. relative movement in the direction. When the plug connector 1 is moved relative to the receptacle connector 2 in the removal direction in this manner, first the terminals are disconnected from each other, and then the housings are disconnected from each other. Thus, the plug connector 1 is removed from the receptacle connector 2.

[Configuration example of receptacle connector 3]
Next, an example of the configuration of the receptacle connector 3 will be described with reference to FIGS. 25 to 40. FIG.

As shown in FIG. 25, the receptacle connector 3 includes a plurality of relay terminals 33 to which electric wires 3A are connected, and a receptacle housing 30 having a plurality of spaces into which the relay terminals 33 are inserted. Further, the receptacle connector 3 includes a retainer 34 attached to the receptacle housing 30 to prevent the relay terminal 33 from coming off the receptacle housing 30 .

The receptacle housing 30 has rigidity and can be formed using an insulating resin material, for example.

25 and 26, the receptacle housing 30 includes a substantially rectangular parallelepiped front housing 31 and a substantially rectangular parallelepiped rear housing 32 connected to the rear end of the front housing 31. there is In this embodiment, the rear housing 32 is formed one size smaller than the front housing 31, and the receptacle housing 30 as a whole has a shape like connecting two rectangular parallelepipeds having different sizes. .

The front housing 31 includes a top wall 311, a bottom wall 312, a pair of side walls 313 connecting both ends of the top wall 311 and the bottom wall 312 in the width direction (Y direction), the top wall 311, the bottom wall 312 and and a rear wall 314 connected to rear ends of the side walls 313 , 313 .

The locking portion 12 is inserted into the center portion of the top wall 311 in the width direction. Specifically, a housing portion 311 a for housing the lever portion 121 is formed in the substantially central portion in the width direction of the top wall 311 . An engaged portion (engagement hole) 311b with which the engagement protrusion 121b of the lock portion 12 engages is formed in the center portion of the accommodation portion 311a in the front-rear direction. Further, guide grooves 311c into which the guide walls 111a are inserted are formed on both sides in the width direction of the accommodating portion 311a.

Further, the front housing 31 is formed with a fitting space S6 that opens forward (on the side of the plug connector 1). The fitting space S6 is a space into which the housing body 11 of the plug housing 10 is inserted and fitted, and is defined by a top wall 311, a bottom wall 312, a pair of side walls 313, 313, and a rear wall 314. As shown in FIG.

On the other hand, the rear housing 32 includes a top wall 321, a bottom wall 322, a pair of side walls 323 connecting both ends of the top wall 321 and the bottom wall 322 in the width direction (Y direction), the top wall 321, and the bottom wall 322. A wall 322 and a front wall 324 connected to the front ends of the side walls 323 , 323 .

In this embodiment, the rear wall 314 of the front housing 31 and the front wall 324 of the rear housing 32 are integrated, and the rear wall 314 and the front wall 324 are partition walls that partition the receptacle housing 30 into the front and rear. 300 are formed.

The rear housing 32 also includes a partition wall 325 that is connected to the pair of side walls 323 and vertically partitions the space defined by the top wall 321 , the bottom wall 322 and the side walls 323 , 323 .

Further, the rear housing 32 has a plurality of upper partition walls 326 connected to the top wall 321 and the partition wall 325. The upper partition walls 326 divide the upper space partitioned by the partition walls 325 into a plurality of spaces. partitioned. The rear housing 32 also includes a plurality of lower partition walls 327 connected to the bottom wall 322 and the partition wall 325 , and the lower partition walls 327 create a plurality of lower spaces partitioned by the partition walls 325 . It is partitioned into a space of

Further, the partition wall 300 is formed with a through hole 300 a that communicates the fitting space S<b>6 and the space formed in the rear housing 32 . The through hole 300a is formed at a portion corresponding to a space partitioned by the upper partition wall 326 and the lower partition wall 327 when the receptacle housing 30 is viewed in the front-rear direction. That is, the receptacle housing 30 is formed with a plurality of spaces penetrating in the front-rear direction. Each of the relay terminals 33 is inserted into a space penetrating in the front-rear direction.

As described above, in the present embodiment, a plurality of spaces arranged side by side 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 32 . Furthermore, when the rear housing 32 is viewed from the rear in the front-rear direction, a plurality of spaces are formed in a zigzag pattern. By doing so, the size of the receptacle connector 3 in the width direction is reduced.

Specifically, above the rear end of the rear housing 32, a plurality of spaces defined by the ceiling wall 321, the partition wall 325 and the upper partition wall 326 are arranged in the width direction (Y direction). A space formed above the rear housing 32 serves as a first space S7 into which the relay terminal 33 is inserted.

On the other hand, below the rear end portion of the rear housing 32, a plurality of spaces defined by a bottom wall 322, a partition wall 325, and a lower partition wall 327 are arranged side by side in the width direction (Y direction). A space formed below the rear housing 32 serves as a second space S8 into which the relay terminal 33 is inserted.

Furthermore, in this embodiment, the upper partition wall 326 and the lower partition wall 327 are formed at positions shifted in the width direction. That is, in a plan view in which the receptacle housing 30 is arranged so that the insertion direction of the relay terminal 33 is horizontal, part of the first space S7 and part of the second space S8 overlap.

The relay terminal 33 is inserted forward through an opening on the rear end side of the first space S7, and the opening on the rear end side of the first space S7 serves as an insertion port S7a. Further, the opening (through hole 300a) on the front end side of the first space S7 is smaller than the insertion opening S7a so that the relay terminal 33 does not come off. That is, the forward movement of the relay terminal 33 inserted from the insertion opening S7a is restricted by the partition wall 300. As shown in FIG. The opening (through hole 300a) on the front end side of the first space S7 serves as an insertion hole S7b into which the substantially bar-shaped contact portion 333 of the relay terminal 33 is inserted.

Similarly, the relay terminal 33 is inserted forward from an opening on the rear end side of the second space S8, and the opening on the rear end side of the second space S8 serves as an insertion port S8a. . Further, the opening (through hole 300a) on the front end side of the second space S8 is smaller than the insertion opening S8a so that the relay terminal 33 does not come off. That is, the forward movement of the relay terminal 33 inserted from the insertion opening S8a is restricted by the partition wall 300. As shown in FIG. The opening (through hole 300a) on the front end side of the second space S7 serves as an insertion hole S8b into which the substantially bar-shaped contact portion 333 of the relay terminal 33 is inserted.

Further, a groove portion 321a that opens in the front-rear direction and downward is formed in the lower portion of the ceiling wall 321 so as to communicate with the first space S7. The tip of a projecting piece 331d of the relay terminal 33, which will be described later, is inserted into the groove 321a to guide the insertion of the relay terminal 33 into the first space S7. In this embodiment, the groove portion 321a is formed on one side (right side) in the width direction of the first space S7 in the state shown in FIG. 28(b). The tip of the projecting piece 331d of the relay terminal 33 is formed to pass through the groove 321a from the start of insertion of the relay terminal 33 into the first space S7 until the insertion is completed.

Similarly, the bottom wall 322 has a groove 322a opening in the front-rear direction and upward so as to communicate with the second space S8. The tip of the projecting piece 331d of the relay terminal 33 is also inserted into the groove 322a to guide the insertion of the relay terminal 33 into the second space S8. In this embodiment, the groove portion 322a is formed on one side (left side) in the width direction of the second space S8 in the state shown in FIG. 28(b). The tip of the projecting piece 331d of the relay terminal 33 is formed to pass through the groove 322a from the start of insertion of the relay terminal 33 into the second space S8 to the completion of the insertion.

As described above, in the present embodiment, the second space S8 has a shape obtained by inverting (rotating 180 degrees) the first space S7 when the receptacle housing 30 is viewed from the rear in the front-rear direction.

The ceiling wall 321 is formed with a notch 321c that opens vertically and forwardly so as to communicate with the first space S7. A striking piece 321b is formed. When the relay terminal 33 is inserted into the first space S7 (insertion completed state), the abutment piece 321b is abutted against a retaining piece 331e of the relay terminal 33, which will be described later. 33 is prevented from coming off (see FIGS. 37 and 38).

Similarly, the bottom wall 322 is formed with a notch 322c that opens vertically and forwardly and communicates with the second space S8. A possible abutment piece 322b is formed. When the relay terminal 33 is inserted into the second space S8 (insertion completed state), the stopper piece 331e of the relay terminal 33 abuts against the abutment piece 322b, so that the relay terminal 33 to which the electric wire 3A is connected is pushed. This is to prevent it from coming off (see FIGS. 39 and 40).

Furthermore, in the present embodiment, a retainer accommodation space S9 is formed in the front portion of the rear housing 32 into which the retainer 34 is slidably inserted. The retainer accommodation space S9 is formed to open upward when the rear housing 32 is arranged such that the first space S7 is positioned above the second space S8. That is, the retainer 34 is inserted into the retainer housing space S9 from above with the rear housing 32 arranged so that the first space S7 is positioned above the second space S8. At this time, the retainer 34 is housed in the retainer housing space S9 so as to be vertically slidable.

The retainer 34 includes a retainer body 340 that is slidably mounted on the rear housing 32 in the vertical direction when the rear housing 32 is arranged such that the first space S7 is positioned above the second space S8. ing.

In this embodiment, the retainer body 340 includes a top wall 341, a bottom wall 342, and a pair of side walls 343 connecting both ends of the top wall 341 and the bottom wall 342 in the width direction (Y direction). there is

Further, the retainer body 340 has a plurality of partition walls 344 connected to the top wall 341 and the bottom wall 342 . By providing the partition walls 344 of the partition walls 344 in this manner, the retainer main body 340 is defined by the top wall 341, the bottom wall 342, and the adjacent partition walls 344, 344, and has an insertion hole 345 penetrating in the front-rear direction in the width direction. A plurality of them are arranged side by side. Each insertion hole 345 is formed to communicate with the first space S7 while the retainer main body 340 is accommodated in the retainer accommodation space S9. Therefore, the relay terminal 33 is also inserted through the insertion hole 345 when inserted into the first space S7.

Further, in the present embodiment, the side wall 343 includes a rear extension portion 343a extending rearward in the front-rear direction and a lower extension portion 343b extending downward in the vertical direction. In this way, when the retainer body 340 is housed in the retainer housing space S9, or when the retainer body 340 housed in the retainer housing space S9 is slid up and down, the retainer body 340 moves in the width direction and the front-rear direction. It is designed to prevent it from being put away.

A first restricting projection 341 a that protrudes downward is formed in the lower portion of the top wall 341 so as to be arranged in the insertion hole 345 . The first restricting protrusion 341a restricts the relay terminal 33 inserted into the first space S7 from coming off when the retainer body 340 is slid.

An extension projection 341b is integrally connected to the rear end of the first restricting projection 341a. formed.

A groove portion 345 a that opens rearward and downward is formed in the lower portion of the top wall 341 so as to communicate with the insertion hole 345 . The tip of the projecting piece 331d of the relay terminal 33 is inserted into the groove 345a when the relay terminal 33 is inserted into the first space S7 (insertion completed state). The projecting piece 331d of the relay terminal 33 guides the slide of the retainer body 340 in the vertical direction. In the present embodiment, the groove portion 345a is formed on one widthwise side (right side) of the insertion hole 345 in the state shown in FIG. 30(c).

Furthermore, in the present embodiment, the bottom wall 342 has a second restricting protrusion 342a that protrudes downward. The second restricting protrusion 342a protrudes in the same direction as the first restricting protrusion 341a, and restricts the removal of the relay terminal 33 inserted into the second space S8 when the retainer body 340 is slid. .

The relay terminals 33 are conductive, and are held by the receptacle housing 30 so that two relay terminal groups are formed in parallel in the width direction (Y direction) of the receptacle housing 30 . there is As shown in FIG. 31, the relay terminal 33 is formed by bending a strip-shaped metal member in the thickness direction. Such a relay terminal 33 can be formed, for example, by bending a strip-shaped metal member.

In addition, the relay terminal 33 is connected to a terminal main body portion 331 having a peripheral wall extending in the front-rear direction (the direction in which the relay terminal 33 is inserted into the space) and the front side (one side) of the terminal main body portion 331 in the front-rear direction. and a contact portion 333 . In this embodiment, the contact portion 333 has a substantially bar shape and is connected to the terminal main body portion 331 via a connecting portion 332 formed so as to decrease in diameter toward the front.

In addition, the relay terminal 33 includes a wire connecting portion 334 that is continuously provided on the rear side (the other side) of the terminal main body portion 331 in the front-rear direction and to which the wire 3A is connected.

The electric wire 3A has flexibility and includes a covering portion 3aA made of an insulating material and a conductor portion 3bA covered with the covering portion 3aA. The electric wire 3A exposes the conductor portion 3bA at the tip of the side connected to the relay terminal 33. As shown in FIG.

By electrically connecting the wire connecting portion 334 to the exposed conductor portion 3bA, the conductor portion 3bA of the wire 3A and the relay terminal 33 are conductively connected. The wire connection portion 334 is formed on the terminal body portion 331 side and is formed at a position farther from the terminal body portion 331 than the conductor crimped portion 334a which is crimped and fixed to the conductor portion 3bA, and the covering portion 3aA. and a wire crimping portion 334b that is crimped and fixed to.

Further, the relay terminal 33 is formed at a position farther from the terminal main body portion 331 than the wire crimping portion 334b, and a guide piece 335 is formed to guide the insertion into the space of the relay terminal 33 to which the wire 3A is connected. .

The terminal body portion 331 includes a bottom wall 331a, a pair of side walls 331b connected to both ends of the bottom wall 331a in the width direction, and a top wall 331c connected to the side walls 331b and covering the bottom wall 331a. ing.

In this embodiment, the bottom wall 331a, the pair of side walls 331b, 331b, and the top wall 331c correspond to the peripheral walls, and the terminal main body 331 has a substantially box shape with the peripheral walls covering substantially the entire periphery.

A projecting piece 331d projecting upward is formed on one of the side walls 331b. The projecting piece 331d is a portion whose tip passes through the grooves 321a and 322a or is housed in the groove 345a when the relay terminal 33 is inserted into the space.

A rear end of the top wall 331c is formed with a retaining piece 331e that protrudes rearward. The retaining piece 331e is formed to be elastically deformable in the vertical direction, and is arranged so that the rear end thereof abuts against the abutting piece 321b when the relay terminal 33 is inserted into the first space S7 (insertion completed state). It's becoming Further, when the relay terminal 33 is inserted into the second space S8 (when the insertion is completed), the rear end of the relay terminal abuts against the abutting piece 322b.

Here, in the present embodiment, when viewed from the front in the front-rear direction (viewed along the insertion direction of the relay terminal 33 into the space), the contact portion 333 extends in the front-rear direction at the center of the electric wire 3A. (see FIG. 32(d)).

When the rear housing 32 is arranged such that the first space S7 is positioned above the second space S8, the relay terminal 33 to be inserted into the first space S7 is positioned such that the contact portion 333 is on the lower side. is inserted into the first space S7 in a state of

On the other hand, the relay terminal 33 inserted into the second space S8 is arranged such that the contact portion 333 is positioned above the rear housing 32 when the first space S7 is positioned above the second space S8. is inserted into the second space S8 in the state of

That is, the relay terminal 33 inserted into the second space S8 is reversed (rotated 180 degrees) around the axial direction of the electric wire 3A, and the relay terminal 33 inserted into the first space S7 is inserted into the second space. It is inserted in S8. Further, the vertical distance (shortest distance) between the contact portion 333 of the relay terminal 33 inserted into the first space S7 and the contact portion 33 of the relay terminal 33 inserted into the second space S8 is the center of the wire 3A. It is made smaller than the vertical distance (shortest distance) between them.

Further, in the peripheral wall of the terminal body portion 331, when the relay terminal 33 is inserted into the space as described above, a first insertion hole 331f that opens upward and a second insertion hole 31g that opens downward are formed. It is In the present embodiment, the first insertion hole 331f and the second insertion hole 31g are formed so as to vertically face each other in plan view. That is, the first insertion hole 331f and the second insertion hole 31g are formed so as to be at the same position in the front-rear direction and the width direction in plan view.

When the retainer main body 340 is slid downward (in one direction) in the up-down direction, the first restricting projection 341a formed in the retainer main body 340 is moved to either the first insertion hole 331f or the second insertion hole 331g. He is trying to insert in either one (331f of 1st penetration holes). Furthermore, the second restricting protrusion 342a formed on the retainer main body 340 is inserted into the other (second insertion hole 331g).

By doing so, only by sliding one retainer 34 to one side (downward), the relay terminal 33 inserted in the first space S7 and the relay terminal 33 inserted in the second space S8 can be removed. , can be restricted by the retainer 34 at the same time.

Further, by simply sliding one retainer 34 to the other side (upward), the removal of the relay terminal 33 inserted in the first space S7 and the removal of the relay terminal 33 inserted in the second space S8 are restricted. and can be released at the same time.

When the relay terminal 33 is inserted into each space (the first space S7 or the second space S8), the contact portion 333 is arranged in the fitting space S6.

Next, an example of a method of assembling the receptacle connector 3 will be described. The method of assembling the receptacle connector 3 is not limited to the method described below.

First, as shown in FIG. 33 , the retainer 34 is attached to the rear housing 32 so that the upper portion protrudes above the ceiling wall 321 . At this time, the retainer main body 340 is housed in the retainer housing space S9 in such a state that the insertion holes 345 communicate with the first space S7.

Also, the wires 3A are connected to a plurality of relay terminals 33 inserted into the space of the rear housing 32 (see FIGS. 31 and 32).

Attachment of the retainer main body 340 to the rear housing 32 and connection of the wires 3A to the plurality of relay terminals 33 may be performed first, or may be performed at the same time.

Next, as shown in FIG. 34, the relay terminal 33 to which the electric wire 3A is connected is inserted into the space of the rear housing 32 . At this time, the relay terminal 33 inserted into the first space S7 is inserted into the second space S8 in such a manner that the relay terminal 33 is reversed (rotated 180 degrees) about the axial direction of the electric wire 3A. I have to. Further, the vertical distance (shortest distance) between the contact portion 333 of the relay terminal 33 inserted into the first space S7 and the contact portion 33 of the relay terminal 33 inserted into the second space S8 is the center of the wire 3A. It is made smaller than the vertical distance (shortest distance) between them.

With the relay terminal 33 inserted into the first space S7 (insertion completed state), the first insertion hole 331f faces the first restricting protrusion 341a, and the relay terminal 33 is inserted into the second space S8. In the state (insertion completed state), the second insertion hole 331g faces the second restricting protrusion 342a.

Next, the retainer main body 340 is slid downward so that the retainer 34 is housed in the retainer housing space S9. By doing so, the first restricting protrusion 341a formed on the retainer body 340 is inserted into the first insertion hole 331f, and the second restricting protrusion 342a is inserted into the second insertion hole 331g.

In this way, the receptacle connector 3 is formed in which the retainer 34 simultaneously prevents the relay terminal 33 inserted into the first space S7 and the relay terminal 33 inserted into the second space S8 from coming off (FIG. 36). , FIGS. 38 and 40).

When the above-described plug connector 1 is fitted to the receptacle connector 3 configured as described above, the lock portion 12 of the plug housing 10 is inserted into the center portion of the top wall 311 of the receptacle housing 30 in the width direction. Then, the housing body 11 is inserted into the fitting space S6 of the front housing 31. As shown in FIG.

Specifically, the engaging projection 121 b of the lever portion 121 is pressed downward by the ceiling wall 311 of the front housing 31 . In this way, when the engaging projection 121b is pressed downward by the ceiling wall 311, the rear end portion (operation portion 121a) of the lever portion 121 is elastically deformed so as to move downward, and the engaging projection 121b is pushed downward. can move to the far side of the fitting space S6.

Then, when the engaging protrusion 121b is moved to the far side of the fitting space S6, the downward pressing force of the engaging protrusion 121b by the ceiling wall 311 is released, and the elastic restoring force of the lever portion 121 causes the engaging protrusion. The portion 121b moves upward. When the engaging protrusion 121b moves upward, it engages with the engaged portion 311b formed on the receptacle connector 3, and the plug connector 1 and the receptacle connector 3 are locked in a fitted state. become.

In addition, while the plug connector 1 is being fitted to the receptacle connector 3, the tip of the contact portion 333 of the relay terminal 33 inserted into the second space S8 is pushed into the first space S1 formed in the plug housing 10 from the introduction port S1b. inside and contacts the contact portion 130 a of the first plug terminal 13 . In the present embodiment, the substantially bar-shaped contact portion 333 is inserted between the pair of contact pieces 138 and 138 and sandwiched between the pair of contact pieces 138 and 138 so that the first plug terminal 13 and the relay terminal 33 are connected to each other. and are electrically connected.

Similarly, the tip of the contact portion 333 of the relay terminal 33 inserted into the first space S7 is introduced into the second space S2 formed in the plug housing 10 from the introduction port S2b, and the contact of the second plug terminal 14 is inserted. contact the portion 140a. In this embodiment, the substantially bar-shaped contact portion 333 is inserted between the pair of contact pieces 238 and 238 and sandwiched between the pair of contact pieces 238 and 238, thereby connecting the second plug terminal 14 and the relay terminal 33 to each other. and are electrically connected.

By fitting the plug connector 1 into the receptacle connector 3 and electrically connecting the terminals 13, 14 and the relay terminal 33 in this manner, a connector set C2 for electrically connecting the cable 1A and the electric wire 3A is formed. be done.

On the other hand, when removing the plug connector 1 from the receptacle connector 3, first, the operating portion 121a of the lever portion 121 is pushed down to move the lever portion 121 downward. By doing so, the engaging projection 121b also moves downward, and the engagement between the engaging projection 121b and the engaged portion 311b is released. When the plug connector 1 is pulled in the removal direction with respect to the receptacle connector 3 in a state in which the engagement between the engaging protrusion 121b and the engaged portion 311b is released, the plug connector 1 is removed from the receptacle connector 3. relative movement in the direction.

In this manner, when the plug connector 1 is moved relative to the receptacle connector 3 in the removal direction, first the terminals are disconnected from each other, and then the housings are disconnected from each other. Thus, the plug connector 1 is removed from the receptacle connector 3.

As described above, the plug connector (connector) 1 according to the present embodiment is mounted on the plug housing 10 and the cable (mounted member) 1A held by the plug housing 10 and arranged outside the plug housing 10. and a plug terminal (terminal).

In addition, the plug terminal includes a main body portion inserted into spaces S1 and S2 formed in the plug housing 10, legs extending from the main body portion toward the mounting surface 1aA of the cable 1A, and legs connected to each other. and a mounting piece (mounting portion) mounted on the cable 1A.

The plug connector 1 further includes a leg holder that is connected to the plug housing 10 and holds the leg.

In this way, when the plug terminals are inserted into the spaces S1 and S2 formed in the plug housing 10, the legs of the plug terminals can be held by the leg holding portions formed in the plug housing 10. FIG. As a result, deformation of the leg portions of the plug terminals can be suppressed, and the plug terminals can be more reliably mounted on the cable (mounted member) 1A.

If the legs of the plug terminals are deformed when the plug terminals are inserted into the spaces S1 and S2 formed in the plug housing 10, the leg holding portions can be provided to prevent the legs from holding the leg portions. or the main body may not be inserted to the insertion completion position. Therefore, insertion failure of the plug terminal can be confirmed more easily, and from this point of view as well, the plug terminal can be reliably mounted on the cable (mounted member) 1A.

Moreover, in this embodiment, the leg is formed in a plate shape. Then, in a state in which the main body is inserted into the space and the mounting portion is mounted on the cable 1A, the plate thickness direction of the leg is the insertion direction (X direction) of the main body into the space and the normal direction of the mounting surface 1aA ( Z direction) and crossing direction (Y direction). As described above, even when a plug terminal having legs that are easily deformed in the plate thickness direction is inserted into a space, if the leg holding portion is provided, the plug terminal can be held by the cable (mounted member) 1A. It can be implemented with certainty.

In this embodiment, the plug housing 10 has a receiving portion (recess 112b) for receiving the cable (mounted member) 1A on one side wall (bottom wall 112b) in the housing thickness direction (vertical direction). ing. A leg extends from the main body in the thickness direction of the housing.

By doing so, it is possible to prevent the height of the plug connector 1 mounted on the cable (mounted member) 1A from increasing. Also, the extension distance of the legs can be reduced.

Further, in this embodiment, the leg holding portion is formed integrally with the plug housing 10 . By doing so, it is possible to suppress an increase in the number of parts. Moreover, the leg holding portion is prevented from coming off from the plug housing 10 as in the case of using a separate member. Therefore, deformation of the leg can be more reliably suppressed.

Further, in the present embodiment, the spaces are a first space S1 formed in the plug housing 10, a second space S2 formed at a position farther from the mounting surface 1aA than the first space S1 of the plug housing 10, It has Also, the plug terminals include a first plug terminal (first terminal) 13 and a second plug terminal (second terminal) 14 . The first plug terminal 13 includes a first body portion 130 inserted into the first space S1, a first leg portion 131 extending from the first body portion 130 toward the mounting surface 1aA, and a first leg portion 131 extending from the first body portion 130 toward the mounting surface 1aA. and a first mounting portion 132 connected to the portion 131 and mounted on the cable 1A.

The second plug terminal 14 includes a second body portion 140 inserted into the second space S2, a second leg portion 141 extending from the second body portion 140 toward the mounting surface 1aA, and a second leg portion 141 extending from the second body portion 140 toward the mounting surface 1aA. and a second mounting portion 142 connected to the portion 141 and mounted on the cable 1A.

At least one of the first leg 131 and the second leg 141 is held by the leg holder.

By doing so, it is possible to suppress deformation of the leg portion of either the first plug terminal 13 or the second plug terminal 14, and the plug terminal can be reliably mounted by the cable (mounted member) 1A. be able to In particular, if the second leg portion 141 of the relatively long second plug terminal 14 is held by the leg holding portion 119, deformation of the leg portion can be more effectively suppressed. Furthermore, if the leg portions 131 and 141 of both the first plug terminal 13 and the second plug terminal 14 are held by the leg portion holding portions 118 and 119, deformation of the leg portion can be suppressed more reliably. become.

In this embodiment, when the plug terminal is held by the plug housing 10 and mounted on the cable 1A, when the plug housing 10 is viewed along the normal direction (Z direction) of the mounting surface 1aA, He is trying for 1st space S1 and 2nd space S2 to overlap.

This makes it possible to reduce the size of the plug connector 1 in the width direction.

Further, in the present embodiment, the main bodies 130 and 140 are inserted into the spaces S1 and S2, and the plug housing 10 is viewed along the insertion direction (X direction) of the main bodies 130 and 140 into the spaces S1 and S2. Sometimes, the first insertion opening S1a of the first space S1 is divided into two regions R1 and R2 by the second leg portion 141. As shown in FIG.

The second leg 141 is held by the leg holders 119 (112e, 118b) at two locations across the first insertion opening S1a.

By doing so, it becomes possible to more reliably suppress deformation of the second leg portion 141 while reducing the size of the plug connector 1 in the width direction.

In addition, in the present embodiment, the first mounting portion 132 is connected to the first leg portion 131 so as to protrude to one side in the direction (X direction) in which the body portions 130 and 140 are inserted into the spaces S1 and S2. . A second mounting portion 142 is connected to the second leg portion 141 so as to protrude on the other side in the insertion direction (X direction) of the body portions 130 and 140 into the spaces S1 and S2.

This prevents the first mounting portion 132 and the second mounting portion 142 from becoming far from the plug housing 10, and more reliably prevents the leg portions 131 and 141 from being deformed. become able to.

Further, in this embodiment, the plug housing 10 is viewed along the normal direction (Z direction) of the mounting surface 1aA in a state where the plug terminals 13 and 14 are held by the plug housing 10 and mounted on the cable 1A. At times, one of the first mounting portion 132 and the second mounting portion 142 overlaps the plug housing 10 .

This more reliably prevents the positions of the first mounting portion 132 and the second mounting portion 142 from becoming distant from the plug housing 10, and more reliably prevents the leg portions 131 and 141 from being deformed. be able to

In addition, in this embodiment, a plurality of plug terminals 13 and 14 are provided, and the mounting portions 132 and 142 are arranged in a staggered manner while the plurality of plug terminals 13 and 14 are held by the plug housing 10 . there is By doing so, it is possible to reduce the size of the plug connector 1 in the width direction while ensuring the insulation distance.

Although the preferred embodiments of the present disclosure have been described above, the present disclosure is not limited to the above embodiments and modifications thereof, and various modifications are possible.

For example, a connector can be formed by appropriately combining the configurations shown in the above embodiments.

In the above embodiment, a plurality of terminals are arranged in two tiers, but a connector in which a plurality of terminals are arranged in only one tier or a connector in which a plurality of terminals are arranged in three or more tiers is also possible. It is possible.

Moreover, although the connector in which the terminals arranged in the same stage have the same shape has been exemplified, a connector in which a plurality of types of terminals are arranged in the same stage is also possible.

Further, the leg holding portion is also formed in the receptacle connector 2 shown in the above embodiment. Therefore, it is possible to use the receptacle connector 2 as the connector of the present disclosure and the plug connector 1 as the mating connector. The present disclosure may also be applied to connectors (plug connectors and receptacle connectors) that electrically connect substrates or cables. Also, the present disclosure may be applied to a connector (plug connector or receptacle connector) that electrically connects an electric wire and a substrate.

In the above embodiment, the receptacle connector is exemplified in which one retainer prevents the relay terminals 33 from coming off. It may be regulated. In other words, a connector using a relay terminal in which the second insertion hole 31g is not formed in the peripheral wall of the terminal body portion 331 may be used.

Also, the housing, terminals, and other detailed specifications (shape, size, layout, etc.) can be changed as appropriate.

1 plug connector (connector)
10 plug housing (housing)
118 leg holding portion 119 leg holding portion 13 first plug terminal (first terminal)
130 first body portion 131 first leg portion 132 first mounting piece (first mounting portion)
14 second plug terminal (second terminal)
140 Second body portion 141 Second leg portion 142 Second mounting piece (second mounting portion)
S1 First space S2 Second space 1A Cable (mounted member)
1aA surface (mounting surface)
2 Receptacle connector (connector)
20 receptacle housing (housing)
216 leg holding portion 217 leg holding portion S3 first space S4 second space 23 first receptacle terminal (first terminal)
230 first body portion 231 first leg portion 232 first mounting piece (first mounting portion)
24 second receptacle terminal (second terminal)
240 Second body portion 241 Second leg portion 242 Second mounting piece (second mounting portion)
2A circuit board (mounted part)
21aA surface (mounting surface)

Claims (10)

a housing;
a terminal held by the housing, mounted on a mounted member arranged outside the housing, and inserted into a space formed in the housing;
with
The space is
a first space formed in the housing and having a first insertion opening on one side in the insertion direction;
a second space formed above the first space in the housing in a vertical direction crossing the insertion direction and having a second insertion opening on one side in the insertion direction;
with
The terminal is
a first body portion inserted into the first space; a first leg portion extending downward in the vertical direction from the first insertion port side of the first body portion; a first terminal having a first mounting portion connected to and mounted on the mounted member;
a second main body portion inserted into the second space; a second leg portion extending downward in the vertical direction from the second insertion port side of the second main body portion; a second terminal having a second mounting portion connected to and mounted on the mounted member;
with
The housing is formed with a plurality of grooves that open to one of the first insertion openings, and two of the plurality of grooves are a first leg holder that holds the first leg and a second leg holder that holds the first leg. A connector characterized by being a second leg holder that holds a leg. The first leg and the second leg are formed in a plate shape,
2. The connector according to claim 1, wherein the plate thickness direction of the first leg portion and the second leg portion is a direction that intersects the insertion direction and the vertical direction. Each of the first main body portion and the second main body portion has a contact portion, a bottom wall, and a pair of side walls connected to both end portions of the bottom wall in a direction intersecting the insertion direction,
one side wall of the pair of side walls of each of the first main body portion and the second main body portion has an extended wall projecting toward one side in the insertion direction from the bottom wall;
3. The first leg extends from an extension wall of the first body, and the second leg extends from an extension wall of the second body. A connector according to claim 1 or claim 2. The second leg holding portions are formed at two locations across the first insertion port in the vertical direction,
The connector according to any one of claims 1 to 3, wherein the first leg holding portion is formed on one side in the vertical direction with respect to the first insertion port. A first insertion opening of the first space is divided into two regions by the second leg when the housing is viewed along the insertion direction with the terminal inserted into the space. The connector according to any one of claims 1 to 4, characterized by: The connector according to any one of claims 1 to 5, wherein the first space and the second space overlap when viewed along the vertical direction. The first mounting portion is connected to the first leg portion so as to protrude to one side of the insertion direction of the first main body portion into the first space,
6. The second mounting portion is connected to the second leg portion so as to protrude to the other side of the insertion direction of the second main body portion into the second space. The connector according to any one of . 8. The connector according to claim 7, wherein one of the first mounting portion and the second mounting portion overlaps the housing when the housing is viewed in the vertical direction. . The first space and the second space are positioned above the mounting surface of the mounted member in the vertical direction,
The connector according to any one of claims 1 to 8, wherein the housing has a receiving portion for receiving the member to be mounted on the lower wall portion in the vertical direction. The first mounting portion and the second mounting portion are arranged in a staggered manner with the plurality of terminals held by the housing. connector.

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