JP2016157665A - Socket connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a socket connector capable of reducing damage, such as wear of a socket connector or a base connector, due to insertion and extraction of the base connector and socket connector.SOLUTION: A socket housing 11 includes a fitting guide rib 61, and a base housing 31 includes a groove 51b for fitting guide rib. The socket housing 11 includes a side rib 62 projecting to the outside in the fifth direction D5 and in which a through hole 621 penetrating in the third direction D3 is formed, and an extension rib 63 projecting to the outside of the side rib 62 in the fifth direction D5. The base housing 31 includes a groove 52a for side rib introducing the side rib 62 while pressing the side rib 62 and extension rib 63 to the inside in the fifth direction D5, and a latch 52b engaging with the extension rib 63 in the combination state.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a socket connector used in combination with a base connector fixed to a circuit board.

Conventionally, a connector pair including a base connector fixed to a circuit board and a socket connector (hereinafter also referred to as “socket connector-base connector pair”) is known (see, for example, Patent Document 1).
The socket connector-base connector pair described in Patent Document 1 is a connector pair in which a socket connector is inserted and fitted from above the base connector, and is arranged so that the electric wire is drawn out in the lateral direction.
In the conventional socket connector-base connector pair, when the socket connector is inserted into and removed from the base connector, there is a problem that the locking claw and the receiving portion thereof are shaved and the lock becomes loose. On the other hand, in the socket connector-base connector pair described in Patent Document 1, a fitting mechanism that prevents the socket connector from moving upward is provided.

JP 2005-158730 A

However, the socket connector-base connector pair described in Patent Document 1 is not particularly considered for reducing the wear of the socket connector and the base connector that occur when the socket connector is inserted and removed from the base connector.
If the wear of the socket connector and the base connector caused by the insertion and removal of the base connector and the socket connector can be suppressed, there is no need to provide a special mechanism like the socket connector described in Patent Document 1.

  An object of this invention is to provide the socket connector which can reduce damages, such as abrasion of the socket connector and base connector which arise by insertion / extraction of a base connector and a socket connector.

  The present invention is a socket connector that is used in combination with a base connector that includes a base housing and is fixed to a circuit board. In the combined state in which the socket connector and the base connector are combined, A direction toward the base connector is a first direction, a direction opposite to the first direction is a second direction, a predetermined direction orthogonal to the first direction and the second direction is a third direction, and the third direction is When the direction opposite to the direction is the fourth direction and the first direction, the second direction, the third direction, and the direction orthogonal to the fourth direction are the fifth direction, the socket connector is a socket housing. The socket housing is fitted on the fourth direction side of the socket housing so as to protrude outward in the fifth direction. A guide rib, and the base housing includes a groove for a fitting guide rib that guides the fitting guide rib to a position on the fourth direction side and the first direction side in the base housing, and the socket housing includes the socket Side ribs that are formed on the third direction side of the housing to protrude outward in the fifth direction and that pass through in the third direction are formed, and extension ribs that protrude outward in the fifth direction of the side ribs And the base housing is for side ribs that guide the side ribs to a position on the first direction side in the base housing in a state where the side ribs and the extension ribs are pressed inward in the fifth direction. The present invention relates to a socket connector including a groove and a latch portion with which the extension rib engages in the combined state.

The present invention also provides a socket connector that is used in combination with a base connector that includes a base housing and is fixed to a circuit board. In the combined state in which the socket connector and the base connector are combined, the socket A direction from the connector toward the base connector is a first direction, a direction opposite to the first direction is a second direction, a predetermined direction orthogonal to the first direction and the second direction is a third direction, When the direction opposite to the third direction is the fourth direction, and the first direction, the second direction, the third direction, and the direction orthogonal to the fourth direction are the fifth direction, the socket connector is: A socket housing, wherein the socket housing is arranged on the fourth direction side of the socket housing and on the outer side of the fifth direction. And a pair of fitting guide ribs for guiding the pair of fitting guide ribs to positions on the fourth direction side and the first direction side of the base housing. The socket housing includes a pair of side ribs formed on the third direction side of the socket housing, each of which protrudes outward in the fifth direction and has a through-hole penetrating in the third direction; A pair of extending ribs that protrude outward in the fifth direction of the side ribs,
The base housing is configured to guide the pair of side ribs to a position on the first direction side in the base housing in a state where the pair of side ribs and the pair of extension ribs are pressed inward in the fifth direction. The present invention relates to a socket connector including a side rib groove and a pair of latch portions with which the pair of extension ribs engage in the combined state.

  In addition, when viewed in the third direction in the combined state, it is preferable that the through hole and the fitting guide rib are disposed at a position where at least a part thereof overlaps.

  ADVANTAGE OF THE INVENTION According to this invention, the socket connector which can reduce damages, such as abrasion of the socket connector and base connector which arise by insertion / extraction of a base connector and a socket connector, can be provided.

It is the perspective view seen from the socket connector 10 side in the state which isolate | separated the socket connector 10 and base connector 30 of one Embodiment of this invention. It is the perspective view seen from the socket connector 10 side in the state which combined the socket connector 10 and base connector 30 which are shown in FIG. 1 is a perspective view showing a base connector 30 used in combination with a socket connector 10. FIG. It is the perspective view which looked at the socket connector 10 from the bottom wall side. It is the perspective view which looked at the socket connector 10 from the top wall side. 2 is a plan view of the socket connector 10 and the base connector 30 in a combined state. FIG. 4 is a bottom view of the socket connector 10 and the base connector 30 in a combined state. FIG. It is the 6A-6A sectional view taken on the line shown in FIG. It is the 6B-6B sectional view taken on the line shown in FIG. It is the 6C-6C sectional view taken on the line shown in FIG. It is the 6D-6D sectional view taken on the line shown in FIG. 2 is a plan view showing a base connector 30 used in combination with the socket connector 10. FIG. It is the front view which looked at the base connector 30 shown in FIG. 12 from the arrow 12B direction. It is a bottom view which shows the base connector 30 used in combination with the socket connector 10. FIG. It is the 13A-13A sectional view taken on the line shown in FIG. It is the 12A-12A sectional view taken on the line shown in FIG. 3 is a bottom view showing the socket connector 10. FIG. It is the front view which looked at the socket connector 10 shown in FIG. 5 from the arrow 5A direction. It is the rear view which looked at the socket connector 10 shown in FIG. 5 from the arrow 5B direction. It is the 5C-5C sectional view taken on the line shown in FIG. It is the 18A-18A sectional view taken on the line shown in FIG. (A) And (B) is a figure which shows the state which inclined the socket connector 10 when combining the socket connector 10 and the base connector 30. FIG. (A) And (B) is a figure which shows sequentially the combination procedure of the socket connector 10 and the base connector 30, Comprising: It is the 22A-22B-22C-22D sectional view taken on the line shown to FIG. 22 (A). (A) And (B) is a figure which shows sequentially the combination procedure which advanced from the state shown to FIG. 23 (A) and (B). (A)-(C) are the figures which show sequentially the combination procedure of the socket connector 10 and the base connector 30, Comprising: It is the 22E-22E sectional view taken on the line shown to FIG. 22 (B).

  Hereinafter, an embodiment of a socket connector of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of the socket connector 10 and the base connector 30 according to an embodiment of the present invention, as viewed from the socket connector 10 side. FIG. 2 is a perspective view of the socket connector 10 and the base connector 30 shown in FIG. FIG. 3 is a perspective view showing the base connector 30 used in combination with the socket connector 10. FIG. 4 is a perspective view of the socket connector 10 as viewed from the bottom wall side. FIG. 5 is a perspective view of the socket connector 10 viewed from the top wall side. FIG. 6 is a plan view of the socket connector 10 and the base connector 30 in a combined state. FIG. 7 is a bottom view of the socket connector 10 and the base connector 30 in a combined state. 8 is a cross-sectional view taken along line 6A-6A shown in FIG. 9 is a cross-sectional view taken along line 6B-6B shown in FIG. 10 is a cross-sectional view taken along line 6C-6C shown in FIG.

  11 is a cross-sectional view taken along line 6D-6D shown in FIG. FIG. 12 is a plan view showing the base connector 30 used in combination with the socket connector 10. FIG. 13 is a front view of the base connector 30 shown in FIG. 12 as viewed from the direction of the arrow 12B. FIG. 14 is a bottom view showing the base connector 30 used in combination with the socket connector 10. 15 is a cross-sectional view taken along line 13A-13A shown in FIG. 16 is a cross-sectional view taken along line 12A-12A shown in FIG. FIG. 17 is a bottom view showing the socket connector 10. FIG. 18 is a front view of the socket connector 10 shown in FIG. 5 as viewed from the direction of the arrow 5A. 19 is a rear view of the socket connector 10 shown in FIG. 5 as viewed from the direction of the arrow 5B. 20 is a cross-sectional view taken along line 5C-5C shown in FIG. 21 is a cross-sectional view taken along line 18A-18A shown in FIG.

The socket connector 10 of the present invention is a connector used in combination with the base connector 30.
First, the base connector 30 used in combination with the socket connector 10 of this embodiment will be described.
In the following description, a state where the socket connector 10 and the base connector 30 are combined is referred to as a “combined state”. In the combined state, the direction from the socket connector 10 toward the base connector 30 is the “first direction D1”, the opposite direction to the first direction D1 is the second direction D2, and the first direction D1 and the second direction D2 are the same. A predetermined direction orthogonal to the third direction D3, a direction opposite to the third direction D3 as a fourth direction D4, a direction orthogonal to the first direction D1, the second direction D2, the third direction D3, and the fourth direction D4. Is the fifth direction.

  As shown in FIGS. 1 to 5, the base connector 30 is a connector fixed to the surface of the circuit board S. As shown in FIGS. 1 to 16, the base connector 30 includes a base housing 31 made of synthetic resin or the like, a plurality of base contacts 35, and a fixing member 8. When viewed in plan in the first direction D1, the base housing 31 has a substantially rectangular bottom plate portion 38, a substantially rectangular bottom opening portion 37 formed on the fourth direction D4 side of the bottom plate portion 38, and a substantially rectangular shape. And a peripheral wall portion 32 having a substantially rectangular frame shape in a plan view surrounding the bottom plate portion 38 and the bottom opening portion 37. The peripheral wall portion 32 is not necessarily continuous, but has a substantially rectangular frame shape as a whole.

  The substantially rectangular frame-shaped peripheral wall portion 32 is located on the third direction D3 side and extends in the fifth direction D5, and the rear wall portion 32c is located on the fourth direction D4 side and extends in the fifth direction D5. And a pair of side wall portions 32b and 32b extending in the third direction D3 (fourth direction D4) so as to connect both end portions of the front wall portion 32a and both end portions of the rear wall portion 32c. The height of the rear wall portion 32c is lower than the height of the front wall portion 32a and the side wall portion 32b in order to avoid interference with the electric wire W (details will be described later).

  A base side opening 34 is formed on the second wall D2 side in the rear wall 32c. The base side opening 34 extends in the third direction D3 and opens in the second direction D2. As shown in FIG. 14, the region of the base side opening 34 in a plan view includes a pair of outer rear wall portions 41 in the rear wall portion 32 c described later from an edge portion 34 a in the fourth direction D4 of the rear wall portion 32 c. , 41 in the third direction D3 side to the edge 34b.

In the base connector 30, an accommodation space 39 surrounded by a bottom plate portion 38 and a substantially rectangular frame-shaped peripheral wall portion 32 is formed. The accommodation space 39 is open on the second direction D2 side, open on the first direction side by the bottom opening 37, and on the fourth direction D4 side on the base side opening 34 (see FIGS. 1, 13, and 14). ).
In the combined state, the accommodation space 39 accommodates most of the socket housing 11 on the first direction D1 side.

As shown in FIGS. 1 and 3, the rear wall portion 32c includes a pair of outer rear wall portions 41, 41 formed on the outer sides of the fifth direction D5 and a pair of outer rear wall portions 41 in the fifth direction D5. , 41 and an inner rear wall portion 42 formed inside.
The pair of outer rear wall portions 41, 41 has an arcuate inclined surface that gradually falls on the upper surface side toward the inner side in the fifth direction D5. The electric wires W are arranged on the inclined surfaces of the pair of outer rear wall portions 41, 41 in the combined state.

  The end surfaces 41a on the third direction D3 side of the pair of outer rear wall portions 41, 41 coincide with the base-side reference surface 100 as shown in FIG. The base-side reference surface 100 is formed on the edge 34b on the third direction D3 side in the base-side opening 34. The base side reference surface 100 is a virtual surface and extends in the fifth direction D5. That is, the base-side reference surface 100 is a surface including not only the end surface 41a on the third direction D3 side of the outer rear wall portion 41 but also the end surface 41a on the third direction D3 side of the outer rear wall portion 41. This is a virtual surface extending in the direction D5.

  As shown in FIG. 1, the inner rear wall portion 42 has a predetermined height (thickness) in the second direction D2 and a predetermined width in the third direction D3, and extends in the fifth direction D5. The inner rear wall portion 42 includes a base portion 421, an inward convex rib 422 as a base side convex portion, and a plurality of rear wall reinforcing convex portions (reinforcing convex portions) 423 protruding from the base portion 421 toward the second direction D2. Have.

  The base 421 is formed in a rectangular parallelepiped shape extending in the fifth direction D5 so as to connect the pair of outer rear wall portions 41, 41. As shown in FIG. 14, the end surface 421a on the third direction D3 side of the base portion 421 coincides with the edge portion 34b on the third direction D3 side in the base side opening portion 34, and the outer rear wall portion 41 on the third direction D3 side. It is located on the same plane as the end face 41a. That is, the end surface 421a on the third direction D3 side of the base portion 421 coincides with the base-side reference surface 100.

  As shown in FIG. 14, the inward convex rib 422 protrudes from the base side reference surface 100 (the end surface 421a on the third direction D3 side of the base portion 421) to the third direction D3 side. The inward convex rib 422 extends continuously in the fifth direction D5. The inner side convex rib 422 is in the process of forming a combined state, and a side wall part 712 (see FIG. 5) as a socket side interference part of the socket housing 11 to be described later comes into contact with the socket connector 10 and the base having different pole numbers. It has a function of preventing the connector 30 from being combined. Details of this function will be described later.

  Further, as shown in FIG. 13, a bottom wall arrangement space 424 is formed on the first direction D <b> 1 side of the inward convex rib 422. The bottom wall arrangement space 424 is a space that extends in the fifth direction D5 and can accommodate a bottom wall portion 711 (socket-side bottom wall portion) (details will be described later) in the socket housing 11 in a combined state. The bottom wall arrangement space 424 is located on the first direction D1 side in the rear wall portion 32c of the base housing 31, and opens on the first direction D1, the third direction D3, and the fourth direction D4 side. By accommodating the bottom wall portion 711 of the socket housing 11 in the bottom wall arrangement space 424, the bottom wall portion 711 is arranged on the first direction D1 side with respect to the inward convex rib 422. Thereby, since the movement of the bottom wall part 711 of the socket housing 11 to the 2nd direction D2 side is controlled, in the combined state of the socket connector 10 and the base connector 30, fitting strength can be improved.

The plurality of rear wall reinforcing convex portions 423 function as reinforcing members for the rear wall portion 32c.
The plurality of rear wall reinforcing convex portions 423 are formed to protrude in the second direction D2 side on the upper surface of the base portion 421 and the inward convex rib 422 in the second direction D2, and in the third direction D3, It extends over the entire region of the side convex rib 422. A plurality of rear wall reinforcing convex portions 423 are provided at intervals in the fifth direction D5. The plurality of rear wall reinforcing convex portions 423 reinforce the base portion 421 and the inner convex rib 422. When viewed in the third direction D3, the plurality of rear wall reinforcing protrusions 423 have a substantially trapezoidal shape in which the upper base is shorter than the lower base, and both end surfaces of the fifth direction D5 are inclined surfaces that descend linearly. It has become.

  The plurality of rear wall reinforcing convex portions 423 are arranged at positions where the plurality of electric wires W are avoided in the combined state. Specifically, the plurality of rear wall reinforcing projections 423 are provided corresponding to the partition wall 72 of the socket connector 10 described later so as to be positioned between the adjacent electric wires W in the combined state. As shown in FIG. 10, the plurality of rear wall reinforcing convex portions 423 are arranged in the cutout portions 721 of the partition wall 72 in the combined state.

As shown in FIG. 1, a plurality of base terminal grooves 32d recessed in the second direction D2 are provided on the end surface of the front wall portion 32a on the first direction D1 side. The base terminal groove 32d is formed so as to reach the end surface on the fourth direction D4 side from the end surface on the third direction D3 side of the front wall portion 32a.
A plurality of front wall reinforcing convex portions 321 are provided on the upper surface of the front wall portion 32a on the second direction D2 side. The plurality of front wall reinforcing convex portions 321 function as reinforcing members for the front wall portion 32a. The plurality of front wall reinforcing convex portions 321 are provided at intervals in the fifth direction D5 and are formed above the plurality of base terminal grooves 32d. The plurality of front wall reinforcing convex portions 321 have a substantially trapezoidal shape in which the upper base is shorter than the lower base when viewed in the third direction D3, and both end surfaces of the fifth direction D5 are inclined surfaces that are linearly lowered. It has become.
Communication holes 322 communicating with the third direction D3 are formed on both outer sides of the front wall portion 32a in the fifth direction D5. The communication hole 322 communicates with the side rib groove 52a.

  The base contact 35 is made of a plate-shaped metal piece. The base contact 35 includes a socket-side contact portion 35a that rises from the bottom plate portion 38 in the second direction D2, and a substrate-side contact portion 35b that is disposed in the base terminal groove 32d. The socket side contact part 35a and the board | substrate side contact part 35b are connected. A part of the substrate-side contact portion 35b of the base contact 35 on the first direction D1 side protrudes from the end surface of the front wall portion 32a on the first direction D1 side. The board-side contact portion 35b is electrically connected to wiring or the like on the circuit board S and is mechanically fixed to the circuit board S by soldering or the like.

  As shown in FIGS. 3, 7, and 13, the base housing 31 is opened in the first direction D <b> 1 and the third direction D <b> 3 outside the fifth direction D <b> 5 in the rear wall portion 32 c, and the third direction D <b> 3 and It has a slit-like fixing member holding portion 311 extending in the fourth direction D4. The fixing member holding unit 311 holds the fixing member 8.

  The fixing member 8 is formed of a plate member made of a metal material, and is also called a reinforcing metal fitting, a reinforcing tab, or the like. As shown in FIGS. 3, 7, and 13, the fixing member 8 is sandwiched and held by the fixing member holding portion 311 of the base housing 31. The fixing member 8 has a flat plate shape extending in the first direction D1, the second direction D2, the third direction D3, and the fourth direction D4. As shown in FIGS. 3 and 13, the fixing member 8 has a coupling surface 81 at the end in the first direction D1. The coupling surface 81 of the fixing member 8 is coupled by soldering when the base housing 31 is fixed to the surface (mounting surface) of the circuit board S. The second direction D <b> 2 side of the fixing member 8 is sandwiched and held by the fixing member holding portion 311 of the base housing 31. The fixing member 8 is connected to the base housing 31 and fixes the base housing 31 to the surface of the circuit board S.

The pair of side wall portions 32b and 32b includes a fitting guide rib groove constituting portion 51 disposed on the fourth direction D4 side and a side rib groove constituting portion 52 disposed on the third direction D3 side.
The fitting guide rib groove constituting portion 51 has a pair of groove convex portions 51a and 51a which are spaced apart in the third direction D3 and protrude inward in the fifth direction D5 on the second direction D2 side. The fitting guide rib groove constituting portion 51 is formed in a substantially U shape between the pair of groove convex portions 51a and 51a in a plan view in which the inner side in the fifth direction D5 is opened. In the fitting guide rib groove constituting portion 51, a space between the pair of groove convex portions 51a, 51a extends in the first direction D1, and is bent downward in the fourth direction D4 to be substantially L-shaped in a side view ( Fitting guide rib grooves 51b, 51b formed in the two-dot chain line in FIG. 15) are formed.

  Specifically, the fitting guide rib grooves 51b and 51b are grooves provided in the base housing 31, as shown in FIG. 1, and a pair of fitting guide ribs 61 and 61 (details will be described later) in the socket housing 11. The groove guides the base housing 31 to a position on the fourth direction D4 side and the first direction D1 side. The fitting guide rib groove 51b extends in the first direction D1 from the end of the side wall portion 32b on the second direction D2 side. Further, the fitting guide rib groove 51b includes a fitting guide rib locking portion 51c at a position on the fourth direction D4 side and the first direction D1 side. The fitting guide rib locking portion 51c is recessed toward the fourth direction D4 and can accommodate the fitting guide rib 61 in the combined state as shown in FIG. That is, the fitting guide rib groove 51b as a whole extends in the first direction D1 from the end of the side wall portion 32b on the second direction D2 side and bends in the fourth direction D4, as shown in FIG. In the side view, it extends in a substantially L shape.

  As shown in FIGS. 7 and 8, in the combined state, in the third direction D3 and the fourth direction D4, the region in which the fitting guide rib 61 is accommodated in the fitting guide rib locking portion 51c is referred to as a fitting guide rib accommodating region K1. That's it. As shown in FIGS. 7 and 8, the fitting guide rib accommodating area K1 is an area where the fitting guide rib 61 and the fitting guide rib locking portion 51c overlap when viewed in the second direction D2. The fitting guide rib 61 is locked to the fitting guide rib locking portion 51c in the fitting guide rib accommodating area K1.

  As shown in FIG. 7, the fitting guide rib accommodating region K1 is one of the fixing members 8 when viewed in a position close to the fixing member 8 or in the fifth direction D5 in the third direction D3 and the fourth direction D4. It is formed at a position where the parts overlap. Here, as shown in FIG. 7, in the third direction D <b> 3 and the fourth direction D <b> 4, the fitting guide rib accommodating region K <b> 1 is close to the position where the base housing 31 is fixed to the circuit board S by the fixing member 8. is there. Therefore, the elastic deformation of the base housing 31 can be suppressed when the fitting guide rib 61 is locked to the fitting guide rib locking portion 51c.

  Side rib forming portions 52 are formed at portions where the front wall portion 32a and the side wall portion 32b are connected (two corners on the third direction D3 side of the accommodation space 39). Side rib grooves 52a are formed in the side rib grooves 52 on the inner side surfaces of the pair of side wall portions 32b, 32b in the fifth direction D5. A latch portion 52b is provided on the side rib groove 52a in the second direction D2. The end of the latch portion 52b on the second direction D2 side is an inclined surface that is inclined from the second direction D2 side in the latch portion 52b toward the first direction D1 and toward the inside of the fifth direction D5. As shown in FIG. 11, the latch portion 52 b is engaged with an extension rib 63 provided on the outside of the pair of side ribs 62 in the socket housing 11 in the fifth direction D5 in the combined state.

  Specifically, as shown in FIG. 1, the side rib groove 52 a is a groove provided in the base housing 31, and includes a pair of side ribs 62 and 62 (details will be described later) and a pair of extension ribs in the socket housing 11. The grooves guide the pair of side ribs 62 and 62 to a position on the first direction D1 side in the base housing 31 in a state where 63 and 63 (details will be described later) are pressed inward in the fifth direction D5. The side rib groove 52a extends in the first direction D1 from the end of the side wall portion 32b on the second direction D2 side to the upper surface of the bottom plate portion 38. Moreover, as shown in FIG. 11, the side rib groove 52a can accommodate the side rib 62 in the combined state. Further, the side rib groove 52a communicates with the communication hole 322 of the front wall portion 32a on the first direction D1 side with respect to the latch portion 52b.

Next, the socket connector 10 of this embodiment used in combination with the base connector 30 will be described with reference to FIGS. 1 to 11 and FIGS. 17 to 21.
As shown in FIGS. 1 to 5 and the like, the socket connector 10 of the first embodiment includes a socket housing 11 made of a synthetic resin and the like, and a socket contact 21. In addition, an electric wire W is disposed on the socket connector 10. The electric wire W extends in the fourth direction D4. As shown in FIGS. 9 and 11, the electric wire W is connected to the socket contact 21. When the base contact 35 is sandwiched between the socket contacts 21, the socket contact 21 and the base contact 35 are electrically connected.

  The socket housing 11 has a substantially rectangular parallelepiped shape as a whole. In the socket housing 11, the edge part along the 4th direction D4 in the 2nd direction D2 side extends on the outer side of the 5th direction D5, and the 3rd direction D3, and forms the collar part 11a. The collar portion 11a improves the ease of picking up the socket housing 11 when the socket connector 10 is attached or detached.

As shown in FIGS. 1 and 4, a pair of fitting guide ribs 61 and 61 and a pair of side ribs 62 and 62 project outside the fifth direction D <b> 5 on the outer side of the fifth direction D <b> 5 in the socket housing 11. Is formed.
The pair of fitting guide ribs 61, 61 are provided on the end side of the socket housing 11 on the fourth direction D4 side. The pair of side ribs 62 and 62 are provided on the end side of the socket housing 11 on the third direction D3 side.

  The fitting guide rib 61 is provided on the fourth direction D4 side in the socket housing 11 so as to protrude outward in the fifth direction D5. The fitting guide rib 61 is located on the side of the socket housing 11 on the fourth direction D4 side and on the first direction D1 side.

  The fitting guide rib 61 is formed in a substantially cylindrical shape, and is cut out in a tapered shape at the edge portion in the first direction D1. When the socket connector 10 and the base connector 30 are combined, the fitting guide rib 61 is inserted into the fitting guide rib groove 51b in the first direction D1 and functions as an insertion guide. When the socket connector 10 and the base connector 30 are combined, the fitting guide rib 61 is moved along the fitting guide rib groove 51b to be guided to a position on the fourth direction D4 side and the first direction D1 side. Then, the socket connector 10 is rotated and / or slid to be introduced and accommodated so as to slide into the fitting guide rib locking portion 51c.

  In addition, in this embodiment, although the fitting guide rib 61 was formed in the substantially cylindrical shape, it is not limited to this. For example, the fitting guide rib 61 may be formed in an elliptical column shape or a polygonal column shape. In addition, the fitting guide rib 61 has a column shape, but may be formed in a cylindrical shape, for example.

  The pair of side ribs 62, 62 protrude to the third direction D 3 side in the socket housing 11 and to the outside of the fifth direction D 5. As shown in FIGS. 4 and 5, the side rib 62 is formed with a through hole 621 that penetrates in the third direction D <b> 3. As shown in FIGS. 4, 18, and 19, the through hole 621 is disposed at a position at least partially overlapping with the fitting guide rib 61 when viewed in the third direction D <b> 3 in the combined state.

  As shown in FIG. 4, the side rib 62 is formed with a side rib inclined portion 62a. The side rib inclined portion 62a is provided on the third direction D3 side and the first direction D1 side in the side rib 62, and is inclined toward the fourth direction D4 side and the first direction D1 side.

The extension rib 63 is formed integrally with the side rib 62 on the outer side of the side rib 62 in the fifth direction D <b> 5, and is formed to protrude to the outer side of the fifth direction D <b> 5 of the side rib 62.
The extension rib 63 is formed in a substantially trapezoidal column shape and extends in the fourth direction D4.
When the socket connector 10 and the base connector 30 are combined, the side rib 62 and the extension rib 63 are inserted in the side rib groove 52a in the first direction D1 and function as an insertion guide.
As shown in FIG. 11, the extension rib 63 engages with a latch portion 52 b formed in the side rib groove constituting portion 52 provided in the base housing 31 in the combined state.

  As shown in FIG. 5, a rectangular electric wire insertion hole 11 d into which the electric wire W is inserted is provided in the end portion 11 c on the fourth direction D4 side of the socket housing 11. The electric wire insertion hole 11d is a space in which the electric wire W is arranged. 11 d of electric wire insertion holes are divided and formed by the rectangular electric wire arrangement frame 71 which comprises an external shape, and the partition wall 72 which divides the inner side of the electric wire arrangement frame 71 in the 5th direction D5.

As illustrated in FIG. 5, the electric wire arrangement frame 71 is formed in a substantially rectangular frame shape when viewed in the third direction D3. The electric wire arrangement frame 71 includes a bottom wall portion 711, a pair of side wall portions 712 and 712 as socket side interference portions, and a top wall portion 713.
The bottom wall portion 711, the pair of side wall portions 712 and 712, and the top wall portion 713 are formed in a plate shape at least at the end portion in the third direction D <b> 3 of the socket housing 11. The end surfaces on the third direction D3 side of the socket housing 11 in the bottom wall portion 711, the pair of side wall portions 712, 712, and the top wall portion 713 are located on the same plane.

The ceiling wall part 713 comprises the ceiling wall of the electric wire arrangement | positioning frame 71, as shown in FIG.
The bottom wall portion 711 is disposed substantially parallel to the top wall portion 713 and constitutes a bottom wall of the wire arrangement frame body 71. The bottom wall portion 711 is formed in a plate shape having a predetermined thickness on the end portion side in the fourth direction D4. As shown in FIG. 17, the contact exposure slit 13 is formed on the third direction D3 side. The socket contact 21 is disposed so as to be exposed from the contact exposure slit 13.

  The end surface 711a on the fourth direction D4 side of the bottom wall portion 711 extends linearly in the fifth direction D5 as shown in FIGS. 5, 7, and 17, and constitutes the socket-side reference surface 110. As shown in FIG. 7, the socket-side reference surface 110 faces the base-side reference surface 100 in the combined state. As shown in FIG. 7, the end surface 711a (the socket-side reference surface 110) of the bottom wall portion 711 is, as shown in FIG. 7, the base-side reference surface 100 (the third of the outer rear wall portion 41) at both ends in the fifth direction D5. It contacts or approaches the end face 41a) on the direction D3 side.

  As shown in FIG. 5, the pair of side wall portions 712 and 712 are respectively erected in the second direction D2 from both end portions in the fifth direction D5 of the bottom wall portion 711 when viewed from the third direction D3. ing. The pair of side wall portions 712 and 712 are provided on the outer sides of the socket housing 11 in the fifth direction D5. The pair of side wall portions 712 and 712 are provided at both ends of the wire arrangement frame body 71 of the socket housing 11. The pair of side wall portions 712 and 712 are opposed to portions other than the inner convex rib 422 in the base housing 31.

  Specifically, as shown in FIG. 7, in the combined state of the base connector 30 and the socket connector 10 having the same number of electrodes, the pair of side wall portions 712 and 712 are paired with the pair of outer rear wall portions 41 in the rear wall portion 32c. , 41 is opposed to the edge 34b on the third direction D3 side. Thereby, in the combined state of the base connector 30 and the socket connector 10 having the same number of electrodes, the pair of side wall portions 712 and 712 do not hinder the formation of the combined state.

  The plurality of partition walls 72 partition the space in which the electric wires W are arranged in the fifth direction D5 so as to divide the space inside the electric wire arrangement frame 71 into spaces in which the electric wires W are arranged. Specifically, the plurality of partition walls 72 extend in the first direction D <b> 1 and the third direction D <b> 3 and are arranged so as to connect the top wall portion 713 and the bottom wall portion 711 of the wire arrangement frame body 71. The plurality of partition walls 72 are arranged side by side in the fifth direction D5 at predetermined intervals inside the electric wire arrangement frame 71.

  As shown in FIG. 5, the partition wall 72 has a notch 721 formed at the end of the socket housing 11 in the fourth direction D4 by notching the portion on the first direction D1 side to the third direction D3 side. doing. The cutout 721 is formed by cutting out a part of the partition wall 72. Specifically, as shown in FIG. 21, the notch 721 has a substantially rectangular shape at the end in the first direction D1 and the end in the fourth direction D4 of the partition wall 72 when viewed in the fifth direction D5. It is formed by cutting out. As shown in FIG. 10, the rear wall reinforcing convex portion 423 is accommodated in the cutout portion 721 in the combined state.

  In the electric wire arrangement frame 71 configured as described above, as shown in FIG. 5, the space between the pair of side wall portions 712 and 712 includes the notch portion 721 and the socket-side concave portion 70 in the fifth direction D5. Configure. In the present embodiment, the socket-side recess 70 is a space on the second direction D2 side of the bottom wall portion 711. The socket-side recess 70 is recessed from the socket-side reference surface 110 to the third direction D3 side so as not to interfere with the inward-side convex rib 422. In the combined state, as shown in FIG. 10, the inner side convex rib 422 is accommodated in the socket side concave portion 70. In the combined state, the inner side convex rib 422 is accommodated in the socket side concave part 70, and when viewed from the first direction D1 and the second direction D2, as shown in FIG. 7, the inner side convex rib 422 and the bottom wall It is arranged at a position overlapping with the portion 711.

  As shown in FIG. 7 and FIG. 10, in the combined state, in the third direction D3 and the fourth direction, the region where the inward convex rib 422 and the bottom wall portion 711 overlap is defined as the inward convex rib overlapping region. It is called K2. As shown in FIGS. 7 and 8, the inward convex rib overlapping area K2 is an area where the inward convex rib 422 and the bottom wall portion 711 overlap when viewed in the second direction D2. The inward convex rib 422 is located on the second direction D2 side of the bottom wall portion 711 in the inward convex rib overlap region K2.

  As shown in FIG. 7, the inward convex rib overlapping region K2 is fixed to the fixing member 8 when viewed in a position close to the fixing member 8 or in the fifth direction D5 in the third direction D3 and the fourth direction D4. Is formed at a position where a part of each overlaps. As shown in FIG. 7, the inward convex rib overlapping region K2 is in a position close to the fitting guide rib accommodating region K1 in the third direction D3 and the fourth direction D4, or when viewed in the fifth direction D5. It is formed at a position where a part of the fitting guide rib accommodating region K1 overlaps.

  Here, as shown in FIG. 7, in the third direction D3 and the fourth direction D4, the inward convex rib overlapping region K2 is close to the position where the base housing 31 is fixed to the circuit board S by the fixing member 8. Position. Therefore, elastic deformation of the base housing 31 can be suppressed when the inward convex rib 422 is accommodated in the socket concave portion 70.

As shown in FIGS. 22 to 24, the socket connector 10 and the base connector 30 having the above-described configuration are combined as follows to form a socket-base connector pair.
22A and 22B are views showing a state in which the socket connector 10 is tilted when the socket connector 10 and the base connector 30 are combined. FIGS. 23A and 23B are diagrams sequentially illustrating a combination procedure of the socket connector 10 and the base connector 30 and are sectional views taken along line 22A-22B-22C-22D shown in FIG. 22A. 24 (A) and 24 (B) are diagrams sequentially showing the combination procedure that has progressed from the state shown in FIGS. 23 (A) and 23 (B). 25 (A) to 25 (C) are diagrams sequentially showing a combination procedure of the socket connector 10 and the base connector 30, and are sectional views taken along line 22E-22E shown in FIG. 22 (B).

  The fitting guide rib 61 and the fitting guide rib groove 51b are opposed to each other, the side rib 62 and the side rib groove 52a are opposed to each other, and the end surface 711a of the bottom wall portion 711 in the fourth direction D4 is formed as the inward convex rib 422. In a state where the contact exposure slit 13 and the socket-side contact portion 35a of the base contact 35 are opposed to each other, the socket connector 10 and the base connector 30 are relatively moved closer to the first direction D1 or the second direction D2. As a result, the fitting guide rib 61 is inserted into the fitting guide rib groove 51b, the side rib 62 is inserted into the side rib groove 43, and the bottom wall portion 711 is located below the inward convex rib 422 (first direction D1). The socket side contact portion 35a of the base contact 35 is inserted into the contact exposure slit 13.

  In particular, the socket connector 10 and the base connector 30 are preferably combined in the procedure shown in FIGS.

  First, as shown in FIGS. 22A, 22B, and 23A, the socket housing 11 of the socket connector 10 is tilted in the fourth direction D4 side to the first direction D1 side. As shown in FIG. 25B and FIG. 25A, the fitting guide rib 61 is inserted toward the fitting guide rib groove 51b and the end surface 711a of the bottom wall portion 711 in the fourth direction D4 is formed as an inward convex rib. It is inserted toward the lower side of 422 (first direction D1 side). That is, the fitting guide rib 61 is inserted into the fitting guide rib groove 51b before the side rib 62 is inserted into the side rib groove 52a.

  The socket connector 10 is moved in the first direction D <b> 1 toward the base connector 30 while maintaining an inclination substantially. At some point, the side rib inclined portion 62a of the side rib 62 contacts the wall in the third direction D3 in the side rib groove 52a. At this time, the fitting guide rib 61 is positioned in the vicinity of the fitting guide rib locking portion 51c in the fitting guide rib groove 51b, as shown in FIG. Moreover, the bottom wall part 711 is located in the vicinity of the inward convex rib 422 as shown in FIG.

  Further, when the socket connector 10 is further moved in the first direction D1, the side rib 62 receives a reaction force in the fourth direction D4 from the side rib groove 52a. Therefore, the side rib 62 is bent in the fourth direction D4, and the fitting guide rib 61 is introduced and accommodated so as to slide into the fitting guide rib locking portion 51c as shown in FIG. Similarly, as shown in FIG. 25C, the bottom wall portion 711 is introduced and accommodated so as to slide downward (in the first direction D1 side) of the inward convex rib 422. In other words, in this state, the inward convex rib 422 is accommodated in the socket concave portion 70.

  Thus, when the fitting guide rib 61 is accommodated in the fitting guide rib locking portion 51c and the bottom wall portion 711 is accommodated on the lower side (the first direction D1 side) of the inward convex rib 422, the socket Even if the fourth direction D4 side of the housing 11 is likely to move away from the base housing 31 (that is, in the third direction D3), the fitting guide rib 61 is locked to the fitting guide rib locking portion 51c. Since the bottom wall portion 711 is accommodated on the lower side (first direction D1 side) of the inward convex rib 422, the third direction D3 side of the socket housing 11 is difficult to separate from the base housing 31.

  After the fitting guide rib 61 is accommodated in the fitting guide rib locking portion 51c and the inward convex rib 422 is accommodated in the socket-side recess 70, a force of a predetermined level or more is applied to further increase the socket in the third direction D3 side. The connector 10 and the base connector 30 are relatively moved closer to the first direction D1 or the second direction D2. Then, the extension rib 63 slides on the inclined surface of the latch portion 52b, the side rib 62 bends inward in the fifth direction D5, and gets over the latch portion 52b, as shown in FIGS. 24 (A) and (B). As described above, the latch portion 52b moves to the first direction D1 side. That is, the extension rib 63 engages with the latch portion 52b and is completely inserted into the side rib groove 52a.

  When the side rib 62 and the extension rib 63 are completely inserted into the side rib groove 52a, the socket connector 10 and the base connector 30 are in the state shown in FIG. Formation ends. Further, when the extension rib 63 is engaged with the latch portion 52b, a click feeling is generated. Therefore, the operator can easily determine the end of the formation of the socket connector-base connector pair. Thus, the connection state of the socket connector 10 and the base connector 30 is maintained by engaging the extension rib 63 and the latch portion 52b.

  Here, the pair of side ribs 62, 62 protrude toward the fourth direction D4 side in the socket housing 11 and to the outside in the third direction D3. The side rib 62 has a through hole 621 that penetrates in the third direction D3. Therefore, the pair of side ribs 62 and 62 are easily deformed inward in the fifth direction D5. Thus, when the socket connector 10 and the base connector 30 are combined, the pair of side ribs 62, 62 are deformed inward in the fifth direction D5, so that the side rib 62 and the extension rib 63 are formed into the side rib groove 52a. It is easy to insert and easy to remove from the side rib groove 52a. Further, it is possible to reduce damage such as wear of the socket connector 10 and the base connector 30 caused by inserting and removing the socket connector 10 with respect to the base connector 30.

According to the socket connector 10 of the present embodiment having the above configuration, the following effects are exhibited.
In the present embodiment, the socket housing 11 includes fitting guide ribs 61 that protrude outward in the fifth direction D5, and the base housing 31 includes a fitting guide rib groove 51b that guides the fitting guide rib 61. The housing 11 protrudes outward in the fifth direction D5 and has side ribs 62 formed with through holes 621 penetrating in the third direction D3, and extension ribs 63 protruding outward in the fifth direction D5 of the side ribs 62. The base housing 31 is for a side rib that guides the side rib 62 to a position on the first direction D1 side in the base housing 31 in a state where the side rib 62 and the extension rib 63 are pressed inside the fifth direction D5. A groove 52a and a latch portion 52b with which the extension rib 63 engages in the combined state are provided. Therefore, the side ribs 62 and 62 are easily deformed inward in the fifth direction D5. Accordingly, when the socket connector 10 and the base connector 30 are combined, the side ribs 62 and 62 are deformed inward in the fifth direction D5, and therefore the side rib 62 and the extension rib 63 are inserted into the side rib groove 52a. It is easy to remove from the side rib groove 52a. Further, it is possible to reduce damage such as wear of the socket connector 10 and the base connector 30 caused by inserting and removing the socket connector 10 with respect to the base connector 30.

  Further, in the present embodiment, when viewed in the third direction D3 in the combined state, the through hole 621 and the fitting guide rib 61 are disposed at a position where at least a part thereof overlaps. Therefore, when molding the socket connector 10 using a mold, the core pin can be passed through the through-hole 621 in the configuration in which the through-hole 621 and the fitting guide rib 61 are overlapped with each other. In forming the guide rib 61, the degree of freedom in the configuration of the mold can be improved. For example, the number of molds can be reduced, and the mold division design can be easily performed.

The present invention is not limited to the above embodiment, and can be modified within the technical scope described in the claims.
For example, in the embodiment, the “fitting guide rib 61”, the “fitting guide rib groove 51b”, the “side rib 62”, the “extension rib 63”, the “side rib groove 52a”, and the “latch portion 52b” are provided. However, the present invention is not limited to this, and may be configured to include one pair on one side in the fifth direction D5.

10 socket connector 11 socket housing 30 base connector 31 base housing 51b groove for fitting guide rib 52a groove for side rib 52b latch portion 61 fitting guide rib 62 side rib 63 extension rib 621 through hole D1 first direction D2 second direction D3 third Direction D4 Fourth direction D5 Fifth direction S Circuit board

Claims (3)

A socket connector used in combination with a base connector having a base housing and fixed to a circuit board,
In the combined state in which the socket connector and the base connector are combined, a direction from the socket connector toward the base connector is a first direction, a direction opposite to the first direction is a second direction, and the first direction is And a predetermined direction orthogonal to the second direction is a third direction, a direction opposite to the third direction is a fourth direction, the first direction, the second direction, the third direction, and the fourth direction. When the direction orthogonal to is the fifth direction,
The socket connector includes a socket housing,
The socket housing includes a fitting guide rib projecting outward in the fifth direction on the fourth direction side in the socket housing,
The base housing includes a fitting guide rib groove that guides the fitting guide rib to a position on the fourth direction side and the first direction side in the base housing,
The socket housing includes a side rib formed on the third direction side of the socket housing, and a through-hole protruding outward in the fifth direction and penetrating in the third direction, and the fifth direction of the side rib. An extension rib projecting to the outside of the
The base housing includes a side rib groove that guides the side rib to a position on the first direction side in the base housing in a state where the side rib and the extension rib are pressed inward in the fifth direction. And a latch part engaged with the extension rib in a state. A socket connector used in combination with a base connector having a base housing and fixed to a circuit board,
In the combined state in which the socket connector and the base connector are combined, a direction from the socket connector toward the base connector is a first direction, a direction opposite to the first direction is a second direction, and the first direction is And a predetermined direction orthogonal to the second direction is a third direction, a direction opposite to the third direction is a fourth direction, the first direction, the second direction, the third direction, and the fourth direction. When the direction orthogonal to is the fifth direction,
The socket connector includes a socket housing,
The socket housing includes a pair of fitting guide ribs protruding outward in the fifth direction on the fourth direction side in the socket housing,
The base housing includes a pair of fitting guide rib grooves for guiding the pair of fitting guide ribs to positions on the fourth direction side and the first direction side in the base housing,
The socket housing has a pair of side ribs formed on the third direction side of the socket housing, each having a through hole projecting outward in the fifth direction and penetrating in the third direction, and a pair of the side ribs A pair of extension ribs protruding outward in the fifth direction,
The base housing is configured to guide the pair of side ribs to a position on the first direction side in the base housing in a state where the pair of side ribs and the pair of extension ribs are pressed inward in the fifth direction. A socket connector comprising a groove for side ribs and a pair of latch portions engaged with the pair of extension ribs in the combined state.   The socket connector according to claim 1 or 2, wherein when viewed in the third direction in the combined state, the through hole and the fitting guide rib are arranged at a position where at least a part thereof overlaps.

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