JP2015232932A - Socket connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a socket connector configured to facilitate a reduction in size.SOLUTION: A socket connector comprises a socket housing 11 and a socket contact 21. The socket housing 11 has a wire arrangement groove 12 in which the socket contact 21 is arranged; a contact accommodating part 14 provided nearer to an end part in a fourth direction D4 than to the wire arrangement groove 12 and communicating with the wire arrangement groove 12; and a housing lance 14e provided at the contact accommodating part 14. The socket contact 21 has a body part 22, a contact part 24 accommodated in the contact accommodating part 14, and a fitting part 25 provided at an end part of the body part 22 in the fourth direction D4, located opposite to the contact part 24 in a first direction D1 or second direction D2, and fitting to the housing lance 14e.

Description

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

  Conventionally, a pressure contact type socket connector is known as a socket connector used in combination with a base connector fixed to a circuit board (see Patent Document 1).

  1 and 3 in Patent Document 1 show a conventional pressure contact type socket connector 100. The press contact socket connector 100 includes a connector housing 20 having a cavity 25, a contact 10 press-fitted into the cavity 25, and an electric wire 300.

  As can be seen from FIGS. 1 and 3 of Patent Document 1, the press contact socket connector 100 further includes a holding mechanism 30. The holding mechanism 30 includes a lance 31 provided in the cavity 25 in the connector housing rear half 20 a of the connector housing 20 and a bottom wall 32 provided at a position corresponding to the lance 31 in the contact 10. When the contact 10 is press-fitted into the cavity 25, the rear end of the bottom wall 32, which is a fitting portion, is fitted into the lance 31, and the contact 10 is prevented from coming out of the cavity 25.

JP 2001-283951 A

  As can be seen from FIGS. 1 and 3 of Patent Document 1, in order to provide the lance 31 and the bottom wall 32 as the holding mechanism 30 in the press-contact socket connector 100, a dedicated space for the holding mechanism 30 is required. . Since such a dedicated space is required, it is difficult to reduce the size of the press-contact socket connector 100 of Patent Document 1.

  It is an object of the present invention to provide a socket connector having a configuration that can be easily reduced in size.

  A socket connector having a base housing and a base contact and being used in combination with a base connector fixed to a circuit board, in which an electric wire is arranged, in a state where 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, a direction perpendicular to the first direction and the second direction is a third direction, and the first direction is 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. A socket and a socket contact; and the socket housing includes a third direction side end surface which is an end surface on the third direction side. An electric wire arrangement groove extending in the third direction so as to reach the end surface on the third direction side, the electric wire arrangement groove in which the socket contact is arranged, and an end portion on the fourth direction side with respect to the electric wire arrangement groove And a housing lance provided in the contact housing portion, the wire placement groove facing the groove bottom surface and the second direction. A main body having a bottom plate in contact with the groove bottom surface, and a side wall plate in contact with each of the two groove side walls, and the fourth direction of the main body. A contact portion provided on the side end portion and received in the contact receiving portion; and provided in an end portion in the fourth direction of the main body portion, and the contact portion in the first direction or the second direction. Mating with the housing lance A fitting portion that relates to sockets connector comprising a.

  It is preferable that the fitting portion is formed of a plate-like member having a fitting hole, and the fitting portion is fitted into the housing lance by fitting the housing lance into the fitting hole.

  A press-fitting auxiliary member extending in the third direction is provided at an end portion of the main body portion on the third direction side, and the second direction of the wire arrangement groove on the third direction side end surface of the socket housing is provided. It is preferable that a press-fit auxiliary hole into which the press-fit auxiliary member is inserted is provided on the side, and the press-fit auxiliary member is bent in the fourth direction and inserted into the press-fit auxiliary hole.

  ADVANTAGE OF THE INVENTION According to this invention, the socket connector of a structure with easy size reduction can be provided.

It is the perspective view which looked at the socket connector and base connector of 1st Embodiment of this invention from the socket connector side in the state which isolate | separated. It is the perspective view seen from the socket connector side in the state which combined the socket connector and base connector of 1st Embodiment of this invention. It is a perspective view of the socket connector of a 1st embodiment of the present invention. FIG. 4 is an exploded view of the socket connector shown in FIG. 3. It is the perspective view which looked at the socket contact in the socket connector of 1st Embodiment in the 2nd direction. It is the perspective view which looked at the socket contact in the socket connector of a 1st embodiment in the 1st direction. It is sectional drawing cut | disconnected by the BB line shown in FIG. 3 about the socket connector shown in FIG. FIG. 8 is an exploded view of the socket connector shown in FIG. 7. It is sectional drawing cut | disconnected by the AA line shown in FIG. 2 about the state which combined the socket connector and base connector shown in FIG. (A)-(B) is sectional drawing cut | disconnected by the CC line | wire shown in FIG. 5 about the press-contact part of a socket contact, (A) is sectional drawing in case the electric wire W is not arrange | positioned. (B) is sectional drawing when the electric wire W is arrange | positioned. It is an enlarged view of the vicinity of the caulking member of the socket connector. (A)-(C) is a figure for demonstrating the socket connector of 2nd Embodiment, (A) is an enlarged view of the crimping member periphery of the socket connector of 2nd Embodiment of this invention, (B) ) Is an enlarged view of the vicinity of the caulking member of the socket contact according to the second embodiment of the present invention, and (C) is a cross-sectional view of the vicinity of the caulking member of the socket connector according to the second embodiment of the present invention. (A)-(C) is a figure for demonstrating the socket connector of 3rd Embodiment, (A) is the state which combined the socket connector and base connector of 3rd Embodiment of this invention. The perspective view seen from the socket connector side, (B) is an enlarged view around the positive lock portion of the socket connector of the third embodiment of the present invention, and (C) is a diagram showing the structure of the positive lock portion. (A)-(D) are figures which show the modification of a press-contact part. (A)-(D) are figures which show the modification of the shape of a crimping member. (A)-(C) are figures which show the modification of the shape of a fitting part.

First Embodiment Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view seen from the socket connector side in a state where the socket connector and the base connector of the first embodiment of the present invention are separated. FIG. 2 is a perspective view as seen from the socket connector side in a state where the socket connector and the base connector of the first embodiment of the present invention are combined. FIG. 3 is a perspective view of the socket connector according to the first embodiment of the present invention. FIG. 4 is an exploded view of the socket connector shown in FIG. FIG. 5 is a perspective view of the socket contact in the socket connector of the first embodiment as viewed in the second direction. FIG. 6 is a perspective view of the socket contact in the socket connector of the first embodiment as viewed in the first direction.

  7 is a cross-sectional view of the socket connector shown in FIG. 3 cut along the line BB shown in FIG. FIG. 8 is an exploded view of the socket connector shown in FIG. 9 is a cross-sectional view taken along the line AA shown in FIG. 2 in a state where the socket connector and the base connector shown in FIG. 2 are combined. FIG. 10 is a cross-sectional view of the pressure contact portion of the socket contact, cut along line CC shown in FIG. 5, (A) is a cross-sectional view when the electric wire W is not arranged, (B) It is sectional drawing when the electric wire W is arrange | positioned. FIG. 11 is an enlarged view around the caulking member of the socket connector.

The socket connector of the present invention is a connector used in combination with a base connector.
First, the base connector 30 used in combination with the socket connector 10 of the first 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. The direction orthogonal to the third direction D3, the direction opposite to the third direction D3 as the fourth direction D4, and the direction orthogonal to the first direction D1, the second direction D2, the third direction D3 and the fourth direction D4 as the first direction It is set as “width direction D5” as five directions.

  As shown in FIGS. 1 and 2, the base connector 30 is a connector fixed to the surface of the circuit board 40. As shown in FIG. 1, the base connector 30 includes a base housing 31 made of a synthetic resin or the like, and a plurality of base contacts 35. The base housing 31 includes a substantially rectangular bottom plate portion 38 and a “U” -shaped peripheral wall portion 32 surrounding three sides of the substantially rectangular bottom plate portion 38 when viewed in plan in the first direction D1. ing. In the base connector 30, an accommodation space 39 is formed by the bottom plate portion 38 and the substantially “U” -shaped peripheral wall portion 32. The second direction D2 side and the third direction D3 side of the accommodation space 39 are open.

  As shown in FIG. 1, the substantially “U” -shaped peripheral wall portion 32 includes a front wall portion 32a that is located on the fourth direction D4 side of the bottom plate portion 38 and extends in the width direction D5, and both ends of the front wall portion 32a. A pair of side wall portions 32b extending in the third direction D3. The end surface on the first direction D1 side of the front wall portion 32a is shifted to the second direction D2 side with respect to the end surface on the first direction D1 side of the bottom plate portion 38 and the end surface on the first direction D1 side of the side wall portion 32b. . Therefore, a step is formed on the front wall portion 32 a of the base housing 31.

  A plurality of base terminal grooves 32c are provided on the end surface of the front wall portion 32a on the first direction D1 side in the second direction D2. The base terminal groove 32c is formed to reach the end surface on the third direction D3 side and the end surface on the fourth direction D4 side of the front wall portion 32a.

  A protrusion accommodating portion 32d is formed at a portion where the front wall portion 32a and the side wall portion 32b are connected (two corners on the fourth direction D4 side of the accommodating space 39). Further, a lock groove 32e is formed on the side surface on the side of the accommodation space 39 in the vicinity of the center of the side wall portion 32b. A latch portion 32f is provided in the lock groove 32e. The end of the latch portion 32f on the second direction D2 side is an inclined surface that is inclined toward the inner side in the width direction D5 and the first direction D1.

  The front wall portion 32a has a front wall thin portion 32a1 that is a portion that is thinner toward the fourth direction D4 side at both ends of the end surface on the third direction D3 side. Further, the side wall portion 32b has a side wall thin portion 32b1 that is a portion that is thinner toward the outside in the width direction D5 on the fourth direction D4 side than near the center. A partition wall 32g extending inward in the width direction D5 is provided in the side wall thin portion 32b1. The portion of the side wall thin portion 32b1 closer to the third direction D3 than the partition wall 32g is the lock groove 32e, and the fourth direction D4 side is the protrusion accommodating portion 32d. The protrusion accommodating portion 32d is a space formed by the partition wall 32g, the front wall thin portion 32a1, and the side wall thin portion 32b1.

  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 32c. 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 40 and is mechanically fixed to the circuit board 40 by soldering or the like.

Next, the socket connector 10 according to the first embodiment used in combination with the base connector 30 will be described.
As shown in FIGS. 1 to 4 and the like, the socket connector 10 of the first embodiment includes a socket housing 11 made of 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 third direction D3. The electric wire W includes a core wire W1 made of a conductor such as metal and an insulating material W2 that covers the core wire W1.

  The socket housing 11 has a substantially rectangular parallelepiped shape as a whole. In the following description, the surface on the first direction D1 side of the substantially rectangular parallelepiped is the first direction side main surface P1, the surface on the second direction D2 side is the second direction main surface P2, and the surface on the third direction D3 side is The third direction side end face P3, the fourth direction D4 side face as the fourth direction side end face P4, and the two end faces facing each other in the width direction D5 as the width direction side end face P5.

  As shown in FIGS. 3, 4, 7, 8, and the like, the first direction main surface P <b> 1 of the socket housing 11 has five (plural) wire arrangement grooves 12 and five (plural) contacts. An exposure slit 13 is provided. The electric wire arrangement groove 12 extends from the position near the fourth direction D4 of the first direction main surface P1 toward the third direction side end surface P3 and reaches the third direction side end surface P3. The electric wire arrangement groove 12 includes a groove bottom surface 12a and two groove side walls 12b facing the width direction D5. A strain relief 12c is provided on the groove side wall 12b. The strain relief 12c is formed thicker in the width direction D5 than the groove side wall 12b.

  In the contact exposure slit 13, in the first direction side main surface P1, the first direction side main surface formed from the end portion on the fourth direction D4 side to the end portion on the fourth direction D4 side of the wire arrangement groove 12 is formed. The portion 13a and the fourth direction side end surface P4 are open at the fourth direction side end surface portion 13b formed from the position near the second direction D2 to the first direction side main surface P1. In the third direction D3 and the fourth direction D4, the center line in the width direction D5 of the contact exposure slit 13 substantially coincides with the center line in the width direction D5 of the wire arrangement groove 12. Further, the number of contact exposure slits 13 is equal to the number of the wire arrangement grooves 12. The contact exposure slit 13 communicates with a contact accommodating portion 14 described later.

  As shown in FIGS. 7 and 8, a contact accommodating portion 14, which is a space communicating with the electric wire arrangement groove 12, is provided on the end portion side in the fourth direction D <b> 4 with respect to the electric wire arrangement groove 12 in the socket housing 11. ing. The contact accommodating portion 14 includes an accommodating portion back surface 14a that is a surface on the fourth direction D4 side, two accommodating portion side walls 14b that face each other in the width direction D5, and an accommodating portion bottom surface 14c that is a surface on the second direction D2 side. And a space formed by the accommodating portion top surface 14d that is a surface on the first direction D1 side, and is a space that is open on the third direction side. The accommodating portion side wall 14b is connected to the groove side wall 12b. The accommodating portion bottom surface 14c is connected to the groove bottom surface 12a.

  As described above, the contact exposure slit 13 communicates with the contact accommodating portion 14. Therefore, the first direction side main surface portion 13a of the contact exposure slit 13 is a slit formed on the housing top surface 14d. The end surface portion 13b on the fourth direction side of the contact exposure slit 13 is a slit formed in the accommodating portion back surface 14a. As a result, the contact accommodating portion 14 is connected to the space on the first direction main surface P1 side and the external space on the fourth direction end surface P4 side via the contact exposure slit 13.

  As shown in FIGS. 7 and 8, a housing lance 14 e is provided on the receiving portion bottom surface 14 c of the contact receiving portion 14. As can be understood from the fact that the housing lance 14e has a substantially trapezoidal cross section cut along the plane D1-D2-D3-D4, the side surface on the third direction D3 side faces the third direction D3 and the second direction D2. It has the shape of a substantially trapezoidal column with an inclined surface. A substantially “U” -shaped through-hole 14 f is provided around the housing lance 14 e (both sides on the fourth direction D 4 side and the width direction D 5 side) on the housing bottom surface 14 c. As shown in FIG.1 and FIG.2, the through-hole 14f has reached to the 2nd direction side main surface P2. Therefore, the contact accommodating part 14 is connected with the external space by the side of the 2nd direction side main surface P2 via the through-hole 14f.

  As shown in FIGS. 1 to 4, the three-direction protrusions 15 having a substantially rectangular parallelepiped shape are provided at two corners of the socket housing 11 on the third direction D <b> 3 side. At the two corners on the fourth direction D4 side, substantially rectangular parallelepiped fourth direction projections 16 are provided. Further, a friction lock portion 17 is provided at a position close to the fourth direction D4 side in the two width direction side end faces P5.

  As shown in FIGS. 4, 5, 6, and 10, the socket contact 21 includes a main body portion 22, two press contact portions 23, a contact portion 24, a fitting portion 25, and two caulking members 26. ,have. The main body 22 includes a bottom plate 22a located on the second direction D2 side, and a side wall plate 22b that rises in the first direction D1 from both ends in the width direction D5 of the bottom plate 22a. The bottom plate 22a has a first bottom plate portion 22a1 near the center of the main body portion and a second bottom plate portion 22a2 near the end portion on the third direction D3 side. Each side wall plate 22b has two recesses 22b1.

  A pressure contact portion 23 is provided at the end portion on the third direction D3 side and the end portion on the fourth direction D4 side of the first bottom plate portion 22a1 so as to rise in the first direction D1. As shown in FIGS. 4, 5, 6, and 10, the press contact portion 23 includes two electric wire clamping members 23 a that face each other in the width direction D <b> 5. The two electric wire holding members 23 a are members for holding the electric wire W and for making electrical contact between the socket contact 21 and the electric wire W.

  As shown in FIG. 10B, the electric wire holding member 23a holds the electric wire W. The electric wire clamping member 23a includes a first portion 23a1 that is a portion where the electric wire W is disposed, and a second portion 23a2 that is a portion closer to the first direction D1 than the first portion 23a1. A protrusion 23b is provided on the second portion 23a2 of each of the two electric wire holding members 23a. Each protrusion 23b is a protrusion having a curved outer shape, and is opposed to each other in the width direction D5 and protrudes in a direction approaching each other. By providing the protrusion 23b, the distance between the two electric wire holding members 23a is narrower in the second portion 23a2 than in the first portion 23a1. Moreover, the hook part 23c is provided in the other side of the part in which the protrusion 23b was provided in the 2nd part 23a2 of the two electric wire clamping members 23a, respectively. The hook portion 23c protrudes toward the side wall plate 22b (toward the outside in the width direction D5), and is hooked on the recessed portion 22b1 of the side wall plate 22b.

  As shown in FIGS. 4, 5, and 6, two contact portions 24 are provided at the end portion of the main body portion 22 on the fourth direction D <b> 4 side. The two contact portions 24 are plate-like members. The end portion on the third direction D3 side in the contact portion 24 is connected to a portion on the first direction D1 side of the end portion on the fourth direction D4 side of the side wall plate 22b. The two contact portions 24 extend in the fourth direction D4 and are bent so as to approach each other toward the tip in the fourth direction D4.

  As shown in FIGS. 4, 5, and 6, a fitting portion 25 is provided at the end portion of the main body portion 22 on the fourth direction D4 side. The fitting part 25 is opposed to the two contact parts 24 in the second direction D2. The fitting part 25 is a plate-like member having a fitting hole 25a. Both ends of the plate member in the width direction D5 are bent toward the first direction D1. The two corners on the third direction D3 side of the plate-like member are connected to the second direction D2 side portion of the end portion on the fourth direction D4 side of the side wall plate 22b.

  As shown in FIGS. 4, 5, and 6, two caulking members 26 facing the width direction D <b> 5 are provided on the end portion side of the main body portion 22 on the third direction D <b> 3 side. The two caulking members 26 are plate-like members. The ends of the caulking member 26 on the second direction D2 side are connected to both ends of the second bottom plate portion 22a2 in the width direction D5. The caulking member 26 includes a caulking main body portion 26a and a caulking reinforcement portion 26b. The caulking main body portion 26a is a substantially rectangular portion. The caulking reinforcing portion 26b is a substantially rectangular protrusion provided at an end portion on the first direction D1 side of the caulking main body portion 26a. One caulking reinforcing portion 26b is provided on the third direction D3 side of the end portion on the first direction D1 side of the caulking main body portion 26a. The other caulking reinforcing portion 26b is provided on the fourth direction D4 side of the end portion on the first direction D1 side of the caulking main body portion 26a. As will be described later, the caulking member 26 is a member for caulking the electric wire by embedding the electric wire W arranged in the socket contact 21. The two caulking reinforcing portions 26b are disposed on the caulking main body portion 26a so that the caulking members 26 overlap each other in the third direction D3 and the fourth direction D4 when the caulking member 26 holds the electric wire W.

  As shown in FIGS. 3, 4, 7, 8, and the like, the socket contact 21 is inserted in the fourth direction D <b> 4 from the end portion on the third direction D <b> 3 side of the wire arrangement groove 12 of the socket housing 11. The As a result, the socket contact 21 is disposed in the wire arrangement groove 12 of the socket housing 11. After the socket contact 21 is arranged in the electric wire arrangement groove 12, the electric wire W is arranged so that the end of the electric wire W in the fourth direction D4 substantially coincides with the end of the electric wire arrangement groove 12 on the fourth direction D4 side, It is inserted toward the first direction D1. As a result, the electric wire W is arranged in the socket contact 21 arranged in the electric wire arrangement groove 12. Moreover, as for the electric wire W, the 3rd direction side end surface P3 of the socket housing 11 will be extended in the 3rd direction D3.

  As shown in FIG. 7, when the socket contact 21 is arranged in the electric wire arrangement groove 12 of the socket housing 11, the bottom plate 22 a of the socket contact 21 contacts the groove bottom surface 12 a of the electric wire arrangement groove 12 and the side wall plate of the socket contact 21. 22 b comes into contact with the groove side wall 12 b of the wire arrangement groove 12. At this time, the strain relief 12c is positioned closer to the first direction D1 side than the end of the side wall plate 22b on the first direction D1 side. Therefore, even if a force in the first direction D1 is applied to the socket contact 21 arranged in the wire arrangement groove 12, the end of the side wall plate 22b on the first direction D1 side hits the strain relief 12c. Therefore, even when the force in the first direction D1 is applied to the socket contact 21, the socket contact 21 is prevented from coming off from the wire arrangement groove 12.

  As shown in FIG. 7, the contact portion 24 of the socket contact 21 is accommodated in the contact accommodating portion 14 of the socket housing 11. Further, as shown in FIG. 3, the contact portion 24 is disposed so as to be exposed from the contact exposure slit 13.

  As shown in FIG. 7, the fitting portion 25 of the socket contact 21 is accommodated in the contact accommodating portion 14 of the socket housing 11, similarly to the contact portion 24. At this time, the housing lance 14e is fitted into the fitting hole 25a of the fitting portion 25. As described above, the housing lance 14e has a substantially trapezoidal column shape with the side surface on the third direction D3 side as an inclined surface. Therefore, when the socket contact 21 is inserted into the wire arrangement groove 12, the fitting portion 25 slides on the inclined surface of the housing lance 14e, and then the housing lance 14e is fitted into the fitting hole 25a. As described above, even if the housing lance 14e is provided in the contact accommodating portion 14, the side surface on the third direction D3 side of the housing lance 14e is an inclined surface, so that the socket contact 21 is inserted into the wire arrangement groove 12. Is easy. Further, when the fitting portion 25 is fitted to the housing lance 14e, a click feeling is generated. Therefore, the operator can easily confirm that the socket contact 21 is normally arranged in the electric wire arrangement groove 12.

  The pressure contact portion 23 of the socket contact 21 is disposed at a position close to the fourth direction D4 side in the vicinity of the center of the wire arrangement groove 12. Further, the caulking member 26 of the socket contact 21 is disposed at the end of the electric wire arrangement groove 12 on the third direction D3 side.

  As shown in FIGS. 3, 7, and 10, the electric wire W is arranged in the socket contact 21 arranged in the electric wire arrangement groove 12. At this time, the electric wire W is clamped between the two electric wire clamping members 23 a of the press contact portion 23. As shown in FIG. 10B, the diameter of the electric wire W is larger than the interval between the electric wire clamping members 23a, and the diameter of the core wire W1 is substantially the same as or slightly larger than the interval between the electric wire clamping members 23a. Therefore, when the electric wire W is clamped by the electric wire holding member 23a, the insulating material W2 is broken, and the core wire W1 and the electric wire holding member 23a come into contact with each other. When the core wire W1 and the electric wire clamping member 23a are in contact with each other, the electric wire W and the socket contact 21 are electrically connected.

  As shown in FIGS. 3, 7, and 11, the caulking member 26 caulks the electric wire W by embedding the electric wire W disposed in the socket contact 21. The caulking member 26 is disposed so as to overlap each other in the third direction D3 and the fourth direction D4 when the electric wire W is caulked. More specifically, the caulking reinforcing portion 26b included in one caulking member 26 and the caulking reinforcing portion 26b included in the other caulking member 26 are disposed so as to overlap in the third direction D3 and the fourth direction D4.

  As shown in FIG. 1, FIG. 2, FIG. 9, etc., the socket connector 10 and the base connector 30 are combined as follows to form a socket connector-base connector pair. In a state where the fourth direction side protrusion 16 and the protrusion accommodating part 32d are opposed to each other, the friction lock part 17 and the lock groove 32e are opposed to each other, and the contact exposure slit 13 and the socket side contact part 35a of the base contact 35 are opposed to each other. The socket connector 10 and the base connector 30 are moved relatively close to each other in the first direction D1 or the second direction D2. As a result, the fourth direction side protrusion 16 is inserted into the protrusion accommodating portion 32 d, the friction lock portion 17 is inserted into the lock groove 32 e, and the socket side contact portion 35 a of the base contact 35 is inserted into the contact exposure slit 13.

  Note that the formation of the socket connector-base connector pair does not end by simply bringing the socket connector 10 and the base connector 30 close to each other. This is because the friction lock portion 17 hits the end portion on the second direction D2 side of the latch portion 32f provided in the lock groove 32e, and the socket connector 10 does not approach the base connector 30. Therefore, by applying a predetermined force or more, the socket connector 10 and the base connector 30 are relatively moved closer to the first direction D1 or the second direction D2. Then, the friction lock portion 17 slides on the inclined surface of the latch portion 32f, gets over the latch portion 32f, and moves to the first direction D1 side of the latch portion 32f. That is, the friction lock portion 17 engages with the latch portion 32f and is completely inserted into the lock groove 32e. When the friction lock portion 17 is completely inserted into the lock groove 32e, the socket connector 10 and the base connector 30 are in the state shown in FIG. 2, and the formation of the socket connector-base connector pair is completed. Further, when the friction lock portion 17 is engaged with the latch portion 32f, a click feeling is generated. Therefore, the operator can easily determine the end of the formation of the socket connector-base connector pair.

  Further, as shown in FIG. 9, in the socket connector-base connector pair, the socket side contact portion 35 a in the base contact 35 inserted into the contact exposure slit 13 is sandwiched between the two contact portions 24 of the socket contact 21. The socket contact 21 and the base contact 35 are electrically connected by sandwiching the socket side contact portion 35 a by the two contact portions 24 of the socket contact 21.

  Thus, in the socket connector-base connector pair, the contact between the core wire W1 of the electric wire W and the electric wire clamping member 23a (pressure contact portion 23) of the socket contact 21, and the contact portion 24 of the socket contact 21 and the base connector 30 base. Due to the contact with the contact 35, the core wire W1 of the electric wire W and the base contact 35 are electrically connected.

  On the other hand, the connection state between the socket connector 10 and the base connector 30 is released by the operator pulling the electric wire W in the second direction D2 with a force greater than or equal to a predetermined value. When the electric wire W is pulled in the second direction D2 with a force greater than a predetermined force, the engagement state between the friction lock portion 17 and the latch portion 32f is released, and the socket connector 10 and the base connector 30 are moved in the first direction D1 or the first direction D2. Relatively spaced in the two directions D2. As a result, the connection state between the socket connector 10 and the base connector 30 is released.

According to the socket connector 10 of 1st Embodiment which has the above structure, the following effects are show | played.
In the socket connector 10 of the first embodiment, since the projections 23b are provided in the second portion 23a2 of the two electric wire holding members 23a, the interval between the two electric wire holding members 23a is set to the first portion 23a1 (electric wire). The second portion 23a2 (the portion on the first direction D1 side than the first portion 23a1) is narrower than the portion where W is disposed. Therefore, when a force in the first direction D1 is applied to the electric wire W arranged in the socket contact 21, even if the electric wire W moves in the first direction D1, the electric wire W hits the protrusion 23b of the second portion 23a2. It will be. Therefore, even when the force in the first direction D <b> 1 is applied to the electric wire W arranged on the socket contact 21, the electric wire W is prevented from coming off from the socket contact 21.

  Further, in the socket connector 10 of the first embodiment, the fitting hole 25 a of the fitting portion 25 of the socket contact 21 is fitted into the housing lance 14 e of the socket housing 11. Therefore, even if the force of the 3rd direction D3 is applied with respect to the socket contact 21 arrange | positioned at the electric wire arrangement | positioning groove | channel 12, it is suppressed that the socket contact 21 pulls out from the electric wire arrangement | positioning groove | channel 12. FIG.

  The fitting portion 25 is provided at an end portion of the main body portion 22 of the socket contact 21 on the fourth direction D4 side, and faces the two contact portions 24 in the second direction D2. That is, the fitting portion 25 is provided in a portion that becomes a space that is not normally used on the fourth direction D4 side of the main body portion 22 of the socket contact 21. The housing lance 14e is provided inside the contact accommodating part 14 (the accommodating part bottom surface 14c of the contact accommodating part 14). That is, the housing lance 14e is provided inside the contact accommodating portion 14 in a portion that becomes a space that is not normally used. Therefore, in the socket connector 10, a dedicated space for the fitting portion 25 and the housing lance 14e is not required. Therefore, the socket connector 10 can be easily reduced in size.

  In the socket connector 10 of the first embodiment, the caulking member 26 is provided on the socket contact 21, and the caulking member 26 caulks the electric wire W by embracing the electric wire W. Therefore, even if the force of the 1st direction D1 is applied with respect to the electric wire W extended to the 3rd direction D3 outer side of the socket housing 11, it is suppressed that the electric wire W pulls out in the 1st direction D1. Further, since the force in the first direction D1 is substantially concentrated on the caulking member 26, the force on the electric wire W closer to the fourth direction D4 than the caulking member 26 is suppressed. Therefore, it is further suppressed that the electric wire W comes off from the electric wire clamping member 23a of the press contact portion 23.

  Further, in the state where the caulking member 26 caulks the electric wire W, the caulking reinforcing portion 26b included in one caulking member 26 and the caulking reinforcing portion 26b included in the other caulking member 26 include the third direction D3 and the fourth direction D4. Overlap. Therefore, even if the force in the first direction D1 is concentrated on the caulking member 26 and the caulking member 26 is opened, the state where the two caulking reinforcing portions 26b overlap in the third direction D3 and the fourth direction D4 is maintained. As long as the wire W is present, the wire W is prevented from coming out in the first direction D1.

  The socket housing 11 is provided with a through hole 14f. Therefore, even when the socket connector-base connector pair is formed, the contact portion 24 of the socket contact 21 can be visually recognized from the second direction side main surface P2. Accordingly, in the socket connector-base connector pair, for example, one terminal of the tester is brought into contact with the contact portion 24 through the through-hole 14f, and the other terminal of the tester is brought into contact with the core wire W1 of the electric wire W. The continuity between the wire 21 and the electric wire W can be confirmed.

[Second Embodiment]
Next, a second embodiment of the present invention will be described with reference to FIG. 12A and 12B are diagrams for explaining the socket connector according to the second embodiment. FIG. 12A is an enlarged view of the vicinity of the caulking member of the socket connector according to the second embodiment of the present invention, and FIG. FIG. 6C is an enlarged view around the caulking member of the socket contact according to the second embodiment, and FIG. 6C is a cross-sectional view around the caulking member of the socket connector according to the second embodiment of the present invention.

  The second embodiment will be described mainly with respect to differences from the first embodiment, and detailed description of the same configuration as the first embodiment will be omitted. For the points that are not particularly described, the description of the first embodiment is applied as appropriate.

As shown in FIGS. 12A and 12C, in the socket connector 10 </ b> A of the second embodiment, the wire placement groove 12 on the third direction side end face P <b> 3 of the socket housing 11 is press-fitted on the second direction D <b> 2 side. An auxiliary hole 18 is provided. The press-fit auxiliary hole 18 is open to the third direction D3 side.
As shown in FIG. 12B, a press-fitting auxiliary member 27 is provided at the end of the second bottom plate portion 22a2 of the socket contact 21A in the third direction D3 side in the socket connector 10A of the second embodiment. The press-fitting auxiliary member 27 has a narrow portion 27a having a relatively narrow width and a wide portion 27b having a relatively wide width. The press-fitting auxiliary member 27 is a member formed by bending a member extending in the third direction D3 from the end portion on the third direction D3 side of the second bottom plate portion 22a2 of the socket contact 21A in the fourth direction D4. The end of the narrow portion 27a on the fourth direction D4 side is connected to the second bottom plate portion 22a2. The wide portion 27b is connected to the end of the narrow portion 27a on the fourth direction D4 side. An opening 27c is provided in the wide portion 27b.

As shown in FIGS. 12A to 12C, the socket contact 21 </ b> A is inserted into the wire arrangement groove 12. At this time, the press-fitting auxiliary member 27 is inserted into the press-fitting auxiliary hole 18 in a state bent in the fourth direction D4 (the state shown in FIG. 12B).
In the second embodiment, since the press-fitting auxiliary member 27 is inserted into the press-fitting auxiliary hole 18, even if a force in the first direction D1 is applied to the socket contact 21A arranged in the wire arrangement groove 12, the socket contact It is suppressed that 21A comes off from the electric wire arrangement | positioning groove | channel 12.

[Third Embodiment]
Next, a third embodiment of the present invention will be described with reference to FIG. FIG. 13 is a view for explaining the socket connector of the third embodiment. FIG. 13A is a view of the socket connector and the base connector of the third embodiment of the present invention as viewed from the socket connector side in a combined state. The perspective view, (B) is an enlarged view around the positive lock portion of the socket connector of the third embodiment of the present invention, (C) is a diagram showing the structure of the positive lock portion.

  The third embodiment will also be described mainly with respect to differences from the first embodiment, and detailed description of the same configuration as the first embodiment will be omitted. For the points that are not particularly described, the description of the first embodiment is applied as appropriate.

  As shown in FIG. 13A, unlike the socket connector 10 of the first embodiment, the socket housing 11B in the socket connector 10B of the third embodiment has a positive lock structure including a positive lock portion 19. The positive lock portion 19 is provided on the fourth direction D4 side of the end surface P5 in the width direction of the socket housing 11A. As shown in FIGS. 13B and 13C, the positive lock portion 19 is an arm-shaped member. The positive lock portion 19 includes a first arm portion 19a extending in the width direction D5, a second arm portion 19b extending in the first direction D1, and a hook portion provided at the tip of the second arm portion 19b on the first direction D1 side. 19c. A latch portion (not shown) that engages with the hook portion 19c is provided on the side surface of the base housing 31B facing the width direction D5. The hook part 19c protrudes inside the width direction D5. The latch portion (not shown) protrudes outside in the width direction D5.

  The socket connector 10B and the base connector 30B are combined as follows to form a socket connector-base connector pair. In a state where the positive lock portion 19 and the latch portion (not shown) are opposed to each other, a force greater than a predetermined force is applied so that the socket connector 10B and the base connector 30B are relatively close to the first direction D1 or the second direction D2. Let If it does so, the positive lock part 19 will slide a latch part (not shown), will get over a latch part (not shown), and will engage with a latch part (not shown). As a result, the state shown in FIG. 13A is obtained, and the formation of the socket connector-base connector pair is completed.

  In the third embodiment, the socket connector 10B employs the positive lock portion 19, and the base connector 30B employs a latch portion (not shown) corresponding to the positive lock portion 19, so that the socket connector-base connector. Pairs can be formed. The socket connector-base connector pair is released in the same manner as in the first embodiment.

  The present invention is not limited to the above embodiment, and can be modified within the technical scope described in the claims.

  For example, the two electric wire clamping members 23a have a shape as shown in FIG. 10A, but are not limited to this shape. The interval between the second portions 23a2 of the two electric wire holding members 23a only needs to be narrower than the interval between the first portions 23a1.

  As shown in FIG. 14A, the protrusion 23b provided in the second portion 23a2 may be a protrusion having a curved outer shape in which an end portion on the second direction D2 side is partially cut away. Further, as shown in FIG. 14B, the protrusion 23b provided on the second portion 23a2 may be a protrusion having a curved outer shape in which the end on the second direction D2 side is cut out in two stages. Good. As shown in FIG. 14C, the protrusion 23b provided in the second portion 23a2 may be two protrusions having a curved outer shape. Further, the protrusion 23b provided on the second portion 23a2 may be a protrusion having an outer shape other than a curved shape.

  Further, as shown in FIG. 14D, the protrusion 23b provided in the second portion 23a2 does not need to be provided at the tip of the second portion 23a2 on the first direction D1 side. The protrusion 23b provided in the second portion 23a2 may be provided at a position closer to the second direction D2 side than the tip end on the first direction D1 side. Further, as shown in FIG. 14D, the first portion 23a1 may also be provided with a protrusion. The protrusion provided on the first portion 23a1 is provided in order to make the contact between the core wire W1 and the wire holding member 23a more reliable. Even in the electric wire holding member 23a shown in FIG. 14D, the interval between the portions where the protrusions 23b are provided in the second portion 23a2 is narrower than the interval between the portions where the protrusions are not provided in the first portion 23a1. Therefore, it can be said that the interval between the second portions 23a2 of the two electric wire holding members 23a is narrower than the interval between the first portions 23a1.

  For example, the two caulking members 26 have a shape as shown in FIG. 11, but are not limited to this shape. The two caulking members 26 may be members that caulk the electric wires by embracing the electric wires W.

As shown in FIG. 15A, the two caulking members 26 may not include the caulking reinforcing portion 26b. Even if it is such a caulking member 26, it is suppressed that the electric wire W pulls out in the 1st direction D1.
Further, as shown in FIG. 15B, the caulking reinforcing portion 26b may be a member having a substantially right triangle shape. One caulking reinforcing portion 26b has a substantially triangular shape in which the fourth direction D4 side is a right angle. The other caulking reinforcing portion 26b has a substantially triangular shape in which the third direction D3 side is a right angle. Even in the case of the caulking reinforcement portion 26b having such a shape, when the two caulking members 26 caulk the electric wires W, as shown in FIG. 15B, they overlap each other in the third direction D3 and the fourth direction D4. The electric wire W is prevented from coming off in the first direction D1.

  As shown in FIG. 15C, one caulking reinforcing portion 26b is one projection provided at the center of one caulking main body portion 26a, and the other caulking reinforcing portion 26b is the other caulking main body portion 26a. Two protrusions provided at the end portion on the third direction D3 side and the end portion on the fourth direction D4 side may be used. Even if it is the caulking reinforcement part 26b of such a shape, when the two caulking members 26 caulk the electric wire W, as shown in FIG.15 (C), one caulking reinforcement part 26b is the other caulking reinforcement part. Since it overlaps with each other in the third direction D3 and the fourth direction D4 so as to be sandwiched by 26b, the electric wire W is prevented from coming out in the first direction D1.

  Further, as shown in FIG. 15D, one projection provided at the center of one caulking main body portion 26a has a shape that becomes wider toward the first direction D1, and the other caulking main body portion 26a. The two protrusions provided in the shape may be narrower toward the second direction D2. Even if it is the caulking reinforcement part 26b of such a shape, when the two caulking members 26 caulk the electric wire W, as shown in FIG.15 (D), one caulking reinforcement part 26b is the other caulking reinforcement part. 26b and overlaps each other in the third direction D3 and the fourth direction D4. Furthermore, since one caulking reinforcement part 26b functions as a wedge with respect to the other caulking reinforcement part 26b, it is more strongly suppressed that the electric wire W is pulled out in the first direction D1.

For example, although the fitting part 25 was a shape as shown in FIG.5 and FIG.6, it is not limited to this shape. The fitting part 25 should just be a member of the structure fitted with the housing lance 14e.
As shown in FIG. 16 (A), both ends of the plate member in the width direction D5 may not be bent. As described above, the plate-like member may be a flat plate-like member.

Further, as shown in FIG. 16B, the fitting portion 25 may be a “U” -shaped member. That is, the fitting part 25 may not be a plate-like member having the fitting hole 25a. The “U” -shaped member includes two rod-like members 25b and a fitting member 25c. The two rod-like members 25b extend from the end of the side wall plate 22b in the main body 22 on the fourth direction D4 side in the fourth direction D4. The fitting member 25c extends in the width direction D5. Both ends of the fitting member 25c are connected to the ends of the two rod-like members 25b on the fourth direction D4 side.
The fitting portion 25 shown in FIGS. 16A and 16B can be fitted to the housing lance 14e in the same manner as the fitting portion 25 shown in FIGS.

  Further, for example, in FIGS. 4 to 8, the fitting portion 25 of the socket contact 21 is opposed to the two contact portions 24 in the second direction D2, but may be opposed in the first direction D1. In this case, the housing lance 14e in the contact accommodating portion 14 is provided on the accommodating portion top surface 14d. Even with such an arrangement of the fitting portion 25 and the housing lance 14e, a dedicated space for the fitting portion 25 and the housing lance 14e is not required. Therefore, the socket connector 10 can be easily downsized.

  For example, although the two pressure contact parts 23 were provided in the socket contact 21 2 each, it does not need to be two. The pressure contact portion 23 may be one, or may be three or more. Furthermore, in the case where two or more pressure contact portions 23 are provided, in any one pressure contact portion 23, if the interval between the second portions 23a2 of the wire clamping member 23a is narrower than the interval between the first portions 23a1. Good.

10, 10A, 10B Socket connector 11, 11A, 11B Socket housing 12 Wire arrangement groove 12a Groove bottom surface 12b Groove side wall 14 Contact accommodating portion 14e Housing lance 18 Press-fit auxiliary hole 21 Socket contact 22 Main body portion 22a Bottom plate 22b Side wall plate 24 Contact portion 25 Fitting part 25a Fitting hole 27 Press-fit auxiliary member 30, 30A, 30B Base connector 31, 31A, 31B Base housing 35 Base contact 40 Circuit board D1 First direction D2 Second direction D3 Third direction D4 Fourth direction D5 Width direction (5th direction)
P3 Third direction side end face W Electric wire

Claims (3)

A socket connector that is used in combination with a base connector that includes a base housing and a base contact and is fixed to a circuit board, and in which an electric wire is disposed,
In a state where 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 and The direction orthogonal to the second direction is the third direction, the direction opposite to the third direction is the fourth direction, and is orthogonal to the first direction, the second direction, the third direction, and the fourth direction. When the direction is the fifth direction,
The socket connector includes a socket housing and a socket contact,
The socket housing is a third direction side end surface which is an end surface on the third direction side, and an electric wire arrangement groove extending in the third direction so as to reach the third direction side end surface, and the socket contact is arranged thereon. An electric wire arrangement groove, a contact accommodating portion provided on the end side on the fourth direction side than the electric wire arrangement groove and communicating with the electric wire arrangement groove, and a housing lance provided in the contact accommodating portion. Have
The wire arrangement groove has a groove bottom surface and two groove side walls facing the fifth direction,
The socket contact is provided on a side of an end portion on the fourth direction side of the main body portion, and a main body portion having a bottom plate in contact with the groove bottom surface and side wall plates in contact with the two groove side walls, A contact portion accommodated in the contact accommodating portion and an end portion of the main body portion in the fourth direction are opposed to the contact portion in the first direction or the second direction and are fitted with the housing lance. A socket connector having a fitting portion;   The said fitting part consists of a plate-shaped member which has a fitting hole, and when the said housing lance fits into the said fitting hole, a previous term fitting part fits into the said housing lance. Socket connector. A press-fitting auxiliary member extending in the third direction is provided at an end of the main body portion on the third direction side,
A press-fitting auxiliary hole into which the press-fitting auxiliary member is inserted is provided on the second direction side of the wire arrangement groove on the third direction side end surface of the socket housing,
The socket connector according to claim 1 or 2, wherein the press-fitting auxiliary member is bent in the fourth direction and inserted into the press-fitting auxiliary hole.

Images