This application is based on and claims priority from Japanese Patent Application No. 2019-207150, filed on Nov. 15, 2019, with the Japan Patent Office, the disclosure of which is incorporated herein in their entireties by reference.
The present disclosure relates to a connector.
A connector disclosed in Japanese Patent Laid-Open Publication No. 2000-348813 (FIGS. 5 and 6) includes a female housing, a seal member to be arranged on a front surface side of the female housing and a pressing portion to be arranged on a front surface side of the seal member. The female housing includes a cavity and a locking lance projecting into the cavity. A female terminal fitting is arranged in the cavity. The female terminal fitting is locked by the locking lance and accommodated in the cavity. The seal member is made of gel and in the form of a flat plate. The pressing portion is provided on a seral holder. The seal holder includes a retainer projecting rearward from the pressing portion. The retainer includes a locking portion on a tip side. The locking portion is inserted below the locking lance when the retainer is mounted. In this way, the deflection of the locking lance is restricted. On the other hand, if the female terminal fitting is left incompletely inserted without being properly inserted into the cavity, the locking lance is pressed by the female terminal fitting to be deflected and deformed downward. Then, the locking portion contacts the locking lance to restrict a mounting operation of the retainer. If the mounting operation of the retainer is restricted in this way, it can be detected that the female terminal fitting is left incompletely inserted. A connector of this type is also disclosed in Japanese Patent Laid-Open Publication No. 2006-147248. A seal member, a seal member holder and a double lock piece are disclosed as those corresponding to the seal member, the seal holder and the retainer of Japanese Patent Laid-Open Publication No. 2000-348813 (FIGS. 5 and 6) in Japanese Patent Laid-Open Publication No. 2006-147248. Further, a connector with a waterproof structure is also disclosed in Japanese Patent Laid-Open Publication No. 2001-110506.
In the case of Japanese Patent Laid-Open Publication No. 2000-348813 (FIGS. 5 and 6), since the seal member is made of gel, there is a concern that cost will increase. On the other hand, in the case of Japanese Patent Laid-Open Publication No. 2006-147248, since the seal member is made of rubber, cost can be relatively reduced. In Japanese Patent Laid-Open Publication No. 2006-147248, a base end side of the double lock piece is arranged through a hole of the seal member. The double lock piece, including the base end side, has a laterally long rectangular cross-sectional shape corresponding to the hole of the seal member. Then, there is a concern that a resilient restoring force (tension) of the seal member is applied in a biased manner to four corner parts of the double lock piece and the resilient restoring force is less likely to act uniformly in a circumferential direction.
Accordingly, the present disclosure aims to provide a connector capable of ensuring good sealability.
The present disclosure is directed to a connector with a housing, a front seal portion to be arranged to face a front surface of the housing, and a front wall portion to be arranged to face a front surface of the front seal portion, wherein the housing includes a cavity, a terminal fitting being arranged in the cavity, a deflectable locking lance projecting into the cavity, the locking lance locking the terminal fitting, and a space portion located in a deflection direction of the locking lance, the front wall portion includes a detection piece projecting rearward, a tip side of the detection piece being arranged in the space portion, the front seal portion includes a detection-side seal hole to be held in close contact with a base end side of the detection piece, and the base end side of the detection piece has a circular cross-sectional shape corresponding to the detection-side seal hole.
According to the present disclosure, it is possible to provide a connector capable of ensuring good sealability.
The foregoing summary is illustrative only and is not intended to be in any way limiting. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features will become apparent by reference to the drawings and the following detailed description.
In the following detailed description, reference is made to the accompanying drawings, which form a part hereof. The illustrative embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be utilized, and other changes may be made, without departing from the spirit or scope of the subject matter presented here.
First, embodiments of the present disclosure are listed and described.
(1) The connector of the present disclosure is provided with a housing, a front seal portion to be arranged to face a front surface of the housing, and a front wall portion to be arranged to face a front surface of the front seal portion, wherein the housing includes a cavity, a terminal fitting being arranged in the cavity, a deflectable locking lance projecting into the cavity, the locking lance locking the terminal fitting, and a space portion located in a deflection direction of the locking lance, the front wall portion includes a detection piece projecting rearward, a tip side of the detection piece being arranged in the space portion, the front seal portion includes a detection-side seal hole to be held in close contact with a base end side of the detection piece, and the base end side of the detection piece has a circular cross-sectional shape corresponding to the detection-side seal hole. According to this configuration, since a resilient restoring force uniform in a circumferential direction can be applied to the base end side of the detection piece from the front seal portion, the base end side of the detection piece can be satisfactorily held in close contact with the detection-side seal hole. As a result, good sealability can be ensured between the front seal portion and the detection piece. Note that the “circular shape” of the present disclosure includes a truly circular shape, an elliptical shape, an oval shape, an egg shape, a polygonal shape with rounded corners and the like.
(2) Preferably, the front seal portion includes a terminal-side seal hole to be held in close contact with a mating terminal fitting serving as a connection partner of the terminal fitting, a plurality of the terminal-side seal holes are arranged side by side, the detection-side seal holes are arranged adjacent to the terminal-side seal holes in an arrangement direction of the terminal-side seal holes, and the base end sides of the detection pieces have an elliptical cross-sectional shape long in a direction orthogonal to the arrangement direction and short in the arrangement direction. According to this configuration, the front seal portion can ensure a sufficient thickness (distance) between the detection-side seal holes and the terminal-side seal holes in the arrangement direction of the terminal-side seal holes. Thus, the front seal portion can obtain good resilient restoring forces between the detection-side seal holes and the terminal-side seal holes and can meet, for example, a request for miniaturization.
Hereinafter, a specific example of the connector of the present disclosure is described with reference to the drawings. Note that the present invention is not limited to these illustrations and is intended to be represented by claims and include all changes in the scope of claims and in the meaning and scope of equivalents.
A connector of one embodiment includes, as shown in
<Housing>
The housing 10 is made of synthetic resin and includes, as shown in
As shown in
As shown in
As shown in
The upper and lower surfaces of the housing body 12 include covering portions 27 in front of the steps 26. The covering portions 27 are formed to be flat in the front-rear and lateral directions except at formation positions of the partial locking portions 23 and the full locking portions 24. As shown in
As shown in
The housing 10 includes lock pieces 33 continuous in the front-rear direction from the base end sides of the plate-like portions 25 to the lock portions 31 in both left and right end parts. The lock piece 33 has a laterally extending stepped surface 34 on the lock portion 31. A part of the lock portion 31 behind the stepped surface 34 is formed to be thinner than a front part. The lock portion 31 is vertically deflectable and deformable with a part on the side of the stepped surface 34 as a fulcrum.
A rectangular lock hole 35 is open in a laterally central part of the lock portion 31. The front end of the lock hole 35 is continuous with the stepped surface 34.
<Front Seal>
The front seal 11 is made of rubber such as silicon rubber and includes, as shown in
The front seal portion 36 includes terminal-side seal holes 38 at positions communicating with the respective cavities 17. As shown in
The front seal portion 36 includes erroneous assembly preventing seal holes 39 at positions communicating with the erroneous assembly preventing holes 21. As shown in
Further, the front seal portion 36 includes detection-side seal holes 40 at positions communicating with the respective space portions 20. As shown in
The detection-side seal hole 40 has an elliptical cross-sectional shape long in the lateral direction and short in the vertical direction. Note that the “elliptical shape” of the present disclosure includes an oval shape such as an egg shape long in the lateral direction. A vertical distance between the detection-side seal hole 40 and the terminal-side seal hole 38 adjacent to this detection-side seal hole 40 is equal to or longer than a lateral distance between the adjacent detection-side seal holes 40. Although not shown in detail, any of the terminal-side seal holes 38, the erroneous assembly preventing seal holes 39 and the detection-side seal holes 40 includes a lip part continuous in a circumferential direction.
<Front Member>
The front member 13 is made of synthetic resin and includes, as shown in
The front wall portion 41 includes terminal-side insertion holes 42 at positions communicating with the respective terminal-side seal holes 38. As shown in
Further, the front member 13 includes detection pieces 44 at positions corresponding to the respective detection-side seal holes 40. As shown in
As shown in
As shown in
The tip portion 46 of the detection piece 44 includes an end surface portion 47 along the lateral direction and a detection body 45 projecting rearward from a laterally central part of the end surface portion 47. A slope portion 49 inclined toward a rear side is provided on the upper surface of the detection body 48.
As shown in
<Rear Seal>
The rear seal 14 is made of rubber such as silicon rubber and includes, as shown in
A plurality of housing lips 53 are provided in the front-rear direction on the outer peripheral surface of the rear seal portion 52. Each housing lip 53 is provided over the entire periphery on the outer peripheral surface of the rear seal portion 52. As shown in
As shown in
The rear seal portion 52 includes wire-side seal holes 58 at positions communicating with the respective cavities 17. The wire-side seal hole 58 has a circular cross-sectional shape, particularly a truly circular cross-sectional shape. Each wire-side seal hole 58 is arranged between upper and lower lock-side seal holes 57. As shown in
The rear seal 14 includes positioning protrusions 60 at positions corresponding to the respective positioning holes 22. As shown in
<Frame>
The frame 15 is made of synthetic resin and includes, as shown in
The rear wall portion 61 includes insertion holes 62 at positions communicating with the respective wire-side seal holes 58. The insertion hole 62 has a rectangular cross-sectional shape. The wire 59 is inserted into the insertion hole 62.
As shown in
As shown in
As shown in
As shown in
As shown in
<Lever>
The lever 16 is made of synthetic resin and, as shown in
Although not shown in detail, the lever 16 is movable from an initial position to a connection position with respect to the housing 10 (fitting tube portion 68). At the initial position, the arm portions 70 are inserted in the lever accommodating portions 69 and the coupling portion 73 is arranged to project outward on the one lateral side of the fitting tube portion 68. At the initial position, the receptacle 56 of the mating housing 55 is lightly fit in the fitting space 54. Then, the cam followers of the mating housing 55 are inserted into the entrances of the cam grooves 74. In that state, the coupling portion 73 is pushed and the arm portions 70 are deeply inserted into the lever accommodating portions 69. While the lever 16 is moving from the initial position to the connection position, the cam followers slide on groove surfaces of the cam grooves 74 and a connecting operation of the both housings 10, 55 proceeds. When the lever 16 reaches the connection position, the cam followers reach back end sides of the cam grooves 74 and the both housings 10, 55 are properly connected. At this time, as shown in
<Terminal Fittings, Mating Terminal Fittings, Mating Housing>
As shown in
<Connector Assembly Structure and Functions>
The front seal 11 is inserted inside the front member 13 and arranged to contact the rear surface of the front wall portion 41. The base end portions 45 of the detection pieces 44 are inserted into and held in close contact with the detection-side seal holes 40 (see
The front member 13 is temporarily held at a partial locking position with respect to the housing 10. At the partial locking position, the partial locking portions 23 are fit into the front lock holes 51 in the front lock portions 50 on both left and right ends of the upper and lower walls and the rear ends of the respective front lock portions 50 contact the full locking portions 24, whereby movements in the front-rear direction of the front member 13 are restricted. At this time, the front wall portion 41 is arranged forward of the front surface of the housing body 12. The detection bodies 48 of the detection pieces 44 are arranged forward of the space portions 20.
In a rear part of the connector, the rear seal 14 is assembled on the rear surface side of the housing 10. The base end sides (including the base end sides of the lock pieces 33) of the upper and lower plate-like portions 25 are inserted into and held in close contact with the lock-side seal holes 57 of the rear seal 14. The lock portions 31 are arranged to project rearward from the rear surface of the rear wall portion 61. The rearward escape of the rear seal 14 is restricted by the contact of the rear seal 14 with the retaining projections 32. Further, the rear seal 14 is arranged to contact the rear surface of the housing body 12. The positioning protrusions 60 are inserted into the positioning holes 22 (see
Subsequently, the frame 15 is assembled with the housing 10 from behind. In the process of assembling the frame 15, the lock portions 31 enter the through holes 63 of the rear wall portion 61 and ride on the lock receiving portions 67 to be deflected and deformed. When the frame 15 is properly assembled, the lock portions 31 resiliently return and the lock receiving portions 67 are fit into the lock holes 35 of the lock portions 31. In this way, the lock portions 31 are locked to the lock receiving portions 67. The frame 15 is held on the housing 10 with the rear seal 14 sandwiched therebetween (see
The terminal fitting 18 is inserted into the cavity 17 successively through the insertion hole 62 of the rear wall portion 61 and the wire-side seal hole 58 of the rear seal 14 from behind. In the process of inserting the terminal fitting 18, the locking lance 19 interferes with the terminal fitting 18 to be deflected and deformed into the space portion 20. When the terminal fitting 18 is properly inserted, the locking lance 19 resiliently returns to retain and lock the terminal fitting 18 (see
Subsequently, the front member 13 is pushed toward the housing body 12 and reaches a full locking position. The peripheral wall 28 of the front member 13 is arranged to cover the covering portions 27 of the housing body 12. The rear end of the peripheral wall 28 is arranged to face the steps 26. The peripheral wall 28 and the plate-like portions 25 (including the lock pieces 33) are arranged at positions overlapping each other in the vertical direction.
If the front member 13 reaches the full locking position, the full locking portions 24 are fit into the front lock holes 51 in the respective front lock portions 50 on the upper and lower walls and the front ends of the front lock portions 50 on the left and right side walls contact the partial locking portions 23, whereby movements of the front member 13 in the front-rear direction are restricted. The front seal 11 is arranged to contact the front surface of the housing body 12. Further, if the front member 13 reaches the full locking position, the detection bodies 48 of the detection pieces 44 enter the space portions 20 and the slope portions 49 of the detection bodies 48 are arranged to come into contact along the lower surfaces (surfaces facing the space portions 20, surfaces on sides toward which the locking lances 19 are deflected and deformed) of the locking lances 19 (see
If the terminal fitting 18 is left incompletely inserted without being properly inserted into the cavity 17, a deflected state of the locking lance 19 is not released and the locking lance 19 remains to be arranged in the space portion 20. Thus, the detection body 48 of the detection piece 44 interferes with the locking lance 19 and the insertion thereof into the space portion 20 is restricted. As a result, the front member 13 is prevented from reaching the full locking position and the incompletely inserted state of the terminal fitting 18 can be detected.
Subsequently, the receptacle 56 of the mating housing 55 is inserted into the fitting space 54 and the connection of the both housings 10, 55 proceeds based on a sliding movement of the aforementioned lever 16. When the both housings 10, 55 are properly connected, the tip (opening end) of the receptacle 56 reaches a back side space (recess 81 retracted rearward) between the rear wall portion 61 and the fitting tube portion 68 in the frame 15 (see
The erroneous assembly preventing protrusions 80 are inserted into the erroneous assembly preventing holes 21 through the erroneous assembly preventing seal holes 39 from the erroneous assembly preventing insertion holes 43 (see
The projecting portions 79 are inserted into the terminal-side seal holes 38 through the terminal-side insertion holes 42 and held in close contact with the terminal-side seal holes 38. Resilient restoring forces uniform in the circumferential directions are applied to the projecting portions 79 from the front seal 11. In the case of this embodiment, the terminal-side seal holes 38 are arranged adjacent to the detection-side seal holes 40 in the vertical direction, which is a short side direction of the detection-side seal holes 40 (see
As described above, with the both housings 10, 55 properly connected, sealing is provided in a liquid-tight manner around the wires 59 and between the both housings 10, 55 by the rear seal 14. Further, sealing is provided in a liquid-tight manner around connected parts of the terminal fittings 18 and the mating terminal fittings 75 by the front seal 11. Thus, according to this embodiment, the inside of the housing 10 can be reliably sealed and the electrical connection reliability of the both terminal fittings 18, 75 can be enhanced.
Technical features extracted from this embodiment are listed below.
The front seal portion 36 includes the detection-side seal holes 40 to be held in close contact with the base end sides of the detection pieces 44, and the base end sides of the detection pieces 44 have a circular cross-sectional shape, particularly an elliptical cross-sectional shape corresponding to the detection-side seal holes 40 (see
In the front seal portion 36, the plurality of terminal-side seal holes 38 are arranged side by side and the plurality of detection-side seal holes 40 are arranged side by side at the positions adjacent to the terminal-side seal holes 38 in the arrangement direction of the terminal-side seal holes 38. The base end sides of the detection pieces 44 have such an elliptical cross-sectional shape long in the lateral direction, which is a direction orthogonal to the arrangement direction of the terminal-side seal holes 38, and short in the vertical direction, which is the arrangement direction. Thus, the front seal portion 36 can ensure a sufficient thickness (distance) between the detection-side seal holes 40 and the terminal-side seal holes 38 in the arrangement direction of the terminal-side seal holes 38. As a result, the front seal portion 36 can obtain sufficient resilient restoring forces between the detection-side seal holes 40 and the terminal-side seal holes 38 and can meet, for example, a request for miniaturization.
The housing 10 includes the lock pieces 33 projecting rearward, the rear seal portion 52 includes the sealing surface A to be held in close contact with the mating housing 55 and the lock-side seal holes 57 to be held in close contact with the base end sides of the lock pieces 33, the rear wall portion 61 of the frame 15 includes the lock receiving portions 67 to be locked by the lock portions 31 on the inner surfaces of the through holes 63, and the lock receiving portions 67 are provided on the inner parts 65 distant from the sealing surface A on the inner surfaces of the through holes 63 (see
The lock portions 31 are plate-like and include the lock holes 35, and the lock receiving portions 67 are formed into a projection shape to be fit into the lock hole 35. Thus, when the mating housing 55 is held in close contact with the sealing surface A, the plate-like lock portions 31 can satisfactorily receive a resilient restoring force of the rear seal portion 52. Therefore, the sealability of the rear seal portion 52 can be stably maintained.
The covering portions 27 and the steps 26 are provided on the outer peripheral surface of the housing 10, the peripheral wall 28 of the front member 13 is arranged on the covering portions 27, the steps 26 are facing the tip of the peripheral wall 28 and the lock pieces 33 are provided to be continuous with rear sides of the steps 26 (see
The embodiment disclosed this time should be considered illustrative in all aspects, rather than restrictive.
Although the rear wall portion is provided on the frame contributing to the connection of the mating housing in the case of this embodiment, a rear wall portion may be provided merely as a rear member for retaining a rear seal as another embodiment.
Although the connector includes the slide-type lever in the case of this embodiment, a connector may include a rotary-type lever as another embodiment. Further, the technique of the present disclosure can also be applied to connectors provided with no lever.
Although the base end side of the plate-like portion is provided integrally and continuously in the width direction in the case of this embodiment, base end sides of plate-like portions may be provided in a divided manner in a width direction and each may be provided with an independent lock piece as another embodiment.
Although the front member is provided to be movable to the partial locking position and the full locking position with respect to the housing body in the case of this embodiment, a front member may be fully locked (state where detection pieces enter space portions) with respect to a housing body without having a partial locking position as another embodiment.
From the foregoing, it will be appreciated that various exemplary embodiments of the present disclosure have been described herein for purposes of illustration, and that various modifications may be made without departing from the scope and spirit of the present disclosure. Accordingly, the various exemplary embodiments disclosed herein are not intended to be limiting, with the true scope and spirit being indicated by the following claims.
Number | Date | Country | Kind |
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2019-207150 | Nov 2019 | JP | national |