The invention relates to a connector.
Japanese Unexamined Patent Publication No. 2004-055470 discloses a connector used in an in-vehicle LAN (Local Area Network). A wiring harness for in-vehicle LAN is configured by bundling communication wires constituting a twisted pair cable as a noise countermeasure and a power supply wire for supplying power to a device such as a car navigation system. Terminal fittings fixed to these wires are inserted into a housing from behind. Resiliently deflectable locking lances are formed in the housing and locked to terminal fittings for holding the terminal fittings in the housing in Japanese Unexamined Patent Publication No. 2016-025045.
Terminal fittings connected to two communication wires constituting a twisted pair cable are inserted individually into terminal accommodation chambers. Thus, end parts of the communication wires are untwisted to ensure an extra length at the time of individual insertion. However, a noise countermeasure function is lost in an untwisted area. As a measure against this, it is considered to configure a terminal unit by mounting the two terminal fittings connected to the two communication wires into a terminal holding member that has a halved structure and that is separate from the housing. The halved structure enables the terminal fittings to be mounted in a direction intersecting a longitudinal direction of the communication wires. Thus, the communication wires need not be untwisted and a reduction of the noise countermeasure function can be avoided.
The terminal unit can be retained by a resiliently deflectable locking lance similar to a terminal fitting connected to a power supply wire for holding the terminal unit in the housing. However, a space for deflecting the locking lance is necessary in addition to a sufficient locking area for retention by the locking lance. Thus, a connector is enlarged in a deflecting direction of the locking lance.
The invention was completed on the basis of the above situation and aims to realize miniaturization.
The invention is directed to a connector with a housing and a retainer to be mounted into the housing. The retainer is displaceable between a partial locking position and a full locking position. The connector also has a terminal unit configured to be mounted into the retainer and displaced integrally with the retainer between the partial locking position and the full locking position. The connector further has a terminal holding member constituting the terminal unit and a terminal fitting fixed to a wire. The terminal fitting is mounted in the terminal holding member such that a draw-out direction of the wire from the terminal holding member is a direction intersecting a displacing direction of the retainer. A stopper is formed in the housing and faces in a direction opposite to the draw-out direction of the wire. A retaining projection is formed on the terminal holding member. The retaining projection is not locked to the stopper when the retainer is held at the partial locking position but is lockable to the stopper by displacing the retainer to the full locking position.
The terminal unit can be retained by locking the retaining projection to the stopper. Thus, a resiliently deflectable locking lance is not used for retaining the terminal unit, and miniaturization is possible.
A unit accommodating portion may be formed by the housing and the retainer to accommodate and surround the terminal unit over an entire periphery when the retainer is mounted in the housing. According to this configuration, the terminal unit can be protected from the interference of external matter.
The unit accommodating portion may include a housing-side cover formed in the housing. The housing-side cover is open in a displacing direction of the retainer from the full locking position to the partial locking position, and a retainer-side cover may be formed on the retainer to fit into the housing-side cover. The retainer-side cover may be open in a displacing direction of the retainer from the partial locking position to the full locking position. According to this configuration, material cost can be reduced as compared to the case where the housing and the retainer are formed with tubular portions to constitute the unit accommodating portion.
An insertion opening may be provided in the unit accommodating portion and enables the terminal unit to be inserted into the unit accommodating portion. According to this configuration, the terminal unit can be mounted into the retainer after the retainer is mounted into the housing. A means for holding the terminal unit mounted in the retainer can be omitted or simplified in this way. Thus, the structures of the retainer and the terminal unit can be simplified.
One embodiment of the invention is described with reference to
A connector of this embodiment includes a housing 10 made of synthetic resin, a retainer 30 made of synthetic resin and a terminal unit 50. The housing 10 has a flat shape with a lateral dimension (width) larger than a vertical dimension. A left part of the housing 10 serves as a terminal accommodating portion 11. Terminal accommodation chambers 12 are formed inside the terminal accommodating portion 11, and a female terminal (not shown) is inserted into each terminal accommodation chamber 12 from behind the housing 10. Each female terminal is connected to a wire (not shown) having no noise countermeasure taken therefor.
A housing-side cover 13 is formed in a right part of the housing 10. The housing-side cover 13 has a function of mounting the retainer 30, a function of accommodating the terminal unit 50 and a function of retaining the terminal unit 50. An internal space of the housing-side cover 13 is open downward (moving direction when the retainer 30 is displaced from a full locking position to a partial locking position) and also is open forward and rearward.
The housing-side cover 13 includes a left front wall 14 constituting the right outer side surface of the terminal accommodating portion 11, a front upper wall 15 extending horizontally rightward from the upper edge of a right end part of the terminal accommodating portion 11 and a right front wall 16 extending down from the right end edge of the front upper wall 15. The housing-side cover 13 further includes a left rear wall 17 extending rearward from the rear end edge of the left front wall 14, a rear upper wall 18 extending rearward from the rear end edge of the front upper wall 15 and a right rear wall 19 extending rearward from the rear end edge of the right front wall 16.
A supporting rib 20 extends in the front-rear direction on a lower end part of the inner side surface of the left front wall 14. Upwardly facing detachment restriction receiving portions 21 are formed at positions near the rear ends of the left front wall 14 and the right front wall 16 (detachment restriction receiving portion 21 of the left front wall 14 is not shown). The front upper wall 15 is formed with a detection opening 22 extending in the lateral direction and communicating with both left and right detachment restriction receiving portions 21. The left rear wall 17 and the right rear wall 19 are formed with partial locking holes 23 and full locking holes 24 located above the partial locking holes 23. A stopper 25 projects forward (direction opposite to a draw-out direction of wires 61 from a terminal holding member 51) on the inner surface (lower surface) of the front upper wall 15.
As shown in
A locking rib 35 extends in the front-rear direction, and a locking groove 36 extends in the front-rear direction along an upper part of the locking rib 35 on the outer surface of a lower end part of the left side wall 32L. Resilient arms 37 are respectively formed on rear end parts of the left and right side walls 32L, 32R. The resilient arms 37 are cantilevered up from the lower ends thereof and are resiliently displaceable in the lateral direction Locking projections 38 are formed on upper end parts of the outer side surfaces of the resilient arms 37.
Detachment restricting portions 39 in the form of projections are formed on upper end parts of the outer side surfaces of the left and right side walls 32L, 32R. The detachment restricting portions 39 are disposed substantially at center positions of the left and right side walls 32L, 32R in the front-rear direction. The upper end edges of the left and right side walls 32L, 32R are coupled by a beam 40 extending in the lateral direction. The beam 40 and the detachment restricting portions 39 are disposed at the same position in the front-rear direction.
The retainer 30 is fit into the housing-side cover 13 from below the housing 10 and can be mounted selectively at the partial locking position and the full locking position with respect to the housing 10. In a fitting state, the retainer-side cover 33 is accommodated inside the housing-side cover 13, the left side wall 32L overlaps with the inner surfaces of the left front wall 14 and the left rear wall 17, and the right side wall 32R overlaps with the inner surfaces of the right front wall 16 and the right rear wall 19. The bottom wall 31 closes the lower surface of the internal space of the housing-side cover 13. A unit accommodating portion 41 in the form of a rectangular tube with open front and rear surfaces is constituted by the housing-side cover 13 and the retainer-side cover 33. A rear end opening of the unit accommodating portion 41 serves as an insertion opening 42 through which the terminal unit 50 is accommodated into the unit accommodating portion 41.
The locking groove 36 is fit to the supporting rib 20, as shown in
Further, the locking rib 35 is placed on the upper surface of the supporting rib 20, as shown in
The terminal unit 50 includes the terminal holding member 51 made of synthetic resin and two terminal fittings 58. The terminal unit 50 is connected to a front end part of a twisted pair cable 62. As shown in
The terminal holding member 51 is configured by vertically uniting and assembling a lower case 52 and an upper case 53. A forwardly facing butting portion 54 is formed on the lower surface (outer surface) of the lower case 52. A rearward facing retaining projection 55 is formed on the upper surface (outer surface) of the upper case 53. Left and right terminal accommodation spaces 56 are formed inside the terminal holding member 51, and front and rear terminal retaining portions 57 are formed on the upper surface of each terminal accommodation space 56.
The terminal fittings 58 are accommodated in the terminal accommodation spaces 56 when the lower case 52 and the upper case 53 are united. Front and rear detachment restricting projections 59 of the terminal fitting 58 are locked by the terminal retaining portions 57, thereby restricting rearward detachment of the terminal fitting 58 from the terminal holding member 51.
Front end parts of the wires 61 are connected individually to crimping portions 60 on rear end parts of the respective terminal fittings 58. These wires 61 are used as communication wires (signal wires) and constitute the twisted pair cable 62 having a noise reduction function by being spirally twisted. In an area of the twisted pair cable 62 excluding a front end part, the two wires 61 are surrounded collectively by a sheath 63. A front end part of the sheath 63 also is accommodated in rear end parts of the terminal accommodation spaces 56. Thus, the wires 61 (twisted pair cable 62) are drawn out rearward from the terminal holding member 51.
A mounting direction of the terminal fittings 58 into the terminal holding member 51 (i.e. a uniting direction of the lower case 52 and the upper case 53) intersects the draw-out direction of the wires 61 from the terminal holding member 51 (longitudinal direction of the twisted pair cable 62). Thus, the wires 61 need to be exposed only by a length necessary to crimp the crimping portions 60 of the terminal fittings 58 and the wires 61 by a crimping machine (applicator) by removing the sheath 63 in the front end part of the twisted pair cable 62.
The connector is assembled in the following procedure. First, the retainer 30 is mounted at the partial locking position of the housing 10. In this way, the unit accommodating portion 41 having the rear end open as the insertion opening 42 is formed in a right end part of the housing 10. Subsequently, the terminal unit 50 is inserted into the unit accommodating portion 41 from behind the housing 10. When the terminal unit 50 reaches a proper insertion position, the butting portion 54 of the terminal unit 50 butts against the front stop 34 of the retainer 30, thereby restricting any further insertion of the terminal unit 50. In this state, the retaining projection 55 is disposed at a position slightly below the stopper 25 and slightly in front of the stopper 25.
If the lower surface (outer surface) of the bottom wall 31 is pushed up from this state, the retainer 30 moves from the partial locking position to the full locking position and the terminal unit 50 also moves from the partial locking position to the full locking position integrally with the retainer 30. According to this movement, the retaining projection 55 is displaced to the same height as the stopper 25 and the rear surface of the retaining projection 55 comes close to the front surface of the stopper 25 to face and be lockable to the stopper 25 in the front-rear direction. Even if a rearward pulling force acts on the terminal unit 50 in this state, the retaining projection 55 is locked to the stopper 25. Therefore, the terminal unit 50 is not displaced rearward with respect to the retainer 30 and the housing 10.
If the terminal unit 50 is deviated rearward from a proper position when the retainer 30 is moved from the partial locking position to the full locking position, the retaining projection 55 comes into contact with the stopper 25 from below. As a result, the retainer 30 cannot be moved to the full locking position. Thus, the terminal unit 50 is not mounted at an improper position (position where the terminal fittings 58 are deviated rearward from proper positions) with respect to the housing 10. Further, whether or not the retainer 30 has moved to the full locking position can be confirmed by seeing whether or not the beam 40 of the retainer 30 has entered the detection opening 22. In detaching the terminal unit 50 from the housing 10, the terminal unit 50 may be pulled out rearward from the housing 10 after the retainer 30 and the terminal unit 50 are moved from the full locking position to the partial locking position.
As described above, the connector of this embodiment includes the housing 10, the retainer 30 mounted in the housing 10 and the terminal unit 50 mounted in the retainer 30. The retainer 30 is displaceable between the partial locking position and the full locking position, and the terminal unit 50 is configured to be displaced between the partial locking position and the full locking position integrally with the retainer 30. The terminal holding member 51 and the terminal fittings 58 constitute the terminal unit 50. The terminal fittings 58 are fixed to front end parts of the wires 61 and mounted in the terminal holding member 51 so that the draw-out direction (rearward direction) of the wires 61 from the terminal holding member 51 is a direction intersecting a displacing direction (vertical direction) of the retainer 30.
The housing 10 is formed with the stopper 25 facing in the forward direction opposite to the draw-out direction of the wires 61. The terminal holding member 51 is formed with a retaining projection 55 that is not locked to the stopper 25 when the retainer 30 is held at the partial locking position and can be locked to the stopper 25 by displacing of the retainer 30 to the full locking position. According to this configuration, if the wires 61 are pulled, the retaining projection 55 butts against the stopper 25 to hold the terminal unit 50 in the housing 10. Since a resiliently deflectable locking lance is not used for retaining the terminal unit 50, the miniaturization (height reduction) of the connector can be realized. Further, since the retaining projection 55 and the stopper 25 can be transitioned from a non-locking state to a locking state without being resiliently deflected, the reliability of a retaining function is excellent.
Further, with the retainer 30 mounted in the housing 10, the unit accommodating portion 41 is formed by the housing and the retainer 30 regardless of whether the retainer 30 is at the partial locking position or at the full locking position. The unit accommodating portion 41 accommodates and surrounds the terminal unit 50 over the entire periphery. Accordingly, the terminal unit 50 is protected from the interference of external matter.
Further, the housing 10 is formed with the housing-side cover 13 open in a displacing direction (downward direction) of the retainer 30 from the full locking position to the partial locking position, and the retainer 30 is formed with the retainer-side cover 33 fittable into the housing-side cover 13. The retainer-side cover 33 is open in a displacing direction of the retainer 30 from the partial locking position to the full locking position (i.e. a direction opposite to the direction in which the housing-side cover 13 is open). According to this configuration, material cost can be reduced as compared to the case where the housing 10 and the retainer 30 are formed with tubular portions to constitute the unit accommodating portion 41.
Further, the unit accommodating portion 41 is formed with the insertion opening 42 for enabling the insertion of the terminal unit 50 into the unit accommodating portion 41. Thus, the terminal unit 50 is mounted into the retainer 30 after the retainer 30 is mounted into the housing 10. Since a means for holding the terminal unit 50 mounted in the retainer 30 can be omitted or simplified in this way, the structures of the retainer 30 and the terminal unit 50 can be simplified.
The invention is not limited to the above described and illustrated embodiment. For example, the following embodiments also are included in the scope of the invention.
Although the terminal unit is accommodated into the unit accommodating portion to be surrounded over the entire periphery with the terminal unit mounted in the retainer in the above embodiment, a part of the terminal unit in a circumferential direction may be exposed to outside with the terminal unit mounted in the retainer.
Although both the housing-side cover and the retainer-side cover constituting the unit accommodating portion 41 are partially open in the circumferential direction in the above embodiment, one or both of the housing-side cover and the retainer-side cover may be tubular.
Although the terminal unit is mounted into the retainer after the retainer is mounted into the housing in the above embodiment, the terminal unit may be mounted into the retainer before the retainer is mounted into the housing.
Number | Date | Country | Kind |
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2016-118636 | Jun 2016 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2017/019513 | 5/25/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/217208 | 12/21/2017 | WO | A |
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6702614 | Nakamura | Mar 2004 | B2 |
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9281600 | Hirano | Mar 2016 | B2 |
9300072 | Horiuchi | Mar 2016 | B2 |
9306311 | Kitajima | Apr 2016 | B2 |
20150263451 | Hashimoto | Sep 2015 | A1 |
20150311628 | Matsuura | Oct 2015 | A1 |
Number | Date | Country |
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4-129483 | Nov 1992 | JP |
10-64613 | Mar 1998 | JP |
10064613 | Mar 1998 | JP |
2004-55470 | Feb 2004 | JP |
2008-153066 | Jul 2008 | JP |
5598849 | Oct 2014 | JP |
20016-25045 | Feb 2016 | JP |
Entry |
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International Search Report dated Aug. 8, 2017. |
Number | Date | Country | |
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20200313334 A1 | Oct 2020 | US |