1. Field of the Invention
The present invention relates to a connector with a connector housing to which a wire cover is attached.
2. Description of the Related Art
For example, some connectors to be used for automobile wiring harnesses each include a lock arm for keeping the connector and a corresponding connector mated to each other (see JP 7-57818 A and JP 2008-27691 A). A conventional example of the connector of this kind is shown in
In
Terminal housing parts 56 configured to house multiple terminals (not illustrated) are projectingly provided in the corresponding housing mating chamber 52.
The lock arm 53 includes: a lock part 53a positioned inside the corresponding housing mating chamber 52; and an arm operation part 53b positioned on the housing rear side. While a corresponding connector housing (not illustrated) is not inserted in the corresponding housing mating chamber 52, the lock arm 53 is situated in a lock position shown in
For connector mating with the foregoing configuration, first of all, the corresponding connector housing (not illustrated) is inserted into the corresponding housing mating chamber 52. During the insertion, a front end portion of the corresponding connector housing comes into contact with the inclined surface of the lock part 53a, and the lock part 53a is subsequently pressed up toward a side surface of the corresponding housing mating chamber 52 in response to the insertion of the corresponding connector housing. When the corresponding connector housing is inserted up to the mating completion position, a locked part (not illustrated) of the corresponding connector housing reaches a position corresponding to the lock part 53a. Once the locked part reaches the position, the lock arm 53 returns to the lock position, and the lock part 53a is locked to the locked part (not illustrated) of the corresponding connector housing. Thereby, the two connector housings are locked together in the mated state.
For the release of the connector mating, the lock arm 53 is moved to the lock release position by pressing down the arm operation part 53b, and the corresponding connector housing (not illustrated) is pulled out of the corresponding housing mating chamber 52.
An advantage of the above-described connector housing 51 is that the connector housing 51 is capable of securely holding the connector mating since the connector housing 51 includes the lock arm 53. Another advantage of the connector housing 51 is that the arm excessive displacement prevention part 55 prevents the lock arm 53 from being excessively displaced.
Meanwhile, in some cases, a wire cover is attached to the connector housing 51 for the purpose of protecting the wires which are extracted to the outside from the wire extraction part 54.
In this respect, if the structure is that, as shown in
An idea for making the protrusion dimension L2 of the wire cover 60 shorter is to use an attachment structure in which, as shown in
Against this background, the present invention has been made for the purpose of solving the foregoing problem. An object of the present invention is to provide a connector which makes it possible to make the protrusion dimension of the wire cover smaller, and concurrently to prevent excessive displacement of the lock arm.
An aspect of the present invention is a connector comprising: a connector housing including a lock arm configured to lock a corresponding housing which is mated to a corresponding housing mating chamber, an arm operation part capable of displacing the lock arm to a lock release position by an operation, a wire extraction part positioned in a release operation direction of the arm operation part, and configured to guide wires to be guided to an outside, and a cover attachment part provided to the wire extraction part; and a wire cover including a housing attachment part to be inserted into a peripheral side of the wire extraction part of the connector housing, and to be mated to the cover attachment part, and an arm excessive displacement prevention part configured to restrict excessive displacement of the lock arm; wherein the housing attachment part includes a lock groove part in an inner surface thereof, the cover attachment part includes a lock wall part projectingly provided in a circumferential direction thereof, and the lock wall part is inserted into the lock groove part so that the housing attachment part is mated to the cover attachment part.
The arm excessive displacement prevention part may be formed from a portion of the housing attachment part.
In the present invention, since the wire cover is attached to the connector housing by inserting the housing attachment part of the wire cover into the connector housing, the protrusion dimension that the wire cover protrudes from the connector housing becomes smaller. In addition, since the arm excessive displacement prevention part is provided to the wire cover, the excessive displacement of the lock arm can be prevented. Accordingly, the protrusion dimension of the wire cover can be made smaller, and the excessive displacement of the lock arm can be prevented.
Descriptions will be hereinbelow provided for an embodiment of the present invention on the basis of the drawings.
As shown in
Terminal housing parts 7 are projectingly provided in the corresponding housing mating chamber 3. Two terminals (not illustrated) are housed in the terminal housing parts 7, respectively. One end of each wire (not illustrated) is connected to the corresponding one of the terminals (not illustrated).
The lock arm 4 is swingably supported by a center portion of the connector housing 2. A lock part 4a is provided to one end side of the lock arm 4. The lock part 4a is positioned in the corresponding housing mating chamber 3, and has an inclined surface (tapered surface) which faces the terminal housing parts 7. This inclined surface inclines in the insertion direction of the corresponding connector housing (not illustrated) in such a way as to become closer to the terminal housing parts 7. An arm operation part 4b is provided to the opposite end side of the lock arm 4. The arm operation part 4b is positioned on the housing rear side. An opening part 2a is formed in the connector housing 2 on the upper surface side of the arm operation part 4b. Workers can press down the arm operation part 4b by use of this opening part 2a. By pressing down the arm operation part 4b, the lock arm 4 can be displaced from the lock position (the position shown in
The wire extraction part 5 is provided closer to the housing rear than the terminal housing parts 7 is. The wire extraction part 5 is positioned in the release operation direction of the arm operation part 4b. The wire extraction part 5 includes two wire passages 5a. One end of each wire passage 5a is open in a corresponding one of the terminal housing parts (not illustrated), and the opposite end of the wire passage 5a is open in the housing rear. The wires (not illustrated) connected to the terminals (not illustrated) pass through the wire passages 5a of the wire extraction part 5, and are guided to the outside from the housing rear.
A housing rear-side portion of the wire extraction part 5 is the cover attachment part 6. The cover attachment part 6 includes almost two lock wall parts 6a which are provided projectingly in the circumferential direction.
As shown in
Divided halves of a housing attachment part 14 and divided halves of a wire cover main body part 15 are provided to the cover main body 11 and the lid body 13. When combined together, the housing attachment part 14 and the wire cover main body part 15 form a continuous shape. The housing attachment part 14 includes almost two lock groove parts 14a extending in the circumferential direction in its inner surface. When the shape of the wire cover 10 is changed from the separated state to the combined state, the housing attachment part 14 is inserted into the rear-side portion of the connector housing 2, and is mated to the periphery of the cover attachment part 6. In other words, the lock wall parts 6a of the cover attachment part 6 are inserted into the lock groove parts 14a of the housing attachment part 14, respectively.
While in the combined state, a wire passage 15a is formed in the wire cover main body 15. The wires (not illustrated) guided from the wire extraction part 5 of the connecter housing 2 are extracted to the outside through the wire passage 15a.
A portion of the housing attachment part 14 closer to the arm operation part 4b is an arm excessive displacement prevention part 16. While the wire cover 10 is attached to the connector housing 2, the arm excessive displacement prevention part 16 is positioned in the lock release direction of the arm operation part 4b, and restricts the excessive operation of the arm operation part 4b, namely the excessive displacement of the lock arm 4.
For connector mating with the foregoing configuration, first of all, the wire cover 10 is attached to the housing rear side of the connector housing 2 while the wires (not illustrated) extracted from the wire extraction part 5 are housed inside the wire cover 10. Thereafter, the corresponding connector housing (not illustrated) is inserted into the corresponding housing mating chamber 3. During the insertion, a front end portion of the corresponding connector housing comes into contact with the inclined surface of the lock part 4a, and the lock part 4a is subsequently pressed up toward a side surface of the corresponding housing mating chamber 3 in response to the insertion of the corresponding connector housing. When the corresponding connector housing is inserted up to the mating completion position, a locked part (not illustrated) of the corresponding connector housing reaches a position corresponding to the lock part 4a. Once the locked part reaches the position, the lock arm 4 returns to the lock position (the position shown in
For the release of the connector mating, the lock arm 4 is moved to the lock release position by pressing down the arm operation part 4b, and the corresponding connector housing (not illustrated) is pulled out of the corresponding housing mating chamber 3.
As described above, the connector includes the connector housing 2 and the wire cover 10. The connector housing includes: the lock arm 4 configured to lock the corresponding housing (not illustrated) which is mated to the corresponding housing mating chamber 3; the arm operation part 4b capable of displacing the lock arm 4 to the lock release position by an operation; the wire extraction part 5 positioned in the release operation direction of the arm operation part 4b, and configured to guide the wires (not illustrated) to be guided to the outside; and the cover attachment part 6 provided to the peripheral side of the wire extraction part 5. The wire cover 10 includes: the housing attachment part 14 to be inserted into the peripheral side of the wire extraction part 5 of the connector housing 2, and to be mated to the cover attachment part 6; and the arm excessive displacement prevention part 16 configured to restrict the excessive displacement of the lock arm 4. Since the wire cover 10 is attached to the connector housing 2 by inserting the housing attachment part 14 of the wire cover 10 into the connector housing 2, the protrusion dimension L1 (shown in
The arm excessive displacement prevention part 16 is formed from the portion of housing attachment part 14. For this reason, the arm excessive displacement prevention part 16 need not be provided separated from the housing attachment part 14, and accordingly the structure can be simplified.
Number | Date | Country | Kind |
---|---|---|---|
2011-034644 | Feb 2011 | JP | national |
This application is a continuation application of International Application No. PCT/JP2011/079306, filed on Dec. 19, 2011, which claims priority to Japanese Patent Application No. 2011-034644, filed on Feb. 21, 2011, the entire contents of which are incorporated by references herein.
Number | Name | Date | Kind |
---|---|---|---|
5947763 | Alaksin | Sep 1999 | A |
7326074 | Lim et al. | Feb 2008 | B1 |
7455527 | Nordin et al. | Nov 2008 | B2 |
8277243 | Hernandez et al. | Oct 2012 | B1 |
8568159 | Noda et al. | Oct 2013 | B2 |
8784127 | Bashkin et al. | Jul 2014 | B2 |
20020025713 | Tabata | Feb 2002 | A1 |
20080020613 | Matsuura et al. | Jan 2008 | A1 |
20130078842 | Lee et al. | Mar 2013 | A1 |
Number | Date | Country |
---|---|---|
2052154 | Jan 1990 | CN |
H7-57818 | Mar 1995 | JP |
H9-139249 | May 1997 | JP |
2000-82538 | Mar 2000 | JP |
2002-75526 | Mar 2002 | JP |
2008-27691 | Feb 2008 | JP |
Entry |
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Korean Office action letter issued on Nov. 18, 2014 in the counterpart Korean patent application. |
Office action letter issued on Feb. 11, 2015, in the counterpart Chinese patent application. |
Office action letter issued on Dec. 16, 2014, in the counterpart Australian patent application. |
Number | Date | Country | |
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20140017927 A1 | Jan 2014 | US |
Number | Date | Country | |
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Parent | PCT/JP2011/079306 | Dec 2011 | US |
Child | 13969657 | US |