1. Field of the Invention
The invention relates to an electric connector including a first housing defining an inner space therein, and a second housing to be fit into the inner space.
2. Description of the Related Art
There is known an electric connection including a pair of a first housing defining an inner space therein, and a second housing to be fit into the inner space of the first housing, in which case, the first housing is formed with a projection protruding into the inner space, and the second housing is formed with a recess into which the projection is fit, in order to prevent the second housing from being fit into the inner space in a twisted or upside down posture.
An example of the above-mentioned electric connector is suggested in Japanese Utility Model Application Publication No. S58 (1983)-51586.
As illustrated in
Another example of the above-mentioned electric connector is suggested in Japanese Patent Application Publication No. 2004-103449.
The male housing 1100 includes a hood 1101 into which the female housing 1110 is fit. The hood 1101 is formed at an inner surface thereof with first projections 1102 protruding into the hood 1101, and second projections 1103 extending from the first projections 1102. The first and second projections 1102 and 1103 are of L-shaped. The female housing 1110 is formed with first portions 1111 and second portions 1112 extending from the first portions 1111. The first and second portions 1111 and 1112 define L-shaped grooves 1113 into which the first and second projections 1102 and 1103 are fit to thereby prevent the hood 1101 from being outwardly deformed.
It is supposed that the inner housing 2201 is inserted in a wrong position, specifically, upside down into the inner space 2102 of the outer housing 2101.
The outer housing 2101 is formed with a pair of projections 2103 protruding into the inner space 2102 from an inner surface of the inner space 2102. The inner housing 2201 is formed with a pair of grooves 2202 into which the projections 2103 can be fit only when the inner housing 2201 is fit in a correct position into the inner space 2102 of the outer housing 2101. Accordingly, if the inner housing 2201 is inserted upside down into the inner space 2102 of the outer housing 2101, the projections 2103 make abutment with a thin-wall bottom 2203 of the inner housing 2201.
If the projections 2103 of the outer housing 2101 make intensive abutment with the thin-wall bottom 2203 of the inner housing 2201, the thin-wall bottom 2203 may be damaged.
In view of the above-mentioned problem in the conventional electric connector, it is an object of the present invention to provide an electric connector capable of preventing a thin-wall portion of an inner housing from being damaged, even if the inner housing is inserted upside down into an inner space of an outer housing, to thereby provide high reliability to the connection of inner and outer housings to each other.
In one aspect of the present invention, there is provided an electric connector including a first housing including a first wall, second and third walls both extending in parallel from the first wall, and a fourth wall connecting the second and third walls to each other, the first to fourth walls defining an inner space in the first housing, and a second housing to be fit into the inner space, the first housing including a first projection protruding into the inner space from an inner surface of the first wall, and a first recess formed at the second and third walls, the second housing including second recess through which the first projection is guided, a wall to make abutment with the first projection when the second housing is inserted in an upside-down posture into the inner space, and a second projection to be fit into the first recess.
Even if the first projection of the first housing makes abutment with the wall of the second housing when the second housing is inserted upside down into the inner space of the first housing, the second projection of the second housing makes abutment with the first housing to thereby reduce a compressive force exerted by the first projection onto the wall.
For instance, the wall is defined as an outer wall thinned by an inner space having a first opening through which a jig is inserted into the space.
Even if the wall is comprised of a wall thinned by a structure of the electric connector, the wall can be prevented from being damaged.
As an alternative, the wall may be defined as a wall formed between a first opening formed at a front of the second housing and a second opening formed at the front of the second housing above the first opening.
It is preferable that the first recess be formed at each of the second and third walls in facing relation.
By forming the first recess at each of the second and third walls, even if the second projection to be fit into the first recess is short in length, a total length of the second projections contributes to enhancement in a strength of the second projections.
It is preferable that the first recess be formed at a location other than a center of the second and third walls in a height-wise direction of the second and third walls.
For instance, the first recess may be formed at an end of the second and third walls in the height-wise direction.
If the second housing is forced to be inserted into the first housing in an upside-down posture, the second projection to be fit into the first recess attempts to outwardly expand a sidewall of the first housing to enter the inner space of the first housing. However, since the first recess is formed at the end of the second and third walls in the direction, the second projection makes abutment with the sidewall of the first housing, and accordingly, the sidewall is difficult to outwardly expand.
It is preferable that the first recess be formed at an end opposite to an end of the second and third walls located closer to the first projection.
If the second housing is forced to be inserted into the first housing in an upside-down posture, the second projection to be fit into the first recess makes abutment with the first housing in the vicinity of the first projection. Thus, the second projection reduces a compressive force exerted by the first projection onto the wall, by making abutment with the sidewall of the first housing in the vicinity of the first projection.
It is preferable that the first recess be formed at inner surfaces of the second and third walls each having a flat outer surface.
The second and third walls do not have a raised portion on an outer surface thereof. Consequently, the first housing can be designed to have a reduced width in comparison with a housing including sidewalls having raised portions on an outer surface thereof in accordance with the first recess.
It is preferable that the second projection be formed on the level with the wall relative to the fourth wall.
If the second housing is forced to be inserted into the first housing in an upside-down posture, the second projection makes abutment with the sidewall of the first housing. Thus, the second projection reduces a compressive force exerted by the first projection onto the wall, by making abutment with a sidewall of the first housing.
The advantages obtained by the aforementioned present invention will be described hereinbelow.
In the electric connector in accordance with the present invention, the second projection of the second housing makes abutment with the first housing to thereby reduce a compressive force exerted by the first projection onto the wall. Accordingly, even if the second housing is forced to be inserted into the first housing in an upside-down posture, it is possible to prevent the wall of the second housing from being damaged, ensuring high reliability in the connection of the first and second housings with each other.
The above and other objects and advantageous features of the present invention will be made apparent from the following description made with reference to the accompanying drawings, in which like reference characters designate the same or similar parts throughout the drawings.
The electric connector in accordance with a preferred embodiment of the present invention is explained hereinbelow with reference to the drawings. In the specification, a wording “front” refers to a side on which electric connectors are coupled to each other, and a wording “rear” refers to its opposite side. A wording “down” or “below” refers to a side on which the electric connector is mounted on a printed circuit board, and a wording “up” or “above” refers to its opposite side.
A male electric connector 100 illustrated in
The male electric connector 100 includes a plurality of male connector terminals 110, an outer housing 120, and a fixing unit (not illustrated) through which the outer housing 110 is fixed on a printed circuit board by soldering, for instance.
As illustrated in
The pin 111 is inserted into and makes electrical contact with a female connector terminal housed in the female electric connector 200. The terminal body is inserted into through-holes formed through the outer housing 120. The outer lead 113 protrudes out of the outer housing 120 through a rear of the outer housing 120. As illustrated in
The outer housing 120 includes a top wall 122, a bottom wall 123, sidewalls 124A and 124B extending in parallel with each other between the top wall 122 and the bottom wall 123, and a rear wall 125. The walls 122, 123, 124A, 124B and 125 define an inner space 121 into which the female electric connector 200 is inserted in parallel with a plane defined by a printed circuit board. The inner space 121 defines an opening 121a at a front of the outer housing 120. The outer housing 120 makes contact through the bottom wall 123 with and is mounted on a printed circuit board.
The top wall 122 includes at an inner surface thereof and at a center of the opening 121a a guide 122a into which a lock arm of the female electric connector 200 is fit. The lock arm of the female electric connector 200 is explained later. As illustrated in
The top wall 122 includes at an inner surface thereof a pair of first projections 122b protruding into the inner space 121. As illustrated in
The first projections 122b prevent a different type of a female electric connector other than the female electric connector 200 from being inserted into the inner space 121, prevent the female electric connector 200 from being inserted in an inclining posture into the inner space 121, and prevent the female electric connector 200 from being inserted in an upside-down posture into the inner space 121.
The bottom wall 123 includes, at an inner surface thereof and at opposite ends thereof in a width-wise direction thereof, a pair of linear recesses 123a extending in a direction in which the female electric connector 200 is inserted into the inner space 121.
Each of the sidewalls 124A and 124B is formed with a first recess 124a in facing relation, as illustrated in
The first recesses 124a are formed at inner surfaces of the sidewalls 124A and 124B. Outer surfaces of the sidewalls 124A and 114B are formed as flat surfaces.
The sidewalls 124B includes at a center of an inner surface thereof a second projection 124b, as illustrated in
As illustrated in
Hereinbelow is explained the female electric connector 200 with reference to the drawings.
The female electric connector 200 illustrated in
As illustrated in
The sheath portion 211, the elastic contact piece 212 and the bundle unit 213 can be formed integral with one another by bending an electrically conductive metal sheet. As an alternative, the elastic contact piece 212 and the sheath portion 211 may be fabricated as separate parts from each other.
The sheath portion 211 includes a floor 211a, a pair of sidewalls 211b, and a ceiling 211d. The sheath portion 211 can be formed by punching a metal sheet into a desired shape, and bending the punched sheet into a quadratic prism.
One of the sidewalls 211b of the sheath portion 211 is formed with a stabilizer 211e in order to prevent the inner housing 220 from being inserted into the inner space 121 of the outer housing 120 in an upside-down posture, and further to stabilize the female connector terminal 210 in posture after the female connector terminal 210 is inserted into the inner housing 220.
Each of the sidewalls 211b of the sheath portion 211 is formed with a cut-out 211f into which an ear portion 212b of the elastic contact piece 212 is fit, as illustrated in
The elastic contact piece 212 is comprised of an arcuate flat spring positioned on the floor 211a in a length-wise direction of the sheath portion 211. The elastic contact piece 212 includes an arcuate flat spring 212a, a pair of ear portions 212b extending from side edges of the flat spring 212a at a center of the flat spring 212a in a length-wise direction of the flat spring 212a, in a direction perpendicular to the length-wise direction of the flat spring 212a, and a raised portion 212c at a center of the flat spring 212a in the length-wise direction of the flat spring 212a. The raised portion 212c makes contact with the male connector terminal 110.
The elastic contact piece 212 is supported, at a front edge 212d and a rear edge 212e thereof, on the floor 211a of the sheath portion 211. The ear portions 212b located at a center in a length-wise direction of the sheath portion 211 are fit into the cut-outs 211f formed at the sidewalls 211b to thereby prevent the elastic contact piece 211 from displacing towards the ceiling 211d. Thus, though the front edge 212d and the rear edge 212e are free edges, the elastic contact piece 211 can act as an arcuate flat spring.
The raised portion 212c is formed to have an arcuate surface by embossing a lower surface of the flat spring 212a.
As illustrated in
The inner housing 220 includes at a front 221 thereof a plurality of first openings 221a, a plurality of second openings 221b, and a plurality of third openings 221c.
The male connector terminals 110 are inserted into the inner housing 220 through the first openings 221a to electrically connect with the female connector terminals 210 housed in the terminal spaces 220a. A jig for pulling the female connector terminal 210 out of the inner housing 220 is inserted into the inner housing 220 through the second opening 221b. The third opening 221c leads to a later-mentioned space 220b (see
A bottom wall 222a of the inner housing 220 is comprised of a thin wall thinned by the third opening 221c. Furthermore, a partition wall 221d (see
Each of sidewalls 223 of the inner housing 220 includes on an outer surface thereof and at a bottom thereof a third projection 223a to be fit into the first recess 124a. The third projection 223a linearly extends in a direction in which the female electric connector 200 is inserted into the inner space 121. Since the third projections 223a are located at a bottom of the sidewalls 223, the third projections 223a are on the level with the bottom wall 222a comprised of a thin wall. One of the sidewalls 223 of the inner housing 220 includes, on an outer surface thereof and at a center in a height-wise direction thereof, a third recess 223b into which the second projection 124b is fit. The third recess 223b linearly extends in a direction in which the female electric connector 200 is inserted into the inner space 121.
A pair of second recesses 224a is formed on an outer surface of a ceiling 224 of the inner housing 220 for allowing the first projections 122b of the outer housing 120 to fit into. The lock arm 230 is located between the second recesses 224a.
Hereinbelow is explained the bottom wall 222a comprised of a thin wall, with reference to
After having been inserted into the terminal space 220a, the female connector terminal 210 is engaged with a lance portion 225. The lance portion 225 includes a hook portion 225a having a distal end formed sharpened towards the female connector terminal 210 to be engaged with the female connector terminal 210, and an elastic thin wall portion 225b extending between the hook portion 225a and the front 221 of the inner housing 200. The female connector terminal 210 is engaged with the hook portion 225a to thereby prevent the female connector terminal 210 from being pulled out of the terminal space 220a.
In order to pull the female connector terminal 210 out of the inner space 220a, a jig (not illustrated) is inserted into the second opening 221b to move the lance portion 225 in a direction away from the female connector terminal 210. Thus, the elastic thin wall portion 225b is pushed by the jig, and accordingly, the elastic thin wall portion 225b and the hook portion 225a are deformed towards the space 220b, thereby releasing the female connector terminal 210 from the engagement with the hook portion 225a.
Then, the female connector terminal 210 is pulled through a rear of the inner housing 220. Thus, the female connector terminal 210 is pulled out of the inner housing 220.
As mentioned above, the space 220b is formed to allow the lance portion 225 to move thereinto to thereby release the female connector terminal 210 from the lance portion 225 when the female connector terminal 210 is pulled out of the inner housing 210.
Since the space 220b is formed in the inner housing 220, the bottom wall 222a is unavoidably thin. Supposing that the inner housing 220 is designed not to include the bottom wall 222a and the space 220b is therefore exposed outside, there is no wall with which the jig makes abutment, so that the lance portion 225 may make excessive displacement if the jig is moved so much. In contrast, the inner housing 220 in the present embodiment is designed to include the bottom wall 222a to partition the space 220b from the outside environment, so that the jig is prohibited from moving beyond the bottom wall 222a. Thus, the inner housing 220 requires to include the bottom wall 222a. For this reason, the inner housing 220 is designed to include the bottom wall 222a in order to partition the space 220b from the outside environment.
In addition, the partition wall 221d partitioning the third opening 221c leading to the space 220b and the second opening 221b through which the jig is inserted into the inner housing 220 is comprised of a thin wall.
As illustrated in
The bottom wall 222a includes at opposite ends in a width-wise direction thereof a pair of linear projections 222c to be fit into the linear recesses 123a (see
As illustrated in
When the releaser 233 is downwardly pushed to thereby be lowered, the front end 231 is elastically deformed. The arm body 232 is formed with an engagement hook 235 to be engaged with the male electric connector 100 to thereby lock the female electric connector 200 to the outer housing 120. The releaser 233 extends obliquely upwardly towards the rear end 234 from the arm body 232 between the engagement hook 235 and the rear end 234.
When the releaser 233 is downwardly pushed to thereby be lowered, the arm body 232 is elastically deformed with the front end 231 and the rear end 234 both acting as fulcrums, and then, the releaser 233 makes abutment with the rear end 234. Then, the arm body 232 is elastically deformed with the front end 231 and an abutment point both acting as fulcrums. Herein, an abutment point is a point at which the releaser 233 makes abutment with the rear end 234. Thus, the male electric connector 100 is released from the inner housing 220 of the female connector 200.
The outer housing 120 of the male electric connector 100 and the inner housing 220 of the female electric connector 200 are fit into each other as follows.
First, a case in which the female electric connector 200 is fit in a normal posture into the inner space 121 of the male electric connector 100 is explained hereinbelow with reference to
As illustrated in
Furthermore, the third projections 223a formed at the sidewalls 223 of the inner housing 220 are fit into the first recesses 124a formed at the sidewalls 124A and 124B of the outer housing 120. The second projection 124b formed at the sidewall 124B of the outer housing 120 is fit into the third recess 223b formed at the sidewall 223 of the inner housing 220.
The linear projections 222c formed at the bottom wall 222a of the inner housing 220 are fit into the recesses 123a formed at the bottom wall 123 of the outer housing 120.
As mentioned above, the projections of the inner housing 220 are fit into the recesses of the outer housing 120, and the projections of the outer housing 120 are fit into the recesses of the inner housing 220 when the female electric connector 200 is fit into the inner space 121 of the male electric connector 100.
Hereinbelow is explained a case in which a user attempts to insert the female electric connector 200 into the inner space 121 of the male electric connector 100 with either one of the male electric connector 100 and the female electric connector 200 being in an upside-down posture, with reference to
As illustrated in
The front end 231 of the lock arm 230 makes abutment with the bottom wall 123 of the outer housing 120.
Even if the second projection 124b of the outer housing 120 makes abutment with the front 221 of the inner housing 220, or the lock arm 230 of the inner housing 220 makes abutment with the bottom wall 123 of the outer housing 120, the front 221 of the inner housing 220 and the bottom wall 123 of the outer housing 120 have a sufficient thickness, and hence, are not damaged. The inner housing 220 cannot be inserted into the inner space 122a of the outer housing 120.
The first projections 122b formed at the top wall 122 of the outer housing 120 make partial abutment with the bottom wall 222a of the inner housing 220. Furthermore, the first projections 122b interfere with the partition wall 221d partitioning the third opening 221c and the second opening 221b from each other.
A portion of the bottom wall 222a with which the first projections 122b make abutment, and the partition wall 221d with which the first projections 122b make abutment are both comprised of a thin wall. Since the bottom wall 222a and the partition wall 221d are thinner than the other portions with which the first projections 122b make abutment, the bottom wall 222a and the partition wall 221d may be damaged and/or cracked if the inner housing 220 is forced to be inserted into the inner space 122a of the outer housing 120 with the first projection 122b making abutment with the bottom wall 222a and the partition wall 221d.
The sidewalls 223 of the inner housing 220 in the present embodiment are formed with the third projections 223a to be fit into the first recesses 124a of the outer housing 120. The third projections 223a make abutment with the sidewalls 124A and 124B of the outer housing 120, which weakens a compressive force exerted by the first projections 122b onto the bottom wall 222a and the partition wall 221d.
In particular, since the first recesses 124a into which the third projections 223a are fit are formed at the end of the sidewalls 124A and 124B opposite to the end of the sidewalls 124A and 124B closer to the first projections 122b, if the inner housing 220 is upside down, the third projections 223a make abutment with the opening 121a at the end of the sidewalls 124A and 124B closer to the first projections 122b. Accordingly, a compressive force exerted by the first projections 122b onto the bottom wall 222a and the partition wall 221d can be reduced by the third projections 223a making abutment with the sidewalls 124A and 124B in the vicinity of the first projections 122b.
In addition, since the third projections 223a of the inner housing 220 are formed at a position in correspondence to the thin walls 222a and 221d, even if the inner housing 220 is fit in an upside-down posture into the inner space 121 of the outer housing 120, the third projections 223a make abutment with the sidewalls 124A and 124B of the outer housing 120, ensuring that a compressive force exerted by the first projections 122b onto the thin walls 222a and 221d can be reduced by the third projections 223a making abutment with the sidewalls 124A and 124B of the outer housing 120.
Consequently, if a user would attempt to insert the inner housing 220 in an upside-down posture into the inner space 121 of the outer housing 120, it would be possible to prevent the thin walls 222a and 221d from being damaged, even if the bottom wall 222a is comprised of a thin wall due to the space 220b, or the partition wall 221d partitioning the second and third openings 221b and 221c from each other is comprised of a thin wall. Thus, the electric connector in accordance with the present embodiment provides high reliability to electrical and mechanical connection between the male electric connector 100 and the female electric connector 200.
The first recesses 124a are formed at the sidewalls 124A and 124B in facing relation and at the same height as the bottom wall 123, and the third projections 223a extend from the sidewalls 223 of the inner housing 220. Thus, even if a projecting length of the third projections 223a from the sidewalls 223 is short, a total projecting length of the third projections 223a ensures the third projections 223a to surely make abutment with the sidewalls 124A and 124B of the outer housing 120. This further ensures that the thin walls 222a and 221d are protected, and the third projections 223a can have an improved strength.
For instance, in the case that the third projections 223a are formed at the sidewalls 223 at a center in a height-wise direction of the sidewalls 223, if the inner housing 120 is forced to be inserted into the inner space 121 of the outer housing 120 in an upside-down posture, the third projections 223a may outwardly expand or deform the sidewalls 124A and 124B of the outer housing 120 to enter the inner space 121 of the outer housing 110, in which case, the first projections 122b compress and thereby damage the thin walls 222a and 221d.
However, since the third projections 223a are formed at an end of the sidewalls 223 in a height-wise direction of the sidewalls 223, the third projections 223a make abutment with the sidewalls 124A and 124B of the outer housing 120 in the vicinity of a connection at which the sidewalls 124A and 124B are connected with the top wall 122, and hence, the sidewalls 124A and 124B are difficult to be deformed or outwardly expanded. Thus, it is possible to prevent the inner housing 220 from being fit in an upside-down posture into the inner space 121 into the inner space 121 of the outer housing 120.
The sidewalls 124A and 124B have an outer flat surface. Accordingly, the outer housing 120 is able to have a narrower width than an outer housing in which sidewalls are raised on an outer surface thereof in accordance with the first recesses 124a.
In the present embodiment, the bottom wall 222a is comprised of a thin wall due to the space 220b. The other wall may be comprised of a thin wall.
The electric connector in accordance with the present invention is suitable to an electric connector, as a connector for connecting wires to each other for allowing electric signals to run therethrough, to be broadly used in various fields such as an automobile industry, an electric/electronic device industry and various machine industries.
While the present invention has been described in connection with certain preferred embodiments, it is to be understood that the subject matter encompassed by way of the present invention is not to be limited to those specific embodiments. On the contrary, it is intended for the subject matter of the invention to include all alternatives, modifications and equivalents as can be included within the spirit and scope of the following claims.
The entire disclosure of Japanese Patent Application Nos. 2014-045428 and 2014-021522 filed on Mar. 7, 2014 and Feb. 6, 2014 including specification, claims, drawings and summary is incorporated herein by reference in its entirety.
Number | Date | Country | Kind |
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2014-021522 | Feb 2014 | JP | national |
2014-045428 | Mar 2014 | JP | national |
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