1. Field of the Invention
The present invention relates to a female terminal fitting.
2. Description of the Related Art
A female terminal fitting disclosed in Japanese Unexamined Patent Publication No. 2003-243076 includes a tubular main body portion (called an “electrical contact portion” in Japanese Unexamined Patent Publication No. 2003-243076) into which a male tab is inserted, and a resilient contact piece deflectably arranged in the main body portion and configured to resiliently come into contact with the male tab (called a “male terminal” in Japanese Unexamined Patent Publication No. 2003-243076). Further, excessive deflection preventing pieces formed by being cut and bent inwardly to prevent excessive deflection of the resilient contact piece are provided on opposite side walls of the main body portion.
In the above case, as the excessive deflection preventing pieces are formed, holes are open on the opposite side walls. Thus, there has been a possibility that external matters enter the main body portion through the holes. Particularly, since the holes are located near a contact portion where the resilient contact piece comes into contact with the male tab, there has been a possibility that an external matter having entered through the hole adheres to the contact portion and there has been a concern that electrical contact reliability is impaired. Further, since the holes are provided on the opposite side walls, there has been also a concern that the strength of the main body portion is reduced.
The present invention was completed based on the above situation and aims to provide a female terminal fitting capable of preventing excessive deflection of a resilient contact piece even without forming a hole on a side wall of a main body portion.
The present invention is directed to a female terminal fitting with a tubular main body and a resilient contact piece deflectably arranged in the main body, a mating male tab coming into contact with the resilient contact piece to deflect and deform the resilient contact piece toward a base wall of the main body when the male tab is inserted into the main body. An excessive deflection regulating portion is arranged on the base wall of the main body at a position facing the resilient contact piece in a deflecting direction of the resilient contact piece and is configured to regulate excessive deflection of the resilient contact piece.
Since the excessive deflection regulating portion is provided on the base wall of the main body, excessive deflection of the resilient contact piece can be prevented even without forming a hole on a side wall of the main body portion.
Two of the excessive deflection regulating portions may be arranged at positions facing opposite widthwise end parts of the resilient contact piece. Thus, the resilient contact piece that is about to be deflected excessively is supported stably on the excessive deflection regulating portions.
The main body may have an auxiliary spring piece configured to assist a spring force of the resilient contact piece by contacting the resilient contact piece in the deflecting direction of the resilient contact piece. The auxiliary spring piece may be formed by cutting the base wall and bending a cut piece from a hole left on the base wall. The excessive deflection regulating portion also may be cut and bent from the hole. Thus, the excessive deflection regulating portion and the auxiliary spring piece may be provided commonly using one hole so that the configuration of the main body can be simplified. Further, the strength of the main body can be ensured since an unnecessarily large hole is not open on the main body.
The excessive deflection regulating portion may be be cut and bent from the hole of the base wall and may include a regulating surface at opposite sides of the hole and at positions facing the resilient contact piece. The regulating surface may be raised to be closer to the resilient contact piece than other parts of the base wall. The resilient contact piece comes into line or surface contact with the regulating surface of the excessive deflection regulating portion so that excessive deflection of the resilient contact piece can be regulated stably.
The female terminal fitting is resiliently lockable by a locking lance projecting at an inner wall of a cavity of a connector housing when being inserted into the cavity, and the main body is provided with a lance receiving space, into which the locking lance is insertable, in a bottom-raising height range of the excessive deflection regulating portion. Since an insertion amount of the locking lance is ensured utilizing the bottom-raised height of the excessive deflection regulating portion, space efficiency is excellent.
The base wall is provided with a locking projection lockable to the locking lance by striking an edge part of the hole outwardly. Since the locking projection is provided utilizing the hole, the configuration is simplified as compared with the case where the locking projection is provided separately and, consequently, the miniaturization of the terminal fitting can be coped with.
One embodiment of the present invention is described with reference to
The main body 20 is in the form of a rectangular tube and, as shown in
As shown in
Further, as shown in
As shown in
When the male tab 90 is inserted into the main body 20, the resilient contact piece 28 is pressed by the male tab 90 to be deflected and deformed down (toward the base wall 21). In that state, the contact portion 29 resiliently contacts the male tab 90 so that the female terminal fitting 10 is connected electrically conductively to the male tab 90 between the contact portion 29 and the receiving portion 24. Note that, as shown in
Further, as shown in
Further, as shown in
As shown in
Next, functions and effects of the female terminal fitting 10 of the embodiment are described.
When the female terminal fitting 10 is inserted into the cavity of the connector housing and reaches a proper insertion position, a tip part of the locking lance 70 projecting at an inner wall of the cavity is resiliently fitted into the lance receiving space 40 of the main body 20 and is arranged to be lockable to the auxiliary projection 35 of the locking projection 34, thereby retaining the female terminal fitting 10 in the cavity. In this case, by locating the excessive deflection regulating portions 37 higher than the reference surfaces of the base wall 21, a recess amount of the lance receiving space 40 in the height direction is increased and the tip part of the locking lance 70 can be inserted deeply into the lance receiving space 40.
Subsequently, when the connector housing is connected to a mating connector housing (not shown), the male tab 90 mounted in the mating connector housing is inserted into the main body 20, the resilient contact piece 28 comes into contact with the male tab 90 to be deflected and deformed down, and the auxiliary spring piece 32 also is pressed by the resilient contact piece 28 to be deflected and deformed down. When the male tab 90 is inserted to a proper depth, the male tab 90 is sandwiched resiliently between the contact portion 29 of the resilient contact piece 28 and the receiving surface 25 of the receiving portion 24 to achieve proper electrically conductive connection of the female terminal fitting 10 to the male tab 90.
On the other hand, if an excessive external force acts on the resilient contact piece, such as due to an incorrect insertion posture of the male tab 90 as shown in
As described above, the excessive deflection regulating portions 37 are provided on the base wall 21 of the main body 20 to prevent excessive deflection of the resilient contact piece 28 even without forming holes on the side walls 22 of the main body 20. In this case, the excessive deflection regulating portions 37 are provided at the positons facing the protruding portions 31 on the opposite widthwise end parts of the resilient contact piece 28. Thus, the resilient contact piece 28 is supported stably on the excessive deflection regulating portions 37. Further, by arranging the auxiliary spring piece 32 between the excessive deflection regulating portions 37, the excessive deflection regulating portions 37 and the auxiliary spring piece 32 are arranged space-efficiently within the width of the base wall 21.
Further, the excessive deflection regulating portions 37 and the auxiliary spring piece 32 both are cut and bent from the hole 33 of the base wall 21 and commonly use one hole 33, thereby simplifying the configuration of the main body 20. Further, since an unnecessarily large hole is not open on the main body 20, specified strength can be ensured for the main body portion 20.
The invention is not limited to the above described and illustrated embodiment. For example, the following modes are also included in the scope of the invention.
The excessive deflection regulating portions may come into contact with the auxiliary spring piece to regulate excessive deflection of the resilient contact piece.
One, three or more excessive deflection regulating portions may be provided on the base wall.
Depending on cases, the auxiliary spring piece may be omitted. In this case, the excessive deflection regulating portion may be arranged at a position facing a widthwise central part of the resilient contact piece.
The excessive deflection regulating portion may be formed to stand up on the base wall and the standing end thereof may be arranged at a position facing the resilient contact piece.
The excessive deflection regulating portion may be arranged at a position facing a part of the resilient contact piece before the rear end part.
Number | Date | Country | Kind |
---|---|---|---|
2013-043125 | Mar 2013 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2014/055544 | 3/5/2014 | WO | 00 |