This application is based upon and claims the benefit of priority from Japanese patent application No. 2007-334676, filed on Dec. 26, 2007, the disclosure of which is incorporated herein in its entirety by reference.
This invention relates to a connector having a function of locking a state of being connected to a connecting object.
This type of connector is disclosed, for example, in Japanese Unexamined Patent Application Publication (JP-A) No. 2002-190351 entitled “Electrical Connector with a Locking Mechanism”. This electrical connector with the locking mechanism includes a plug connector that is fittable/removable in a first direction (fitting/removal direction) with respect to a receptacle connector as a connecting object. In the plug connector, the dimension in a second direction (width direction) perpendicular to the fitting/removal direction is designed to be greater than that in a third direction (thickness direction) perpendicular to the fitting/removal direction and the width direction. The plug connector includes a number of conductive contacts arranged in the width direction.
The plug connector has a pair of locking pieces movable in the thickness direction for locking while it is connected to the receptacle connector, and a pair of lock release arms for releasing the locking by the locking pieces. The locking pieces are provided at both ends, in the width direction, of the plug connector, respectively. The lock release arms are also provided at both ends, in the width direction, of the plug connector, respectively.
For removing the plug connector from the receptacle connector, the pair of lock release arms are sandwiched from both sides by fingers so as to be moved toward each other in the width direction. Following the movement of the lock release arms, the locking pieces move in the thickness direction to release the locking of the receptacle connector. As a result, the plug connector can be removed from the receptacle connector.
However, for releasing the locking, it is necessary to sandwich the pair of lock release arms by fingers from both sides in the width direction in which the dimension of the connector is large, which is inconvenient in operability. Particularly, in the case of a connector with a large number of contacts arranged in the width direction, since the dimension of the connector in the width direction is large, it is difficult to sandwich a pair of lock release arms by fingers from both sides in the width direction and thus there is a problem in operability.
Further, if the connector is pinched in the thickness direction, the locking is released relatively easily. That is, the strength of the locking by the locking pieces movable in the thickness direction of the connector is weak. On the other hand, if the locking strength is excessively improved, it becomes difficult to release the locking.
It is therefore an exemplary object of this invention to provide a connector that can maintain a required locking strength and yet allows locking to be easily released.
Other objects of the present invention will become clear as the description proceeds.
According to an exemplary aspect of the present invention, there is provided a connector which comprises a connector body which is capable of being connected to or disconnected from a connecting object in a first direction, wherein the connector body has a particular dimension in a second direction perpendicular to the first direction, and the particular dimension is greater than a dimension of the connector body in a third direction perpendicular to the first and second directions, a locking portion which is coupled to the connector body for locking the connecting object, wherein the locking portion is adapted to release locking of the connecting object with movement thereof in the second direction, and an operating portion which is coupled to the connector body and adapted to engage with the locking portion, wherein the operating portion is adapted to move the locking portion in the second direction according to movement thereof in the third direction.
Referring to
The cable-side connector is denoted by reference symbol 10 and comprises a connector body 1 that can be fitted (namely, connected) to or removed (namely, disconnected) from a connecting object (not illustrated) in a first direction (fitting/removal direction) D1, and a locking member 3 coupled to the connector body 1.
The connector body 1 comprises an insulating housing 2 and a number of conductive contacts 5 held by the housing 2. The contacts 5 are arranged in a single row at a predetermined pitch in a second direction (width direction) D2 perpendicular to the first direction D1. A direction perpendicular to the first and second directions D1 and D2 will be referred to as a third direction (thickness direction) D3.
The housing 2 has a rectangular parallelepiped shape defining an external form of the connector body 1. The dimension, in the second direction D2, of the housing 2 is designed to be greater than either of those in the first and third directions D1 and D3.
Referring also to
The locking member 3 is laterally symmetrical and is integrally formed from a metal plate. The locking member 3 comprises an operating portion 3a having a generally U-shape in cross section and extending in the second direction D2 along the top portion of the connector body 1, a pair of locking portions 3b formed at both ends, in the second direction D2, of the operating portion 3a, respectively, and a pair of fixing portions 3c fixed to the housing 2.
The locking portions 3b serve to lock the connecting object or release the locking according to movement thereof in the second direction D2. Specifically, while locking the connecting object, the locking portions 3b are located at positions spaced apart from each other, i.e. the positions indicated by solid lines in
The operating portion 3a is formed to be movable in the third direction D3. As will be clear from a later description, following movement of the operating portion 3a in a direction of arrow A, the locking portions 3b move toward each other to release the locking of the connecting object.
Referring also to
A movable button 3a1 operable by an operator's finger is formed in the middle of the operating portion 3a. Further, abutting portions 3a2 are formed at both ends, in the second direction D2, of the operating portion 3a, respectively. When the button 3a1 is depressed in the direction of arrow A so as to be in a broken-line state as illustrated in
On the other hand, each locking portion 3b comprises an arrowhead-shaped engaging portion 3b1 for engagement with the connecting object in the first direction D1, a to-be-abutted portion 3b2 that engages with the abutting portion 3a2 when the abutting portion 3a2 moves in the third direction D3, and a first spring portion 3b3 extending from the fixing portion 3c and thus having one end supported by the connector body 1. The first spring portion 3b3 can be elastically displaced in a plane perpendicular to the third direction D3. The to-be-abutted portion 3b2 extends obliquely from the other end of the first spring portion 3b3. The engaging portion 3b1 is formed on a second spring portion 3b4 extending obliquely from the to-be-abutted portion 3b2. That is, the first spring portion 3b3, the to-be-abutted portion 3b2, and the second spring portion 3b4 extend so as to form a generally crank shape. When the abutting portion 3a2 moves in the third direction D3, the inclined portion 3a3 engages with the to-be-abutted portion 3b2 to thereby push the other end of the first spring portion 3b3 in the second direction D2. Incidentally, the second spring portion 3b4 may also be configured to be elastically deformable.
Referring also to
In the state where the cable-side connector 10 is connected to the connecting object, the button 3a1 is pushed in the direction of arrow A. Since the button 3a1 of the operating portion 3a is formed projecting, the operation is easy. Then, as illustrated in
Referring back to
As illustrated in
On the other hand, as illustrated in
Note that the locking portion 3b may be formed at at least one of both ends, in the second direction D2, of the housing 2.
Now, referring also to
A flat cable 12 is connected to the cable-side connector 10. On the other hand, the board-side connector 11 is fixedly mounted on a board 13.
Positioning between the cable-side connector 10 and the board-side connector 11 is carried out as illustrated in
In this state, if the button 3a1 is pushed in the direction of arrow A, the locking portions 3b engaging with the to-be-locked portions of the connecting object are pushed in the lock release directions so that the engagement with the to-be-locked portions of the connecting object is released as described above.
Various exemplary embodiments of this invention will be enumerated in the following items 1-10.
1. A connector (10) comprising:
a connector body (1) which is capable of being connected to or disconnected from a connecting object (11) in a first direction (D1), wherein the connector body has a particular dimension in a second direction (D2) perpendicular to the first direction, and the particular dimension is greater than a dimension of the connector body in a third direction (D3) perpendicular to the first and second directions;
a locking portion (3b ) which is coupled to the connector body (1) for locking the connecting object (11), wherein the locking portion is adapted to release locking of the connecting object with movement thereof in the second direction (D2); and
an operating portion (3a ) which is coupled to the connector body (1) and adapted to engage with the locking portion (3b ), wherein the operating portion is adapted to move the locking portion in the second direction (D2) according to movement thereof in the third direction (D3).
2. A connector (10) as described in item 1, wherein the connector body (1) comprises:
at least one contact (5) which is conductive; and
a housing (2) which holds the contact,
wherein the housing (2) has a rectangular parallelepiped shape in which a dimension in the second direction (D2) is greater than that in the first direction (D1) and that in the third direction (D3).
3. A connector (10) as described in item 2, wherein the locking portion (3b) is provided at at least one of both ends, in the second direction (D2), of the housing (2).
4. A connector (10) as described in any one of items 1-3, wherein each of the locking portion (3b) and the operating portion (3a) is a part of an integrally formed locking member.
5. A connector (10) as described in item 4, wherein the locking member (3b) integrally includes a fixing portion (3c) which is fixed to the housing (2).
6. A connector (10) as described in any one of items 1-5, wherein the locking portion (3b) and the operating portion (3a) are formed as separate components.
7. A connector (10) as described in any one of items 1-6, wherein the operating portion (3a) comprises an abutting portion (3a2) which is movable in the third direction (D3), and the locking portion (3b) comprises:
a spring portion (3b3) which has one end supported by the connector body, wherein the spring portion is capable of being elastically displaced in a plane perpendicular to the third direction (D3);
a to-be-abutted portion (3b2) which is connected to another end of the spring portion (3b3) and is adapted to engage with the abutting portion (3a2) when the abutting portion moves in the third direction (D3), thereby causing the spring portion to be elastically displaced; and
an engaging portion (3b1) which is connected to the other end of the spring portion (3b3) for engagement with the connecting object (11) in the first direction (D1).
8. A connector (10) as described in item 7, wherein the abutting portion (3a2) comprises an inclined portion (3a3) which is inclined with respect to the third direction (D3), and, when the abutting portion moves in the third direction, the inclined portion engages with the to-be-abutted portion (3b2) to thereby push the other end of the spring portion (3b3) in the second direction (D2).
9. A connector (10) as described in any one of items 1-8, wherein the housing (2) comprises a guide portion (2a) for guiding connection or disconnection of the connector (10) with respect to the connecting object (11), and the guide portion comprises a receiving portion (2b) in which the locking portion (3b) is received.
10. A connector (10) as described in any one of items 1-9, further comprising a shell (4) covering the housing (2), wherein the locking portion (3b), the operating portion (3a), and the shell are integrally formed.
As is clear from the foregoing description, the following effects can be expected by the cable-side connector of
1. Since the fitted state with the connecting object is released by operating the operating portion in the thickness direction of the housing, the operation is easy.
2. When releasing the fitted state with the connecting object, the locking strength is hardly affected even if the connector is pinched in the thickness direction of the housing, and further, the locking can be easily released.
3. The structure is simple and the number of components is small.
4. Since the connector assembly process is simple, the workability is improved.
Number | Date | Country | Kind |
---|---|---|---|
2007-334676 | Dec 2007 | JP | national |