1. Field of the Invention
The present invention relates to a connector and particularly to a connector which is surface-mounted on a printed circuit board and to which a flexible printed circuit board (hereinafter referred to as “FPC”) is connected by a front locking method.
2. Description of the Related Art
Conventionally, there is a connector described in Japanese Patent Application Laid-Open No. 2005-56765, for example, in which a pressing cover 30 is turnably supported on a connector main body 10 and the pressing cover 30 is pulled down to thereby connect a flexible circuit 1 to terminals 20 of the connector.
In the above-described connector, however, a jig is necessary to mount the pressing cover 30 to the connector main body 10, mounting operation takes effort, and productivity is low in actuality.
With the above problems in view, it is an object of the present invention to provide a connector with which a jig is unnecessary in mounting operation, the mounting operation is easy, and productivity is high.
To achieve the above object, a connector according to the present invention includes a base mounted with connecting terminals at a predetermined pitch and an operating lever turnably supported on the base, the operating lever pressing and connecting a tip end portion of a flexible printed circuit board against and to fixed contacts of the connecting terminals, wherein mounting protrusions provided to opposite side end portions of the operating lever are moved along first slide faces, tapered faces, and second slide faces formed in an uninterrupted manner on upper end faces of partition walls provided to opposite side end portions of the base, turning shaft portions coaxially provided in an interrupted manner to remaining one side edge portion of the operating lever push up elastic finger portions of the connecting terminals, and the turning shaft portions are turnably fitted in bearing recessed portions formed at the elastic finger portions.
According to the present invention, by sliding the mounting protrusions of the operating lever along the first slide faces, the tapered faces, and the second slide faces provided to upper end portions of the partition walls of the base, the turning shaft portions of the operating lever can be turnably mounted in the bearing recessed portions of the connecting terminals without using a mounting jig. As a result, it is possible to obtain the connector with which mounting operation is easy and productivity is high.
In an embodiment of the present invention, pressing protrusions may be formed to protrude from inner side faces of elastic arm portions extending from outer side faces of the partition walls and pressure receiving tongue pieces extending from the opposite side end portions of the operating lever may be caused to run on the pressing protrusions and come into contact with and be retained by the outer side faces of the partition walls.
According to the present embodiment, it is possible to restrict natural turning of the operating lever. As a result, the operating lever is prevented from being naturally turned due to vibration or the like to naturally fall down, come off the base, or obstruct connecting operation of the FPC. Because it is possible to prevent the operating lever from naturally falling down, the operating lever need not be held with one hand in mounting of the FPC and the worker can effectively use both his/her hands to connect the FPC to thereby improve productivity.
In another embodiment of the present invention, fitting protrusions protruding from the opposite side end portions of the operating lever may be fitted in fitting recessed portions formed at upper end portions of the elastic arm portions.
According to the present embodiment, it is possible to restrict natural turning of the operating lever. As a result, the operating lever is prevented from being naturally turned due to vibration or the like to naturally fall down, come off the base, or obstruct connecting operation of the FPC. Because it is possible to prevent the operating lever from naturally falling down, the operating lever need not be held with one hand in mounting of the FPC and the worker can effectively use both his/her hands to connect the FPC to thereby improve productivity.
An embodiment according to the present invention will be described based on the accompanying drawings (
The connector according to the present embodiment is formed of a base 10, first connecting terminals 20, second connecting terminals 30, and an operating lever 40 as shown in
Dimensions of a connector embodying the present embodiment are 0.9 mm (height) by 3.5 mm (depth), and a pitch of adjacent connecting terminals is 0.3 mm.
In the base 10, first and second guide grooves 12, 13 are alternately arranged at a predetermined pitch between partition walls 11, 11 provided to protrude from opposite side end portions to face each other as shown in
Each of the first connecting terminals 20 is formed of a conductive body having such a thickness that it can be inserted into the first guide groove 12 and is provided at its one end portion with a connecting portion 22 having a locking claw portion 21 as shown in
Each of the second connecting terminals 30 is formed of a conductive body having such a thickness that it can be inserted into the second guide groove 13 similarly to the first connecting terminal 20 and a second fixed contact 31 that can be elastically displaced is formed at one end portion of the second connecting terminal 30 as shown in
The operating lever 40 has turning shaft portions 41 coaxially formed in an interrupted manner at an edge portion on one side as shown in
On a lower face of a tip end portion 51 of an FPC 50 (
Next, a method of mounting the above-described component parts will be described.
First, if each of the first connecting terminals 20 is slid along the first guide groove 12 of the base 10 to insert the first connecting terminal 20 into the first terminal hole 14, the locking claw portion 21 is locked to an edge portion of the base 10 and positioned. Then, by inserting each of the second connecting terminals 30 into the second terminal hole 15 of the base 10, the protruding second fixed contact 31 moves by sliding along the second guide groove 13 and the positioning step portion 32 comes in contact with the base 10 and is positioned. As a result, the first fixed contact 23 of the first connecting terminal 20 and the second fixed contact 31 of the second connecting terminal 30 are positioned at the front and back in a direction of insertion to form a staggered configuration.
To mount the operating lever 40 to the base 10, the mounting protruding portions 43 of the vertically standing operating lever 40 are first positioned on the first slide faces 11b of the partition walls 11 as shown in
Furthermore, as shown in
In the present embodiment, because the pressure receiving tongue pieces 42 and the fitting protruding portions 45 of the operating lever 40 are reliably restricted in the positions on the base 10, it is possible to reliably keep retaining the operating lever 40 in the open state. Consequently, the operating lever 40 does not fall in mounting of the FPC 50 and therefore the operating lever 40 need not be held with one hand. As a result, a worker can use both his/her hands to mount the FPC 50 to thereby facilitate mounting operation and improve workability.
To mount the FPC 50 to the connector, as shown in
According to the present embodiment, as shown in
According to the present embodiment, biasing force of the first connecting terminals 20 applied to the operating lever 40 is designed to reach its maximum when the operating lever 40 is tilted slightly forward rather than when the operating lever 40 is supported vertically as shown in
To detach the FPC 50, the operating lever 40 is pulled up to thereby rotate it around axes of the turning shaft portions 41 as fulcrums. Furthermore, by pushing down the operating lever 40, the pressure receiving tongue pieces 42 run on the pressing protrusions 16a while being elastically deformed and come in contact with the outer side faces of the partition walls 11 and the fitting protruding portions 45 of the operating lever 40 are fitted in the fitting recessed portions 16b of the base 10 to thereby restrict the position.
Although the connector having lower contacts has been described in the above-described embodiment, the present invention may be applied to a connector having upper contacts or upper and lower contacts.
It is needless to say that the connector according to the present invention may be applied not only to the connector according to the above-described embodiment but also to other connectors.
Number | Date | Country | Kind |
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2006-265158 | Sep 2006 | JP | national |