This application claims priority to prior Japanese Patent Application JP 2004-10885, the disclosure of which is incorporated herein by reference.
This invention relates to a so-called zero insertion force (ZIF) connector which requires only a small force for insertion and removal of connectors into and from each other.
A ZIF connector of the type is disclosed in Japanese Unexamined Patent Application Publication (JP-A) No. 2000-340310. The ZIF connector comprises a first connector and a second connector to be fitted and connected thereto. The first connector has a plurality of contacts held by an insulator and arranged adjacent to one another in a predetermined direction. Generally, the contacts have a predetermined pitch. The insulator rotatably supports a driving member. The driving member has a plurality of cam portions.
Similarly, the second connector has a number of contacts held by an insulator and arranged adjacent to one another in a predetermined direction. Generally, these contacts have a pitch equal to that of the contacts contained in the first connector.
When the first and the second connectors are fitted to each other, the contacts of the first connector and the contacts of the second connector are faced to each other with a space left therebetween. Since no frictional movement is caused between the contacts, only a small force is required for insertion and removal of the first and the second connectors into and from each other. Thereafter, the driving member is rotated. Under the action of the cam portions, the contacts of the first connector are brought into press contact with the contacts of the second connector. Thus, the first and the second connectors are fitted and connected to each other.
In the above-mentioned ZIF connector, it will be assumed that the contacts of the first connector are misaligned with the contacts of the second connector. In other words, the first and the second connectors may sometimes be fitted to each other with their contacts misaligned in position. In this event, smooth fitting between the first and the second connectors may be inhibited. Further, the contacts may be undesiredly and improperly contacted with each other to cause connection error.
It is therefore an object of this invention to provide a ZIF connector in which a position of a contact is automatically adjusted during a connecting operation.
It is another object of this invention to provide a ZIF connector of the type described, which is capable of smoothly fitting first and second connectors to each other even if misalignment occurs between contacts of the first and the second connectors.
It is still another object of this invention to provide a ZIF connector of the type described, which is capable of easily preventing connection error between first and second connectors to be fitted and connected to each other.
Other objects of the present invention will become clear as the description proceeds.
According to an aspect of the present invention, there is provided a ZIF connector having first and second connectors to be fitted to and released from each other, wherein the first connector comprises a first insulator portion, a plurality of first conductive contacts held by the first insulator portion and arranged adjacent to one another in a predetermined direction, and an operating member rotatably held by the first insulator portion, the second connector comprising a second insulator portion, a floating member held by the second insulator portion to be rotatable and slidable in the predetermined direction, the floating member having a first surface and a second surface which face the first conductive contacts and the operating member, respectively, in a mutually fitted state where the first and the second connectors are fitted to each other, and a plurality of second conductive contacts having one parts held by the first surface and arranged adjacent to one another in the predetermined direction, the floating member being rotated in a first rotating direction to bring the second conductive contacts into contact with the first conductive contacts when the operating member is rotated in the mutually fitted state.
According to another aspect of the present invention, there is provided a second connector to be fitted and connected to a first connector comprising a first insulator portion, a plurality of first conductive contacts held by the first insulator portion and arranged adjacent to one another in a predetermined direction, and an operating member rotatably held by the first insulator portion, the first insulator portion including an insulator holding the first conductive contacts, and a frame coupled to the insulator, holding the operating member, and fitted to the second connector, the second connector comprising a second insulator portion, a floating member held by the second insulator portion to be rotatable and slidable in the predetermined direction, the floating member having a first surface and a second surface facing the first conductive contacts and the operating member, respectively, in a mutually fitted state where the first and the second connectors are fitted to each other, and a plurality of second conductive contacts having one parts held by the first surface and arranged adjacent to one another in the predetermined direction, the floating member being rotated in a first rotating direction to bring the second conductive contacts into contact with the first conductive contacts when the operating member is rotated in the mutually fitted state.
According to still another aspect of the present invention, there is provided a first connector to be fitted and connected to a second connector comprising a second insulator portion, a floating member held by the second insulator portion to be rotatable and slidable in a predetermined direction and having first and second surfaces opposite to each other, and a plurality of second conductive contacts having one parts held by the first surface and arranged adjacent to one another in the predetermined direction, the first connector comprising a first insulator portion, a plurality of conductive contacts held by the first insulator portion and arranged adjacent to one another in the predetermined direction, and an operating member rotatably held by the first insulator portion, the floating member rotating in a first rotating direction to bring the second conductive contacts into contact with the first conductive contacts in a mutually fitted state where the first and the second connectors are fitted to each other.
Referring to
The ZIF connector illustrated in the figure comprises a first connector 1 and a second connector 11 to be fitted and connected to the first connector 1. For convenience of description, a left half in
Referring to
The frame 2 defines a lower space 2a and an upper space 2b at its center. Inside the frame 2, a pair of semicylindrical cams 5 are rotatably held on left and right sides to serve as an operating member. Each of the cams 5 has a center axis extending in a predetermined direction, i.e., a first direction A1 (perpendicular to a drawing sheet of
The insulator 3 is disposed in the lower space 2a of the frame 2 and coupled to the frame 2. On left and right sides of the insulator 3, a number of conductive contacts 4 are held and arranged adjacent to one another at a predetermined pitch in the first direction A1. Each of the contacts 4 has one end 4a connected to the mother board 21 and the other end 4b of a curved shape. The other end 4b of each contact 4 is movable in a second direction A2 (i.e., a horizontal direction in
The insulator 3 has a plurality of partition walls 3a located between every adjacent ones of the contacts 4, and a pair of guide portions 3b formed at opposite ends in the first direction A1. The guide portions 3b are protrusions protruding longer than the partition walls 3a in the second direction A2. The partition walls 3a serve to guide movement of the other ends 4b of the contacts 4 and to prevent electrical conduction between every adjacent ones of the contacts 4. The role of the guide portions 3b will later be described in detail.
Referring to
When the first and the second connectors 1 and 11 are fitted to each other, the frame 12 is inserted into the upper space 2b of the frame 2 of the first connector 1. The frame 12 has a pair of windows 12a formed at positions corresponding to the cams 5 and opened in the second direction A2.
The insulator 13 is located at the center of the frame 12 and coupled to the frame 12. To lower portions of opposite ends of the insulator 13 in the second direction A2, a pair of shafts 16 extending in the first direction A1 are fixed, respectively. A pair of floating members 15 made of an insulating material are held by the shafts 16, respectively, to be rotatable and slidable (as will later be described in detail). The floating members 15 are located at positions corresponding to the windows 12a of the frame 12. Each of the floating members 15 has slant surfaces 15a formed at opposite ends in the first direction A1. The slant surfaces 15a serves to adjust the floating members 15 in position in the first direction A1, in cooperation with the guide portions 3b mentioned above. Specifically, when each of the floating members 15 is rotated around the shaft 16 in a first rotating direction from a position depicted by a solid line to another position depicted by a two-dot-and-dash line in the right half of
On left and right sides of the insulator 13, a number of floating contacts 14 are held and arranged at the predetermined pitch in the first direction A1. Each of the contacts 14 has one part, i.e., one end 14a connected to one surface or the other surface of the daughter board 31 and the other part, i.e., the other end 14b fixed to each floating member 15. As a consequence, each contact 14 of the second connector 11 has a floating structure. The contacts 14 urge the floating members 15 in a second rotating direction opposite to the first rotating direction. It is to be noted that each of the floating members 15 has a first surface 15b and a second surface 15c which face the contacts 14 and the cam 15, respectively, in a mutually fitted state where the first and the second connectors 1 and 11 are fitted to each other.
In the state illustrated in the right half of
Referring to
It will be assumed as a first case that, in the state where the first and the second connectors 1 and 11 are not connected to each other, the floating contact 14 of the second connector 11 straightly extends in a vertical direction as seen from a front side as illustrated in
When the cam 5 is operated to rotate the floating member 15 in the first rotating direction, a left one of the slant surfaces 15a of the floating member 15 is engaged with a left one of the guide portions 3b to move the floating member 15 towards a right side of
As a second case, the floating contact 14 of the second connector 11 may have a posture illustrated in
When the cam 5 is operated to rotate the floating member 15 in the first rotating direction, a right one of the slant surfaces 15a of the floating member 15 is engaged with a right one of the guide portions 3b to move the floating member 15 towards the left side of
In either event, when the floating member 15 is released from a pressing force of the cam 5, the floating member 15 is returned to its initial position by a restoring force of the floating contacts 14.
Referring to
Due to production error of each floating contact 14 or each contact 4 or a fitting posture between the first connector 1 and the second connector 11, it is assumed that all or some of the floating contacts 14 are not inclined and are hardly connected to the contacts 4. In this event, the floating member 15 exhibits the following function. Specifically, when the second connector 11 is fitted to the first connector 1, the floating member 15 is applied with an urging force from the floating contacts 14 in a direction depicted by an arrow 17 as illustrated in
While this invention has thus far been described in connection with the preferred embodiment thereof, it will be readily possible for those skilled in the art to put this invention into practice in various other manners without departing from the scope set forth in the appended claims. In the foregoing description, the slant surfaces are formed on the floating member. Alternatively, the slant surfaces may be formed on the frame.
Number | Date | Country | Kind |
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2004-010885 | Jan 2004 | JP | national |
Number | Name | Date | Kind |
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5622505 | Hashiguchi et al. | Apr 1997 | A |
5676559 | Laub et al. | Oct 1997 | A |
5735709 | Hashiguchi et al. | Apr 1998 | A |
6890201 | Hashiguchi et al. | May 2005 | B1 |
20040229491 | Maeda et al. | Nov 2004 | A1 |
Number | Date | Country |
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2000 340310 | Dec 2000 | JP |
Number | Date | Country | |
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20050186820 A1 | Aug 2005 | US |