This application claims the benefit of the earlier filed parent international application number PCT/JP2005/023187 having an international filing date of Dec. 12, 2005 that claims the benefit of JP2005-9838 having a filing date of Jan. 18, 2005.
The present invention relates to an electrical connector, and more specifically, to a surface mount electrical connector in which tines of electrical contacts held by the electrical connector are surface mounted on a circuit board.
Various types of surface mount electrical connectors are known. As an example, a memory card connector device that comprises a contact block, having contacts held therein, provided in the rear portion of the connector body, and a slider that moves within the connector body in the forward-backward directions according to an insertion/removal operation of a card is known as described, for example, in Japanese Unexamined Patent Publication No. 2004-207168 (
Recently, electronic devices, such as digital cameras, personal computers, and the like, have been made compact, and along with this, it is customary that electrical/electronic components incorporated in electronic devices are densely surface mounted on a circuit board. In order to densely surface mount electrical/electronic components, there has been a demand that the electrical/electronic components be made small so as to occupy small areas on the circuit board. This also allows the circuit board itself to be made compact.
In such a surface mount electrical connector, it is customary that the tines of contacts protrude externally from the connector and are soldered to the circuit board, as in the connector device disclosed in Japanese Unexamined Patent Publication No. 2004-207168. Tines are disposed so as to have the same gap with respect to the circuit board. Generally, the gap is not greater than 0.1 mm. The gap between each tine and circuit board, however, may be increased due to warpage of a housing to which the contacts are attached. For example, too large of a gap causes improper soldering, and thereby a defective product is produced. In order to avoid this, and in order to obtain coplanarity of the tines with respect to the circuit board, the gap between each tine and the circuit board is detected, and if the gap is greater than a predetermined value, the tine is pressed toward the circuit board using a jig so that the gap falls within a predetermined range. Therefore, it is convenient for detecting the coplanarity and verification of proper soldering, if the tines are protruding externally from the connector holding the contacts. Further, the protrusion of the tines may facilitate correction of the coplanarity. The protrusion of the tines, however, poses a problem that the area of the circuit board occupied by the connector is increased.
The present invention has been developed in view of the circumstances described above, and it is an object of the present invention to provide a compact surface mount electrical connector which requires a small area on the circuit board, yet allows tine coplanarity adjustment.
The present invention relates to a surface mount electrical connector for mounting to a substrate comprising a housing and a contact carried by the housing, the contact comprising a retention section held by the housing and a tine configured for mounting to a surface of the substrate wherein the tine extends from the retention section and wherein the tine lies inside an outer contour line of the housing. The present invention also relates to a method of connecting a surface mount electrical connector to a substrate comprising the steps of providing a housing carrying a contact, the contact having a tine within a projected footprint of the housing on the substrate, attaching the housing to the substrate, inserting a jig into an opening of the housing, and bending the tine toward the substrate.
Hereinafter, an exemplary embodiment of a surface mount electrical connector (hereinafter, simply referred to as “connector”), of the present invention will be described with reference to the accompanying drawings. First, an overview of the connector 1 will be described with reference to
The housing 2 comprises a body 2a located in the rear portion thereof, and first and second card guides 2b, 2c extending from the body 2a to the front side. The body 2a is open on the upper side and comprises a body rear wall 2d at the rear end. The first and second card guides 2b, 2c comprise first and second card guide paths 12, 14, respectively, on the inner side thereof (
The second card guide 2c comprises an ejection mechanism 8 which is formed such that when a card is inserted into the connector 1 from the front side and pushed into the inside of the connector 1, the card is held at the position inside the connector 1, and when the card is pushed again, it is ejected from the connector 1. The ejection mechanism 8 comprises a slider (not shown) which operates by an insertion/ejection operation. The slider is constantly urged by a spring toward the front side of the housing. The ejection mechanism 8 comprises a heart-shaped cam groove (not shown) and a cam follower (not shown) that moves within the cam groove. This structure is well known in the art, and in addition, it is not the subject matter of the present invention, so that it will not be described in detail here.
Next, the description will be directed to the shell 10. It is formed of a single metal plate through punching and folding, and comprises a principal surface 10a (
As illustrated in
Next, the description will be directed to the contact 4 and attachment thereof to the housing 2 with reference also to
First and second lock protrusions 38a, 38b, spaced apart from each other, are formed at each side edge of the retention section 4b. When the contact 4 is inserted into a contact insertion groove 46, to be described later, of the housing 2, the first and second lock protrusions 38a, 38b engage with the contact insertion groove 46 and are fixed to the housing 2. The contact segment 4a is narrower in width than the retention section 4b, is biased from the retention section 4b, and has an arc-shaped tip. Two slots 39 open to the rear side, are formed at the rear end of the contact 4. A narrow width connection section 41 of the tine 4c extends in a U-shape between the slots 39, followed by a wide width soldering portion 40, which is parallel to the retention section 4b. The soldering portion 40 comprises a rectangular aperture 42 in the center. Further, a hole 44 is provided at a position of the retention section 4b right above the soldering portion 40. The hole 44 is a passage hole for a jig 60 (
Next, the description will be directed to the state in which the contact 4 is attached to the housing 2 with reference to
The housing bottom surface 2e of the housing 2 comprises a V-groove 54, V-shaped in cross-section and extending forward from the depression 50 along the card insertion-ejection directions. The V-groove 54 is provided for reducing thermal stress when the connector 4 is mounted, and formed to the tip of the contact segment 4d and an escape hole 56. The escape hole 56 runs upward through the housing 2 from the housing bottom surface 2e. The escape hole 56 is provided for the tip 4d of the contact segment 4 not to interfere with the housing 2 by bending toward the housing 2 when a card is inserted. The principal surface 10a of the shell 10 comprises a principal surface opening 58 formed aligned with the tine 4c, rectangular channel 52, and hole 44. When the contact 4 is attached to the housing 2, the tine 4c is located inside of the body rear wall 2d, as illustrated in
The description will now be directed to a method for correcting the coplanarity of the tines 4c of the contacts 4 structured in the manner as described above. A situation requiring correction of the position of the tine 4c, i.e., the height of the tine 4c from the substrate 100 means a case in which the housing 2 has deformed after forming, and a gap G which is greater than a predetermined value has developed, as illustrated in
So far an exemplary embodiment of the present invention has been described, but the present invention is not limited to this, and it will be obvious to those skilled in the art that various changes and modifications may be made without departing from the scope of the invention. For example, in the present embodiment, the rectangular channel 52 of the housing 2 and hole 44 of the contact 4 for inserting the jig 60 have rectangular and circular shapes respectively, but they may alternatively have a polygonal shape, oval shape, or the like. Further, the rectangular channel 52 may have a notch shape, other than an opening with closed perimeter formed in the housing 2.
Number | Date | Country | Kind |
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2005-009838 | Jan 2005 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2005/023187 | 12/12/2005 | WO | 00 | 7/14/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/077707 | 7/27/2006 | WO | A |
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