JP2006134734A - Connector for printed wiring board - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a connector for a printed wiring board prevented from soldering crack caused by external force at a soldering part of the lead part of each contact, by having a metal shell covering the housing effectively absorb such external force as prying and bending received by a connector main body protruding from an equipment main body. <P>SOLUTION: Of the connector 1 for the printed wiring board, with its insulation housing 2 having a plurality of contacts 3 arrayed in parallel covered with a metal shell, with lead parts 3c of the contacts 3 extended from rear end parts of the insulation housing 2 to be soldered and connected to the printed wiring board 30, and with the connector main body 1a protruded from the printed wiring board 30, is provided with support leg parts 16 extended downward from both side plates 12a of a metal shell 4 in the vicinity of the lead parts 3c and soldered to the printed wiring board 30, and sub support pieces 17 to be soldered to the printed wiring board 30 at lower end edges of the both side plates 12a of the metal shell 4 adjacent to front sides of the support leg parts 16. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a printed wiring board connector suitable for use in a small device with a USB connector such as a portable memory device.

  A small device with a USB connector generally has a structure in which a connector main body protrudes from the device main body, the connector is mounted on an end portion of the printed wiring board, and the connector main body protrudes from an edge of the printed wiring board (patent) Reference 1 and Patent Reference 2).

  The printed wiring board on which the connector is mounted in this way is housed in the device main body, and the connector main body protruding from the device main body is used by being inserted into the USB connector on the other side built in the computer main body or the like.

However, the connector body is susceptible to external forces such as twisting and bending during the insertion / extraction operation, and the external force causes cracks in the soldered portions of the lead portions of the connectors that are soldered to the printed wiring board. May occur, resulting in poor contact.
JP 2003-282178 A Utility Model Registration No. 3101295

  The present invention has been made in view of the above circumstances, and effectively absorbs external forces such as twisting and bending received by the connector main body protruding from the apparatus main body by a metal shell covering the housing of the connector. It is an object of the present invention to provide a printed wiring board connector that prevents the solder cracks in the lead portions from being affected by external force as much as possible in the soldered portion of the portion.

  In order to achieve the above object, according to the present invention, an insulating housing in which a plurality of contacts are arranged in parallel is covered with a metal shell, and a lead portion of the contact extends from a rear end portion of the insulating housing. A connector for a printed wiring board which is solder-connected to an end portion of the printed wiring board, and a connector main body including an electrical contact portion of the contact protrudes from an end edge of the printed wiring board, in the vicinity of the lead portion Support leg portions that extend downward from both side plates of the metal shell, are inserted and soldered through through holes provided in the printed wiring board, and are provided on both side plates of the metal shell adjacent to the front side of the support leg portions. An auxiliary support piece to be soldered to the printed wiring board is provided at the lower end edge.

  External force such as bending and bending acting on the connector main body is received and absorbed by the support leg portion and the auxiliary support piece, and the soldered portion of the lead portion is protected.

  It is preferable that a cut portion is provided in both side plate portions of the metal shell adjacent to the front side of the auxiliary support piece to form a constricted portion that can be elastically deformed more easily than the both side plates.

  In this case, the external force acting on the connector body is effectively absorbed by elastically deforming the constricted portion in addition to the supporting leg portion and the auxiliary supporting piece, and the soldered portion of the lead portion is protected. Is done.

  Further, when mounting on a printed wiring board, a lower portion of the rear end portion of the insulating housing from which the lead portion extends is removed to form a notch step portion, and the notch step portion is formed on the printed circuit board. When the connector is mounted by engaging with the end of the wiring board, the height on the printed wiring board can be reduced.

  The printed wiring board connector according to the present invention configured as described above is mounted on the printed wiring board and stored in a storage case, and the connector body is configured such that the connector body protrudes through the opening of the storage case. And

  As described above, the connector of the present invention acts on the connector main body protruding from the edge of the printed wiring board, and external force such as bending is received and absorbed by the support leg and the auxiliary support piece. The soldered portion of the lead portion soldered to the printed wiring board is protected and is hardly affected by external force, and the occurrence of solder cracks can be prevented.

  Moreover, according to the invention which concerns on Claim 2, in addition to the said support leg part and the said auxiliary | assistant support piece, the said neck part elastically deforms, and absorbs the external force which acts on the said connector main body more effectively. , Solder cracks in the lead portion can be more reliably prevented.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  1 to 5 show a printed wiring board connector 1 according to the present invention. The connector 1 includes an insulating housing 2, four contacts 3 arranged in parallel with the insulating housing 2, and a metal shell 4 that covers the insulating housing 2.

  The insulating housing 2 is formed into a rectangular cross section with a heat-resistant / insulating resin material such as PPS resin, and as shown in FIG. 5, contact receiving holes 5 penetrating in the front-rear direction are provided in parallel in the horizontal direction. In addition, the lower end portion of the rear end portion is removed and a notch step portion 6 is formed on the upper portion, and a positioning projection for mounting on a printed wiring board 30 described later on the lower surface of the notch step portion 6. 7 is provided.

  The contact 3 is formed into a strip-shaped body by punching and bending a conductive metal thin plate, for example, a phosphor bronze thin plate, and is individually inserted through the contact receiving hole 5 of the insulating housing 2 as shown in FIG. And a bent portion extending from the rear end portion of the insulating housing 2 and bent along the lower surface of the notch step portion 6. 3b and a lead portion 3c connected to the rear end of the bent portion 3b. Of the four contacts 3 arranged in parallel with the insulating housing 2, the two contacts 3 positioned on the inner side have a slightly shorter tip portion.

  The metal shell 4 is formed by bending a metal plate into a flat rectangular tube shape, and is bent at a right angle from the upper plate 11 covering the upper portion of the insulating housing 2 and both side edges of the upper plate 11. 4 includes both side plates 12 and 12 that cover both side walls, and bottom plates 13 and 13 that are bent at right angles from the lower end edges of both side plates 12 and 12 to cover the bottom wall of the insulating housing 2, as shown in FIG. In addition, a flat rectangular tube shape is formed by engaging the engaging protrusions 14 and the engaging recesses 15 which are provided at the abutting edges of the bottom plates 13 and 13 and mesh with each other, and a mating connector (not shown) is formed at the front end. Z)) is formed. On the other hand, both side plates 12a and 12a bent at right angles from both side edges of the upper plate 11 covering the upper wall of the notch step portion 6 at the rear end portion of the insulating housing 2 cover both side walls of the notch step portion 6. It is formed so as to be short. The short side plates 12a, 12a have a pair of support leg portions that extend downward at a position ahead of the lead portion 3c of the contact 3 and are inserted into elongated holes 32, 32 provided through a printed wiring board 30 described later. 16 and 16 are continuously provided, and auxiliary support pieces 17 and 17 soldered to the surface of the printed wiring board 30 are formed at the lower end edges of the side plates 12a and 12a adjacent to the front sides of the support legs 16 and 16. Has been. Furthermore, the cut | notch parts 18 and 18 extended upward from the lower end edge of the short side plates 12a and 12a adjacent to the front side of the auxiliary support pieces 17 and 17 are provided, and the length of the short side plates 12a and 12a in the vertical direction is further reduced. The constricted portions 19 and 19 are formed, and the constricted portions 19 and 19 can be elastically deformed more easily than the short side plates 12a and 12a.

  As shown in FIGS. 1 and 5, the metal shell 4 having the above configuration engages a locking piece 20 cut and raised from the upper plate 11 with a recess 21 provided on the rear upper wall of the insulating housing 2 and on both sides. The locking pieces 22 cut and raised from the plates 12 and 12 are engaged with recesses (not shown) provided on both side walls of the insulating housing 2 so as to cover the entire insulating housing 2.

  6 and 7 show a use state in which the printed wiring board connector 1 configured as described above is attached to the end portion of the printed wiring board 30. FIG. As shown in FIG. 7, positioning holes 31, 31 into which the positioning protrusions 7, 7 of the insulating housing 2 are fitted, and support legs 16, 16 of the metal shell 4 are inserted into the end portion of the printed wiring board 30. The long holes 32 and 32 to be penetrated are provided. Further, the lead 3c of the contact 3 is soldered to the surface of the printed wiring board 30 and electrically connected to a circuit pattern (not shown), and along the periphery of the long hole 32. A solder film 34 is applied.

  The connector 1 engages the notch 6 of the rear end with the end of the printed wiring board 30 and positions the positioning projections 7 and 7 in the positioning holes 31 and 31 and supports both. When the solder films 33 and 34 are melted in the state where the leg portions 16 and 16 are inserted into the long holes 32 and 32, the lead portion 3c of the contact 4 is soldered as shown in FIGS. At the same time as the surface mounting on the printed wiring board 30, the support legs 16 and 16 are soldered to the inner wall surfaces of the long holes 32 and 32, and the auxiliary support pieces 17 and 17 are soldered to the surface of the printed wiring board 30. Then, the connector 1 is attached to the end of the printed wiring board 30. In the figure, 33a indicates a soldering portion of the lead portion 3c, 34a indicates a soldering portion of the support leg portion 16, and 34b indicates a soldering portion of the auxiliary support piece 17. In the connector 1 thus mounted, the connector main body including the electrical contact portion 3 a of the contact 4 protrudes from the edge 30 a of the printed wiring board 30.

  FIG. 10 shows an example of use in which the printed wiring board 30 with the connector 1 mounted thereon is housed in the housing case 40 and used as a device with a connector such as a portable memory device. The connector main body 1a including 3a protrudes from the storage case 40.

  The connector main body 1a protruding from the storage case 40 is inserted into a mating connector (not shown) built in the computer main body or the like to be electrically and mechanically connected. When the connector main body 1a is inserted and pulled out, The connector 1 is often subjected to external forces such as bending and bending. However, such an external force is absorbed by the support legs 16 and 16 at the rear end of the connector 1 and the soldering portions 34a and 34b of the auxiliary support pieces 17 and 17, and further by the elastic deformation of the constricted portions 19 and 19. The external force hardly affects the soldering portion 33a of the lead portion 3c of the contact 3. Therefore, it is possible to prevent the occurrence of solder cracks in the soldered portion 33a of the lead portion 3c.

  In the above-described embodiment, the lead portion 3c of the contact 3 is a surface mount type in which the lead portion 3c is connected to the surface of the printed wiring board 30 by soldering, but the lead portion 3c is connected to the printed wiring board 30 as shown in FIG. It is good also as a DIP type inserted in the attachment hole 35 provided in and soldered and connected. 33b is a soldering part.

It is a perspective view of the connector for printed wiring boards concerning the present invention. It is a front view of a connector same as the above. It is a side view of a connector same as the above. It is a bottom view of a connector same as the above. FIG. 5 is a cross-sectional view taken along 5-5 in FIG. 2. It is a vertical side view which shows the state which mounted | wore the printed wiring board with the connector same as the above. It is a top view of the printed wiring board principal part which showed the connector of FIG. 6 with the broken line. It is a principal part expanded sectional view which shows the soldering part of a connector and a printed wiring board same as the above. It is a principal part expanded horizontal sectional view which shows the soldering state of the support leg part of a connector same as the above. It is a principal part vertical side view of the apparatus using a connector same as the above. It is a principal part expanded sectional view which shows the soldering part of the connector by another embodiment of this invention, and the connector for printed wiring boards.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Connector for printed wiring boards 1a Connector main body 2 Insulation housing 3 Contact 3a Electrical contact part 3b Bending part 3c Lead part 4 Metal shell 5 Contact accommodating hole 6 Notch step part 12, 12 Both side board 12a, 12a Short both side board 16, 16 Support leg portion 17, 17 Auxiliary support piece 19, 19 Neck portion 30 Printed wiring board 32 Long hole (through hole)
33a, 33b Soldered portion 34a of lead portion 3c 34a Soldered portion of support leg 16b Soldered portion of auxiliary support piece 35 Mounting hole 40 Storage case

Claims (4)

An insulating housing in which a plurality of contacts are arranged in parallel is covered with a metal shell, a lead portion of the contact extends from a rear end portion of the insulating housing, and is soldered to an end portion of the printed wiring board. The connector main body including the electrical contact portion of the contact is a printed wiring board connector protruding from an edge of the printed wiring board,
In the vicinity of the lead portion, extending from both side plates of the metal shell, provided with support leg portions that are soldered by being inserted into through holes provided in the printed wiring board,
A printed wiring board connector, characterized in that an auxiliary support piece to be soldered to the printed wiring board is provided at a lower end edge of both side plates of the metal shell adjacent to the front side of the support leg.   The printed wiring board connector according to claim 1, wherein notches are provided in both side plate portions of the metal shell adjacent to the front side of the auxiliary support piece to form a constricted portion that can be elastically deformed more easily than the both side plates. .   A notch step portion is formed by removing a lower portion of the rear end portion of the insulating housing from which the lead portion extends, and the notch step portion is engaged with an end portion of the printed wiring board. The printed wiring board connector according to claim 1, which is attached. 4. The printed wiring board to which the surface mount connector according to claim 1, 2 or 3 is mounted is stored in a storage case, and a connector main body including an electrical contact portion of the contact of the printed wiring board connector is an opening of the storage case. Equipment with connectors protruding through.

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