Double row modular gang jack for board edge application

Abstract

A double deck receptacle connector. The connector has a housing with an upper row of openings for receiving corresponding plugs and a lower row of openings for receiving corresponding plugs; a plurality of upper contacts in each of the upper row of openings; and a plurality of lower contacts in each of the lower row of openings. The upper contacts engage the first circuit substrate and the lower contacts engage the second circuit substrate. The connector could also mount to a leading edge of a circuit substrate. In this arrangement, the housing mounts over the leading edge of the circuit substrate. The area of the housing located between the upper row and lower row openings that receive inserts lacks a cavity and a conductive shield.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to electrical connectors. More specifically, the present invention relates to modular gang jack connectors.

2. Brief Description of Earlier Developments

The conventional modular gang jacks have a plurality of plug receiving recesses. Heretofore, however, modular gang jacks have not been configured to allow for the positioning of one horizontal row of plugs above a second horizontal row of plugs. There is, therefore, a need for a modular gang jack which allows such positioning of plugs on the edge of a printed wiring board.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a modular gang jack which allows the positioning of plugs on the edge of a printed wiring board.

These and other objects of the present invention are achieved in one aspect of the present invention by a double deck receptacle connector mountable to a first circuit substrate and a second circuit substrate. The connector has a housing with an upper row of openings for receiving corresponding plugs and a lower row of openings for receiving corresponding plugs; a plurality of upper contacts in each of the upper row of openings; and a plurality of lower contacts in each of the lower row of openings. The upper contacts engage the first circuit substrate and the lower contacts engage the second circuit substrate.

These and other objects of the present invention are achieved in another aspect of the present invention by a double deck receptacle connector mountable to a circuit substrate having a leading edge. The connector has a housing having at least one upper opening for receiving a corresponding plug and at least one lower opening for receiving a corresponding plug; and a plurality of contacts in each of the upper and lower openings. The housing mounts over the leading edge of the circuit substrate.

These and other objects of the present invention are achieved in another aspect of the present invention by a double deck modular jack connector having a housing with openings along an upper row in generally mirror image relationship with openings along a lower row, the upper row openings receiving upper inserts therein, the lower row openings receiving lower inserts therein, and the housing has an area located between the upper inserts and the lower inserts. The area between the upper inserts and the lower inserts lacks a cavity and a conductive shield.

BRIEF DESCRIPTION OF THE DRAWINGS

Other uses and advantages of the present invention will become apparent to those skilled in the art upon reference to the specification and the drawings, in which:

FIG. 1 is a front elevational view of a preferred embodiment of the gang jack assembly of the present invention including two plug elements in phantom lines;

FIG. 2 is a cross sectional view taken through line II—II in FIG. 1 ;

FIG. 3 is a front elevational view of a second preferred embodiment of the modular gang jack of the present invention with two plug elements shown in phantom lines;

FIG. 4 is a cross section taken through line IV—IV in FIG. 3 ;

FIG. 5 is a cross sectional view similar to FIG. 4 of a third preferred embodiment of the modular gang jack of the present invention;

FIG. 6 is another view similar to FIG. 4 of a fourth preferred embodiment of the modular gang jack of the present invention.

FIG. 7 is a top plan view of a printed circuit board for receiving the modular gang jack shown in FIGS. 1-6 ;

FIG. 8 is a vertical cross sectional view similar to FIG. 4 of a fifth preferred embodiment of the modular gang jack of the present invention;

FIG. 9 is a vertical cross sectional view similar to FIG. 4 of a sixth preferred embodiment of the modular gang jack of the present invention;

FIG. 10 is a top plan view of a printed circuit board for receiving the modular gang jack shown in FIG. 9 ;

FIG. 11 is a vertical cross sectional view similar to FIG. 4 of a seventh preferred embodiment of the modular gang jack of the present invention; and

FIG. 12 is a vertical cross sectional view similar to FIG. 4 of an eighth preferred embodiment of the modular gang jack of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIGS. 1 and 2 , the insulated housing element is shown generally at numeral 10 . This insulative housing element is made up of a lower horizontal first longitudinal wall 12 , a medial second longitudinal wall 14 and an upper third longitudinal wall 16 . Connecting the first and second longitudinal walls are lower lateral walls as at 18 and 20 which form with the first and second longitudinal walls lower plug receiving cavities as at numeral 21 generally. Connecting the second and third longitudinal walls are upper lateral walls as at 22 and 23 which form a row of upper plug receiving cavities as at 24 .

Lower plug receiving cavity 21 is typical of all the plug receiving cavities in its row and it includes a forward opened end 26 , a rear opened end 28 , a medial wall 30 which has an inclined top side 32 and a transverse extension 34 .

It will also be noted that the walls as at 20 have a first step 36 and a second step 38 . The upper cavities as at 24 have a forward open end 40 , a rear opened end 42 , a medial wall 43 with inclined lower side 44 and a lateral extension 46 . The upper lateral walls as at 24 also have a first step as at 48 and a second step as at 50 .

Inserted in the lower cavity is a first lower plug insert shown generally at 51 which has a vertical section 52 and a horizontal section 54 . There is a base side 55 , on the bottom of the vertical section and a top side 56 which extends from the top of the base section over the top of the horizontal section. There is also a forward end 58 at the front of the horizontal section and a rear end 60 on the rearward surface of the vertical section. Opposite this rear end on the vertical section there is a medial vertical surface 62 .

Conductive wires as at 64 and 66 extend through the vertical section in bores as at 68 . These bores connect with grooves as at 70 in the top side into which the wires extend horizontally to the forward end and then extend downwardly and rearwardly to be supported on the inclined top side of the medial wall.

Inserted in the upper cavities are second top inserts as is shown generally in numeral 72 . These inserts have a vertical section 73 and a horizontal section 74 . At the bottom of the vertical section there is a base side 75 and there is an opposed top side 76 . At the front of the horizontal section there is a forward end 78 and at the rear of the horizontal section is a rear end 80 opposite from that rear end on the vertical section there is a medial vertical surface 82 .

Conductive wires as at 84 and 86 extend through the vertical section in bores as at 88 which connect the grooves as at 90 that convey the wires to the forward end from where they extend downwardly and rearwardly to be supported on the inclined surface of the medial wall. The conductive wires from both the first and second inserts are connected to a printed wiring board 92 which has an integral pin 96 .

The first, second and third horizontal longitudinal walls have respectively front edges 98 , 100 and 102 . These walls also have, respectfully, rear edges 104 , 106 and 108 .

It will be seen that the upper third board stands transversely beyond the first and second board so that the rear edge 108 of the upper third board is vertically misaligned with the rear edges 104 and 106 of the first and second horizontal wall. Consequently it will be seen that it is possible to insert the lower plug into the lower cavity and then insert the upper plug into the upper cavity such that the upper plug is superimposed over the lower plug and the medial vertical surface 82 of the upper plug abuts the rear end 60 of the lower insert.

Referring to FIGS. 3 and 4 , the insulated housing element is shown generally at numeral 110 . This insulative housing element is made up of a lower horizontal first longitudinal wall 112 , a medial second longitudinal wall 114 and an upper third longitudinal wall 116 . Connecting the first and second longitudinal walls are lower lateral walls as at 118 and 120 which form with the first and second longitudinal walls lower plug receiving cavities as at 121 . Connecting the second and third longitudinal walls are upper lateral walls as at 122 and 123 which form a row of upper plug receiving cavities as at 124 .

Lower plug receiving cavity 121 is typical of all the plug receiving cavities in its row and it includes a forward opened end 126 , a rear opened end 128 , a medial wall 130 which has an inclined top side 132 and a transverse extension 134 . It will also be noted that the walls as at 120 have a first step 136 and a second step 138 . The upper cavities as at 124 have a forward open end 140 , a rear opened end 142 , a downwardly extending medial wall 143 with inclined lower side 144 and a lateral extension 146 . The upper lateral walls as at 124 also have a first step as at 148 and a second step as at 150 .

Inserted in the lower cavity is a first lower insert shown generally at 151 which has a vertical section 152 and a horizontal section 154 . There is a base side 155 , upper bottom of the vertical section and a top side 156 which extends from the top of the base section over the top of the horizontal section. There is also a forward end 158 at the front of the horizontal section and a rear end 160 on the rearward surface of the vertical section. Opposite this rear end on the vertical section there is a medial vertical surface 162 .

Conductive wires as at 164 and 166 extend through the vertical section in bores as at 168 . These bores connect with grooves as at 170 in the top side into which the wires extend horizontally to the forward end and then extend downwardly and rearwardly to be supported on the inclined top side of the medial wall.

Inserted in the upper cavities are second top inserts as is shown generally in numeral 172 . These inserts have a vertical section 173 and a horizontal section 174 . At the bottom of the vertical section there is a base side 175 and there is an opposed top side 176 . At the front of the horizontal section there is a forward end 178 and at the rear of the horizontal section is a rear end 180 in opposed relation to that rear end on the vertical section 173 of the second insert there is a medial vertical surface 182 .

Conductive wires as at 184 and 186 extend through the vertical section in bores as at 188 which connect the grooves as at 190 that convey the wires first laterally, then downwardly, then downwardly again to the forward end from where they extend upwardly and rearwardly to be supported on the lower inclined surface 144 of the downwardly extending medial wall 143 . The conductive wires from both the first and second inserts are connected to a printed wiring board 192 which has an integral pin 196 .

The first, second and third horizontal longitundinal walls have respectively front edges 198 , 200 and 202 . These walls also have, respectively rear edges 204 , 206 and 208 . It will be seen that the upper third wall stands transversely beyond the first and second walls so that the rear edge 208 of the upper third wall is vertically misaligned with respect to the rear edges 204 and 206 of the first and second horizontal wall, consequently it will be seen that it is possible to insert the lower plug into the lower cavity and then insert the upper plug into the upper cavity such that the upper plug is superimposed over the lower plug and the medial vertical surface 182 of the upper plug abuts the rear end 160 of the lower insert.

Referring to FIG. 5 , a third preferred embodiment of the insulated housing element is shown generally at numeral 310 . This insulative housing element is made up of a lower horizontal first longitudinal wall 312 , a second longitudinal wall 314 and an upper third longitudinal wall 316 . Connecting the first and second longitudinal walls are lower lateral walls as at 318 which form with the first and second longitudinal walls lower plug receiving cavities as at 321 . Connecting the second and third longitudinal walls are upper lateral walls as at 322 and 323 which form a row of upper plug receiving cavities as at 324 .

Lower plug receiving cavity 321 is typical of all the plug receiving cavities in its row and it includes a forward opened end 326 , a rear opened end 328 , a medial wall 330 which has an inclined top side 332 and a transverse extension 334 . It will also be noted that the walls as at 320 have a first step 336 and a second step 338 . The upper cavities as at 324 have a forward open end 340 , a rear opened end 342 , a medial wall 343 with inclined lower side 344 and a lateral extension 346 . The upper lateral walls as at 324 also have a first step as at 348 and a second step as at 350 .

Inserted in the lower cavity is a first lower insert shown generally at 351 which has a vertical section 352 and a horizontal section 354 . There is a base side 355 and at the upper end of the vertical section, a top side 356 which extends from the top of the base section over the top of the horizontal section. There is also a forward end 358 at the front of the horizontal section and a rear end 360 on the rearward surface of the vertical section. Opposite this rear end on the vertical section there is a medial vertical surface 362 .

Conductive wires as at 364 and 366 extend through the vertical section in bores as at 368 . These bores connect with grooves as at 370 in the top side into which the wires extend horizontally to the forward end and then extend downwardly and rearwardly to be supported on the inclined top side of the medial wall.

Inserted in the upper cavities are second top inserts as is shown generally in numeral 372 . These inserts have a vertical section 373 and a horizontal section 374 . At the bottom of the vertical section there is a base side 375 and there is an opposed top side 376 . At the front of the horizontal section there is a forward end 378 and at the rear of the horizontal section is a rear end 380 in opposed relation to that rear end on the vertical section there is a medial vertical surface 382 .

Conductive wires as at 384 and 386 extend through the vertical section in bores as at 388 which connect the grooves as at 390 that convey the wires to the forward end from where they extend downwardly and rearwardly to be supported on the lower inclined surface of the medial wall. The conductive wires from both the first and second inserts are connected to a printed wiring board 392 which has an integral pin 396 .

The first, second and third horizontal longitudinal walls have respectively front edges 398 , 400 and 402 . These walls also have, respectfully, rear edges 404 , 406 and 408 . It will be seen that the upper third board stands transversely beyond the first and second board so that the rear edge 408 of the upper third board is vertically misaligned with the rear edges 404 and 406 of the first and second horizontal wall, consequently it will be seen that it is possible to insert the lower plug into the lower cavity and then insert the upper plug into the upper cavity such that the upper plug is superimposed over the lower plug and the medial vertical surface 382 of the upper plug abuts the rear end 360 of the lower insert.

Referring to FIG. 6 , a fourth preferred embodiment of the insulated housing element is shown generally at numeral 410 . This insulative housing element is made up of a lower horizontal first longitudinal wall 412 , a second longitudinal wall 414 and an upper third longitudinal wall 416 . Connecting the first and second longitudinal walls are lower lateral walls as at 418 which form with the first and second longitudinal walls lower plug receiving cavities as at 421 . Connecting the second and third longitudinal walls are upper lateral walls as at 422 which form a row of upper plug receiving cavities as at 424 .

Lower plug receiving cavity 421 is typical of all the plug receiving cavities in its row and it includes a forward opened end 426 , a rear opened end 428 , a medial wall 430 which has an inclined top side 432 and a transverse extension 434 . It will also be noted that the walls as at 420 have a first step 436 and a second step 438 . The upper cavities as at 424 have a forward open end 440 , a rear opened end 442 , a downwardly extending medial wall 443 with an inclined bottom side 444 and a lateral extension 446 . The upper lateral walls as at 422 also have a first step as at 448 and a second step as at 450 .

Inserted in the lower cavity is a first lower insert shown generally at 451 which has a vertical section 452 and a horizontal section 454 . There is a base side 455 , of the vertical section and a top side 456 which extends from the top of the base section over the top of the horizontal section. There is also a forward end 458 at the front of the horizontal section and a rear end 460 on the rearward surface of the vertical section. Opposite this rear end on the vertical section there is a medial vertical surface 462 .

Conductive wires as at 464 and 466 extend through the vertical section in bores as at 468 . These bores connect with grooves as at 470 in the top side into which the wires extend horizontally to the forward end and then extend downwardly and rearwardly to be supported on the inclined top side of the medial wall.

Inserted in the upper cavities are second top inserts as is shown generally in numeral 472 . These inserts have a vertical section 473 and a horizontal section 474 . At the top of the vertical section there is a base side 475 and there is an opposed bottom side 476 . At the front of the horizontal section there is a forward end 478 and at the rear of the horizontal section is a rear end 480 . In opposed relation to that rear end on the vertical section there is a medial vertical surface 482 .

Conductive wires as at 484 and 486 extend through the vertical section in bores as at 488 which connect the grooves as at 490 that convey the wires to the forward end from where they extend downwardly and rearwardly to be supported on the lower inclined surface of the medial wall. The conductive wires from the first insert are connected to a printed wiring board 492 which has an integral pin 496 .

The conductive wires from the second insert are connected to another printed wiring board 493 . The first, second and third horizontal longitudinal walls have respectively front edges 498 , 500 and 502 . These walls also have, respectfully, rear edges 504 , 506 and 508 . It will be seen that the medial second board stands transversely beyond the first and second board so that the rear edge 508 of the upper third board is vertically misaligned with the rear edges 504 and 506 of the first and second horizontal wall, consequently it will be seen that it is possible to insert the lower plug into the lower cavity and then insert the upper plug into the upper cavity such that the upper plug is superimposed over the lower plug and the medial vertical surface 482 of the upper plug abuts the rear end 460 of the lower insert.

Referring to FIG. 7 , a printed wiring board for use with the modular gang jack of the present invention would include a plurality of pin receiving apertures as at 610 , 612 , 614 and 616 . It would also include groups of conductive leads receiving apertures as at 618 and 620 .

Referring to FIG. 8 , a fifth preferred embodiment of the insulated housing element is shown generally at numeral 710 . This insulative housing element is made up of a lower horizontal first longitudinal wall 712 , a second longitudinal wall 714 and an upper third longitudinal wall 716 . Connecting the first and second longitudinal walls are lower lateral walls as at 718 which form with the first and second longitudinal walls lower plug receiving cavities as at 721 . Connecting the second and third longitudinal walls are upper lateral walls as at 722 which form a row of upper plug receiving cavities as at 724 . The plug receiving cavities are similar to those described above.

Inserted in the lower cavity is a first lower insert shown generally at 751 which is similar to the inserts described above. Inserted in the upper cavities is a second top insert as is shown generally in numeral 772 which is also similar to the inserts described above.

The conductive wires from the first insert and second insert are connected to a printed wiring board 792 . The first, second and third horizontal longitudinal walls have respectively front edges 798 , 800 and 802 . It will be seen that front edge 798 is displaced rearwardly from front edges 800 and 802 so that the front faces of the upper and lower housings are vertically misaligned in a non-coincident stair step arrangement.

Referring to FIG. 9 , a sixth preferred embodiment of the insulated housing element is shown generally at numeral 910 . This insulative housing element is made up of a lower horizontal first longitudinal wall 912 , a second longitudinal wall 914 and an upper third longitudinal wall 916 . Connecting the first and second longitudinal walls is a lower lateral wall as at 918 which forms with the first and second longitudinal walls lower plug receiving cavities as at 921 . Connecting the second and third longitudinal walls are upper lateral walls as at 922 which form a row of upper plug receiving cavities as at 924 . The plug receiving cavities are similar to those described above.

Inserted in the lower cavity is a first lower insert shown generally at 951 which is similar to those described above. Inserted in the upper cavities are second top inserts as is shown generally at numeral 972 which are similar to those inserts described above.

The conductive wires from the first insert and second insert are surface mounted on a printed wiring board 992 . The first, second and third horizontal longitudinal walls have respectively front edges 998 , 1000 and 1002 , and front edge 998 is recessed forward from the other two front edges 1000 and 1002 .

Referring to FIG. 10 , a printed wiring board for use with the surface mounted modular gang jack of the present invention would include a plurality of placement pin receiving apertures as at 1010 , 1012 and 1014 . It would also include groups of conductive pads as at 1018 and 1020 .

Referring to FIG. 11 , a seventh preferred embodiment of the insulated housing element is shown generally at numeral 1110 . This insulative housing element is made up of a vertical first longitudinal wall 1112 , a vertical second longitudinal wall 1114 and a vertical third longitudinal wall 1116 . Connecting the first and second longitudinal walls are lateral walls as at 1118 which form with the first and second longitudinal walls plug receiving cavities as at 1121 . Connecting the second and third longitudinal walls are lateral walls as at 1122 which form a row of plug receiving cavities as at 1124 . The plug receiving cavities are similar to those described above.

Inserted in the lower cavity is a first lower insert shown generally at 1151 which is generally similar to those described above. Inserted in the upper cavities are second top inserts as is shown generally in numeral 1172 which are generally similar to those inserts described above. These inserts vertically engage printed circuit board 1192 .

Referring to FIG. 12 , an eighth preferred embodiment of the insulated housing element is shown generally at numeral 1210 . This insulative housing element is made up of a vertical horizontal first longitudinal wall 1212 , a vertical second longitudinal wall 1214 and a vertical third longitudinal wall 1216 . Connecting the first and second longitudinal walls are lateral walls as at 1218 which form with the first and second longitudinal walls plug receiving cavities as at 1221 . Connecting the second and third longitudinal walls are lateral walls as at 1222 which form a row of plug receiving cavities as at 1224 . The plug receiving cavities are similar to those described above.

Inserted in the other cavity is a first lower insert shown generally at 1251 which is generally similar to those described above. Inserted in the other cavities are second inserts as is shown generally in numeral 1272 which are generally similar to those described above. Insert 1272 is mounted on printed circuit board 1292 . Insert 1251 is mounted on another printed circuit board 1293 which is parallel to and vertically displaced from board 1292 .

It will be appreciated that a modular gang jack assembly which provides an efficient and economical means for positioning a double row of plugs on the edge of a printed wiring board.

While the present invention has been described in connection with the preferred embodiments of the various figures, it is to be understood that other similar embodiments may be used or modifications and additions may be made to the described embodiment for performing the same function of the present invention without deviating therefrom. Therefore, the present invention should not be limited to any single embodiment, but rather construed in breadth and scope in accordance with the recitation of the appended claims.

Claims

1. A double deck receptacle connector mountable to a circuit substrate, the connector comprising:a housing having a first row of openings for receiving corresponding plugs and a second row of openings for receiving corresponding plugs; a single solid unitary front wall having first and second sides, extending from a front of said connector towards a rear of said connector, and dividing said first and second rows of openings such that said first row of openings is positioned immediately next to one side of said single solid unitary front wall and said second row of openings is positioned immediately next to said other side of said same single unitary solid front wall; a first wall extending parallel to said front wall and spaced therefrom to create a first gap; a second wall extending parallel to said front wall and spaced therefrom to create a second gap; a plurality of first conductive wires in each of said first row of openings, said conductive wires having a first portion parallel to said front wall and a second portion angled to said front wall; wherein said first portion of said conductive wires are positioned in said gap and said angled portion of said conductive wires are position in said openings; and a plurality of second conductive wires in each of said second row of openings, said conductive wires having a first portion parallel to said front wall and a portion angled to said front wall; wherein said first portion of said conductive wires are positioned in said gap and said angled portion of said conductive wires are position in said openings.

2. The receptacle according to claim 1 wherein said first row of openings is laterally offset with respect to said second row of openings.