EP0546673B1 - Connector with retention feature - Google Patents
Connector with retention feature Download PDFInfo
- Publication number
- EP0546673B1 EP0546673B1 EP92309772A EP92309772A EP0546673B1 EP 0546673 B1 EP0546673 B1 EP 0546673B1 EP 92309772 A EP92309772 A EP 92309772A EP 92309772 A EP92309772 A EP 92309772A EP 0546673 B1 EP0546673 B1 EP 0546673B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- tail
- apex
- connector
- tails
- hole
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/648—Protective earth or shield arrangements on coupling devices, e.g. anti-static shielding
- H01R13/658—High frequency shielding arrangements, e.g. against EMI [Electro-Magnetic Interference] or EMP [Electro-Magnetic Pulse]
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/50—Fixed connections
- H01R12/51—Fixed connections for rigid printed circuits or like structures
- H01R12/55—Fixed connections for rigid printed circuits or like structures characterised by the terminals
- H01R12/58—Fixed connections for rigid printed circuits or like structures characterised by the terminals terminals for insertion into holes
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/02—Contact members
- H01R13/03—Contact members characterised by the material, e.g. plating, or coating materials
Definitions
- This invention relates to electrical connectors of the type having a connector body and a plurality of posts extending out of one side of the connector body for mounting to a circuit board.
- this invention relates to an improved retention feature for such electrical connectors for temporarily holding the electrical connector in place on a printed circuit board prior to soldering.
- solder tails of connector contacts there are various structures formed into the solder tails of connector contacts for retaining the connector in place on the printed circuit board prior to soldering the tails permanently in position.
- An example of such a structure is disclosed in US-A-2 958 063 which discloses a plurality of solder tails attached to a coil support which are inserted into holes in a substrate. Note that the solder tails are configured to snap into the holes and retain the part in position until soldering is complete.
- This configuration includes a knee portion which engages a corner of the hole under the board and relies upon the diametrically opposed knee to help provide centering so that both knees are effective in holding the coil support against the board. With this structure, the individual leads will engage only one side of the hole thereby requiring significant force from the opposite leads for effective retention.
- a similar structure is disclosed in Japanese Laid-open U.M. Publication No. 57-86270 which discloses a pin header connector where some of the posts include bends for holding the connector to the printed circuit board prior to soldering.
- a lead structure for an electrical component that is disclosed in US-A-2 754 486.
- This patent discloses a lead structure comprising a soft copper, round wire, lead which is bent 90 degrees to the axis of the component and then has a dent or kink formed in each wire lead in mutual opposition so that when the two leads are inserted into holes of a printed circuit board the rounded part of the kink engages one side of the hole which urges the free end of the lead into engagement with the other side of the hole. Further engagement causes the free end to extend through the hole and hook under the corner of the board.
- Such a structure will easily deform past its elastic limit when encountering extreme tolerance variations, partly due to the lack of positional memory of soft copper wire and partly due to the geometry of the structure.
- tail structure that will permit the easy insertion of the solder tails of a connector into the holes of a printed circuit board where a selected solder tail will reliably engage opposite sides of its respective hole and snap into place thereby positively urging the connector housing against the surface of the printed circuit board.
- the tail structure must be sufficiently elastic to permit this operation under extreme limits of tolerance variations of the board and the connector.
- the present invention consists in the combination defined in claim 1.
- WO-A-88/04484 discloses a combination according to the preamble of claim 1.
- a connector having a body and a plurality of posts, each of which has a tail extending out of one side of the body for mounting on a printed circuit board.
- the board includes first and second spaced, parallel major surfaces and a plurality of through holes extending therebetween. Each hole intersects the first surface at a first corner and the second surface at a second corner.
- Each of the tails is received in a respective one of the holes with the one side of the connector body being substantially parallel and in engagement with the first major surface of the board.
- a retention feature is provided on at least two of the tails. Each retention feature includes a portion of the tail extending straight from the one side to form a first beam having a centerline extending normal to and through the printed circuit board.
- the portion of the tail is then bent in a first direction normal to the first beam to form a second beam which is substantially parallel with the first major surface of the board, and is then bent in a direction away from the one side of the connector body to form a third beam substantially normal to the second beam.
- the third beam being generally parallel with the first beam and terminating in a free end.
- the third beam includes a first bent portion extending in a direction away from the one side of the body and toward the extended centerline of the first beam to an apex.
- a second portion extends from the apex in a direction away from both the one side and the extended centerline to a terminal point adjacent the free end. This is arranged so that the apex is urged against one side of the through hole and another portion of the third beam is urged against the second corner of an opposite side of the through hole.
- a plug connector 8 composed of an insulating connector housing 10 having a main body portion 12, side shrouds 14, and a side 16 for mounting against a surface of a printed circuit board.
- Two parallel rows of cavities 18 are formed along the length of the housing 10 for receiving male signal contacts 20 each of which has a contacting portion 22 for electrically contacting a receptacle contact and a post or solder tail portion 24 extending from the side 16 for inserting into a plated through hole in the printed circuit board.
- the housing 10 includes several openings 26 for receiving posts or solder tails 28 of a ground bus bar 30, the tails also extending from the side 16 for inserting into holes in the printed circuit board.
- the plug connector 8 is arranged to mate with a receptacle connector 40, shown in Figure 2, having an insulating connector housing 42.
- a plurality of signal receptacle contacts 44 are arranged in two parallel rows of cavities 46 which correspond to and are in alignment with the cavities 18 of the plug connector 8.
- the receptacle connector 40 includes a receptacle bus bar 48 composed of two opposing halves 50 and 52 each of which has a plurality of solder tails 54.
- the bus bar halves 50 and 52 are arranged in slots 56 disposed in the connector housing 42 so that the solder tails 54 extend out of one side 60 of the housing for insertion into plated through holes 58 disposed in a printed circuit board 59.
- each of the signal receptacle contacts 44 includes a post or solder tail 45 that extends out of the side 60 for insertion into holes 62 and 64 disposed in the printed circuit board 59.
- the printed circuit board 59 includes first and second major surfaces 61 and 63.
- the through holes 62 intersect these major surfaces at upper and lower corners 65 and 67 respectively as seen in Figure 2.
- the plug and receptacle connectors 8 and 40 please refer to US-A-4 762 500.
- FIG. 3 there is shown in Figure 3, in cross section, the connectors 8 and 40 in mating engagement with the solder tails 45 inserted into position within the plated through holes 62 in the printed circuit board 59.
- the connector housing 42 includes standoffs 69 that engage the first major surface 61 of the printed circuit board 59 and maintains the side 60 substantially parallel with the major surface 65.
- the solder tails are soldered in place within the holes, however, the solder has been omitted from Figure 3 for clarity.
- the receptacle connector 40 is shown in Figure 4 prior to insertion of the solder tails 45 fully into the holes 62. Note that the solder tails 45 and 54 are just entering their respective holes 62 and 58 but there is no mutual contact and the solder tails 45 are in their free form position.
- the signal contact 44 includes a portion of the tail 45 that extends straight from the side 60 of the connector housing 42 and forms a first beam 70 which has a centerline 72 that extends downwardly through the printed circuit board 59, substantially normal thereto.
- the tail 45 then bends in a first direction normal to the first beam and away from the tails 54 of the ground bus 48 thereby forming a second beam 74.
- This second beam 74 is substantially parallel to the major surface 65.
- the tail 45 then bends in a direction away from the side 60 to form a third beam 76 which is substantially normal to the second beam and is generally parallel to the first beam and terminates in a free end 78.
- the third beam 76 includes a first bent portion 80 extending in a direction away from the side 60 and toward the extended centerline 72 to an apex 82.
- a second bent portion 84 extends from the apex 82 in a direction away from both the side 60 and the extended centerline 72 to a terminal point 86 adjacent the free end 78.
- a stiffener rib 88 may be optionally formed in a portion of the third beam 76, as shown in Figure 4, for a purpose that will be described below.
- the first and second bent portions 80 and 84 and the apex 82 form a dent or kink in the third beam 76 which projects outwardly for a distance greater than the diameter of the hole 62 so that when the third beam is inserted into the hole 62, the first and second beams and the bent portions 80,84, apex 82, and the straight portions of the third beam must deform and straighten a slight amount.
- This is shown in Figure 5 where the solder tails 45 and 54 have been inserted further into their respective holes 62 and 58.
- the second bent portion 84 engages the upper corner 65 of one side of the hole causing the apex 82 to cam away from the centerline 72 so that the apex can enter the hole 62.
- the lower corner 67 cams along the angled surface of the bent portion 84 causing a substantial downward force on the tail 76 which, in turn, causes the connector housing 42 to snap into place against the first major surface 61.
- Tolerance buildup of the various parts of the connector 40 and printed circuit board 59 may preclude the lower corner 67 from camming along the free end 78 and onto the bent portion 84.
- the standoffs 69 are in firm engagement with the first major surface 61 while the lower corner 67 is still in contact with the free end 78. Even in this case there is a substantial downward force imposed on the tail 76 causing the connector housing to snap into place.
- the angle A between the second and third beams is slightly greater than that shown in Figure 5. All of the deforming and flexing of the first, second, and third beams occurs within their respective elastic limits so that there is no substantial permanent deformation. In the event that the connector 40 is lifted slightly from the board 59, the angle A will tend to become even larger because the second beam will try to pivot at its junction with both the first and third beams so that the third beam tends to further pivot counterclockwise about the apex 82 thereby causing the bent portion 84 to press more securely against the lower corner 67 thereby resisting further lifting of the connector.
- the board 59 is placed on a flat, hard surface with the free ends 78 pointing down and in contact with the hard surface. The board 59 is then firmly pressed toward the hard surface thereby causing the free ends to move upwardly into the holes 62 until the apex 82 of each tail emerges from its hole 62.
- the solder tail 78 in the present embodiment, is made of beryllium copper or some other suitable spring material, and is of substantially rectangular cross section having dimensions of about 0,018 cm by about 0.046 cm (about 0.007 inch by about 0.018 inch).
- the stiffener rib 88 is formed in the third beam, as shown in the figures, for the purpose of increasing the force which urges the second bent portion 84 against the lower corner 67.
- the kink comprising the first and second bent portions 80 and 84, the apex 82, and the optional stiffener 88 are formed in only selected ones of the solder tails 45.
- the actual number of solder tails selected to receive kinks should correspond to the amount of retention force or connector hold down force desired in each particular case. In the present example of a 100 pin microstrip connector, three such solder tails were selected for kinks at the two ends of each row resulting in 12 solder tails having kinks. While the solder tails 28 of the plug connector 8 are shown without kinks, such kinks could be advantageously employed there in accordance with the teachings of the present disclosure.
- solder tails of the connector may be inserted into the holes of a printed circuit board and the kinks formed in the tails will cause the connector to snap into place against the surface of the board. This giving a positive indication that the parts are properly mated. Additionally, the unique structure of the kink tends to resist inadvertent removal of the connector from the printed circuit board prior to soldering while permitting deliberate removal when desired without destroying the parts. Another important advantage is that retention forces are attainable that are much higher than those of similar prior art retention devices.
Description
- This invention relates to electrical connectors of the type having a connector body and a plurality of posts extending out of one side of the connector body for mounting to a circuit board. In particular, this invention relates to an improved retention feature for such electrical connectors for temporarily holding the electrical connector in place on a printed circuit board prior to soldering.
- There are various structures formed into the solder tails of connector contacts for retaining the connector in place on the printed circuit board prior to soldering the tails permanently in position. An example of such a structure is disclosed in US-A-2 958 063 which discloses a plurality of solder tails attached to a coil support which are inserted into holes in a substrate. Note that the solder tails are configured to snap into the holes and retain the part in position until soldering is complete. This configuration includes a knee portion which engages a corner of the hole under the board and relies upon the diametrically opposed knee to help provide centering so that both knees are effective in holding the coil support against the board. With this structure, the individual leads will engage only one side of the hole thereby requiring significant force from the opposite leads for effective retention. A similar structure is disclosed in Japanese Laid-open U.M. Publication No. 57-86270 which discloses a pin header connector where some of the posts include bends for holding the connector to the printed circuit board prior to soldering. Of additional interest is a lead structure for an electrical component that is disclosed in US-A-2 754 486. This patent discloses a lead structure comprising a soft copper, round wire, lead which is bent 90 degrees to the axis of the component and then has a dent or kink formed in each wire lead in mutual opposition so that when the two leads are inserted into holes of a printed circuit board the rounded part of the kink engages one side of the hole which urges the free end of the lead into engagement with the other side of the hole. Further engagement causes the free end to extend through the hole and hook under the corner of the board. Such a structure will easily deform past its elastic limit when encountering extreme tolerance variations, partly due to the lack of positional memory of soft copper wire and partly due to the geometry of the structure.
- What is needed is a tail structure that will permit the easy insertion of the solder tails of a connector into the holes of a printed circuit board where a selected solder tail will reliably engage opposite sides of its respective hole and snap into place thereby positively urging the connector housing against the surface of the printed circuit board. The tail structure must be sufficiently elastic to permit this operation under extreme limits of tolerance variations of the board and the connector.
- The present invention consists in the combination defined in claim 1. WO-A-88/04484 discloses a combination according to the preamble of claim 1.
- There is disclosed herein a connector having a body and a plurality of posts, each of which has a tail extending out of one side of the body for mounting on a printed circuit board. The board includes first and second spaced, parallel major surfaces and a plurality of through holes extending therebetween. Each hole intersects the first surface at a first corner and the second surface at a second corner. Each of the tails is received in a respective one of the holes with the one side of the connector body being substantially parallel and in engagement with the first major surface of the board. A retention feature is provided on at least two of the tails. Each retention feature includes a portion of the tail extending straight from the one side to form a first beam having a centerline extending normal to and through the printed circuit board. The portion of the tail is then bent in a first direction normal to the first beam to form a second beam which is substantially parallel with the first major surface of the board, and is then bent in a direction away from the one side of the connector body to form a third beam substantially normal to the second beam. The third beam being generally parallel with the first beam and terminating in a free end. The third beam includes a first bent portion extending in a direction away from the one side of the body and toward the extended centerline of the first beam to an apex. A second portion extends from the apex in a direction away from both the one side and the extended centerline to a terminal point adjacent the free end. This is arranged so that the apex is urged against one side of the through hole and another portion of the third beam is urged against the second corner of an opposite side of the through hole.
- An embodiment of the present invention will now be described by way of example with reference to the accompanying drawings in which:-
- FIGURE 1 is an isometric view showing a plug connector in exploded parts format;
- FIGURE 2 is a view similar to that of Figure 1 showing a receptacle connector having retention features in accordance with the teachings of the present embodiment;
- FIGURE 3 is a cross-sectional view of the connectors of Figures 1 and 2 shown assembled; and
- FIGURES 4, 5, and 6 are cross-sectional views of the receptacle connector of Figure 2 showing the connector in various stages of assembly to the printed circuit board.
- There is shown in Figure 1 a
plug connector 8 composed of aninsulating connector housing 10 having amain body portion 12,side shrouds 14, and aside 16 for mounting against a surface of a printed circuit board. Two parallel rows ofcavities 18 are formed along the length of thehousing 10 for receivingmale signal contacts 20 each of which has a contactingportion 22 for electrically contacting a receptacle contact and a post orsolder tail portion 24 extending from theside 16 for inserting into a plated through hole in the printed circuit board. Thehousing 10 includesseveral openings 26 for receiving posts orsolder tails 28 of aground bus bar 30, the tails also extending from theside 16 for inserting into holes in the printed circuit board. Theplug connector 8 is arranged to mate with areceptacle connector 40, shown in Figure 2, having aninsulating connector housing 42. A plurality ofsignal receptacle contacts 44 are arranged in two parallel rows ofcavities 46 which correspond to and are in alignment with thecavities 18 of theplug connector 8. Thereceptacle connector 40 includes areceptacle bus bar 48 composed of twoopposing halves solder tails 54. Thebus bar halves slots 56 disposed in theconnector housing 42 so that thesolder tails 54 extend out of oneside 60 of the housing for insertion into plated throughholes 58 disposed in a printedcircuit board 59. Additionally, each of thesignal receptacle contacts 44 includes a post orsolder tail 45 that extends out of theside 60 for insertion intoholes circuit board 59. The printedcircuit board 59 includes first and secondmajor surfaces holes 62 intersect these major surfaces at upper andlower corners receptacle connectors - There is shown in Figure 3, in cross section, the
connectors solder tails 45 inserted into position within the plated throughholes 62 in the printedcircuit board 59. Theconnector housing 42 includesstandoffs 69 that engage the firstmajor surface 61 of the printedcircuit board 59 and maintains theside 60 substantially parallel with themajor surface 65. The solder tails are soldered in place within the holes, however, the solder has been omitted from Figure 3 for clarity. - The
receptacle connector 40 is shown in Figure 4 prior to insertion of thesolder tails 45 fully into theholes 62. Note that thesolder tails respective holes solder tails 45 are in their free form position. As best seen in Figure 4, thesignal contact 44 includes a portion of thetail 45 that extends straight from theside 60 of theconnector housing 42 and forms afirst beam 70 which has acenterline 72 that extends downwardly through the printedcircuit board 59, substantially normal thereto. Thetail 45 then bends in a first direction normal to the first beam and away from thetails 54 of theground bus 48 thereby forming asecond beam 74. Thissecond beam 74 is substantially parallel to themajor surface 65. Thetail 45 then bends in a direction away from theside 60 to form athird beam 76 which is substantially normal to the second beam and is generally parallel to the first beam and terminates in afree end 78. - The
third beam 76 includes afirst bent portion 80 extending in a direction away from theside 60 and toward theextended centerline 72 to anapex 82. Asecond bent portion 84 extends from theapex 82 in a direction away from both theside 60 and theextended centerline 72 to aterminal point 86 adjacent thefree end 78. Astiffener rib 88 may be optionally formed in a portion of thethird beam 76, as shown in Figure 4, for a purpose that will be described below. The first andsecond bent portions apex 82 form a dent or kink in thethird beam 76 which projects outwardly for a distance greater than the diameter of thehole 62 so that when the third beam is inserted into thehole 62, the first and second beams and thebent portions apex 82, and the straight portions of the third beam must deform and straighten a slight amount. This is shown in Figure 5 where thesolder tails respective holes second bent portion 84 engages theupper corner 65 of one side of the hole causing theapex 82 to cam away from thecenterline 72 so that the apex can enter thehole 62. This urges thefree end 78 against the wall of the opposite side of the hole causing the kink to straighten somewhat to conform to the smaller size of the hole. Additionally, the angle A at the junction of the second and third beams becomes slightly larger as well. This straightening, however, is well within the elastic limits of thetail 45. As insertion continues, theapex 82 rides down the wall of the hole until thefree end 78 is substantially below the secondmajor surface 63 and thebent member 84 engages thelower corner 67 of the hole, as best seen in Figure 6. Because the kink was elastically deformed while passing through thehole 62, there is a substantial force urging thebent portion 84 andfree end 78 to pivot counterclockwise about theapex 82. Therefore, as thefree end 78 emerges below thesurface 63, thelower corner 67 cams along the angled surface of thebent portion 84 causing a substantial downward force on thetail 76 which, in turn, causes the connector housing 42 to snap into place against the firstmajor surface 61. Tolerance buildup of the various parts of theconnector 40 and printedcircuit board 59 may preclude thelower corner 67 from camming along thefree end 78 and onto thebent portion 84. In such a case thestandoffs 69 are in firm engagement with the firstmajor surface 61 while thelower corner 67 is still in contact with thefree end 78. Even in this case there is a substantial downward force imposed on thetail 76 causing the connector housing to snap into place. - With the
connector 40 in position against thesurface 61 of theboard 59, as shown in Figure 6, the angle A between the second and third beams is slightly greater than that shown in Figure 5. All of the deforming and flexing of the first, second, and third beams occurs within their respective elastic limits so that there is no substantial permanent deformation. In the event that theconnector 40 is lifted slightly from theboard 59, the angle A will tend to become even larger because the second beam will try to pivot at its junction with both the first and third beams so that the third beam tends to further pivot counterclockwise about the apex 82 thereby causing thebent portion 84 to press more securely against thelower corner 67 thereby resisting further lifting of the connector. If it is desired to remove theconnector 40, prior to soldering, theboard 59 is placed on a flat, hard surface with the free ends 78 pointing down and in contact with the hard surface. Theboard 59 is then firmly pressed toward the hard surface thereby causing the free ends to move upwardly into theholes 62 until the apex 82 of each tail emerges from itshole 62. By way of example, thesolder tail 78, in the present embodiment, is made of beryllium copper or some other suitable spring material, and is of substantially rectangular cross section having dimensions of about 0,018 cm by about 0.046 cm (about 0.007 inch by about 0.018 inch). Because the 0.018 cm (0.007 inch) dimension is relatively thin and flexible, in the case of beryllium copper, thestiffener rib 88 is formed in the third beam, as shown in the figures, for the purpose of increasing the force which urges the secondbent portion 84 against thelower corner 67. - It will be understood that the kink comprising the first and second
bent portions optional stiffener 88 are formed in only selected ones of thesolder tails 45. The actual number of solder tails selected to receive kinks should correspond to the amount of retention force or connector hold down force desired in each particular case. In the present example of a 100 pin microstrip connector, three such solder tails were selected for kinks at the two ends of each row resulting in 12 solder tails having kinks. While thesolder tails 28 of theplug connector 8 are shown without kinks, such kinks could be advantageously employed there in accordance with the teachings of the present disclosure. - An important advantage of the present invention is that the solder tails of the connector may be inserted into the holes of a printed circuit board and the kinks formed in the tails will cause the connector to snap into place against the surface of the board. This giving a positive indication that the parts are properly mated. Additionally, the unique structure of the kink tends to resist inadvertent removal of the connector from the printed circuit board prior to soldering while permitting deliberate removal when desired without destroying the parts. Another important advantage is that retention forces are attainable that are much higher than those of similar prior art retention devices.
Claims (8)
- The combination of an electrical connector (8,40) of the type comprising a connector body (12) and a plurality of posts (20) each of which has a tail (24) extending out of one side of the connector body (12) for mounting on a printed circuit board (59), and a printed circuit boards (59) comprising first and second spaced, parallel major surfaces (61,63) and a plurality of through holes (64) extending therebetween and intersecting said first surface (61) at a first corner and said second surface at a second corner where said one side of the connector body (60) is substantially parallel to and in engagement with said first major surface (61) of said board, at least one pair of tails (45) being adapted to be received in a complementary pair of said through holes (64), where said tails (45) are formed of an electrically conductive material, said tails (45) exhibiting plural beams (70,74,80,84,78) where a portion of each tail extends straight from said one side thereby forming a first beam (70) having a centerline extending normal to and through said printed circuit board, said portion of said tail (24) thereafter being bent in a first direction normal to said first beam thereby forming a second beam (74) which is substantially parallel to said first major surface of said board and thereafter being bent in a direction away from said one side thereby forming a third beam (76) substantially normal to said second beam and terminating in a free end characterized in that said conductive material comprises a hardened spring metal having a predetermined elastic limit and the end of each of the tails (45) of said pair of tails (45) is configured to provide a retention feature, and in that
said third beam (76) includes a first bent portion (80) extending in a direction away from said one side and toward the extended centerline of said first beam to an apex (82), and a second bent portion (84) extending from said apex (82) in a direction away from both said one side and said extended centerline to a terminal point adjacent said free end (78) so that said apex (82) is urged elastically against one side of said through hole and another portion of said beam is urged elastically against said second corner of an opposite side of said through hole, whereby, as the third beam (76) is caused to enter its corresponding through hole (62) the said apex (82) formed by said first and second bent portions (80,84) is elastically deformed by an amount below the said elastic limit, said beams (70,74,80,84,78) being so relatively dimensioned that said bent portions tighten their grip on the circuit board (59) upon the application of a lifting force to the connector (8,40). - The combination according to claim 1,
characterized in that said first, second, and third beam (70,74,76) include spring properties which permit their deflection during insertion of the tail into the respective through hole (62) without undergoing a substantial deformation. - The combination according to claim 1,
characterized in that said another portion of said third beam is said second portion so that said free end (78) extends beyond said second surface. - The combination according to claim 2,
characterized in that said first and second bent portions (80,84) form an angle with said apex (82) such that when said tail (45) is inserted into its respective said through hole said third beam (76) deflects so that said angle is larger and a part of said tail enters into holding engagement with said second corner. - The combination according to claim 4,
characterized in that said part of said tail that enters into holding engagement is said second bent portion (84). - The combination according to claim 4,
characterized in that said first and second beams (80,84) form an angle that becomes greater and thereby causes said third beam (76) to tend to pivot about said apex (82) and to further urge said part of said tail into holding engagement with said corner. - The combination according to claim 5,
characterized in that said third beam (76) includes a stiffening rib (86) formed along a portion of its length. - The combination according to claim 7,
characterized in that said spring metal is half hard beryllium copper.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US80826791A | 1991-12-13 | 1991-12-13 | |
US808267 | 1991-12-13 |
Publications (3)
Publication Number | Publication Date |
---|---|
EP0546673A2 EP0546673A2 (en) | 1993-06-16 |
EP0546673A3 EP0546673A3 (en) | 1993-12-08 |
EP0546673B1 true EP0546673B1 (en) | 1996-12-27 |
Family
ID=25198324
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP92309772A Expired - Lifetime EP0546673B1 (en) | 1991-12-13 | 1992-10-26 | Connector with retention feature |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP0546673B1 (en) |
JP (1) | JP2969314B2 (en) |
DE (1) | DE69216212T2 (en) |
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FR2763751B1 (en) * | 1997-05-26 | 2002-11-29 | Proner Comatel Sa | REMOVABLE ELECTRIC CONTACT, PRESSURE |
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US6974337B2 (en) * | 2002-07-30 | 2005-12-13 | Fci Americas Technology, Inc. | Electrical connector and contact for use therein |
US6796847B2 (en) * | 2002-10-21 | 2004-09-28 | Hubbell Incorporated | Electrical connector for telecommunications applications |
GB2417371B (en) * | 2002-10-21 | 2007-04-11 | Hubbell Inc | High performance jack for telecommunication applications |
JP6249643B2 (en) * | 2013-06-14 | 2017-12-20 | 宏致電子股▲ふん▼有限公司Aces Electronics Co.,Ltd. | Electrical connector |
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Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3989331A (en) * | 1974-08-21 | 1976-11-02 | Augat, Inc. | Dual-in-line socket |
US4575167A (en) * | 1984-04-02 | 1986-03-11 | Minter Jerry B | Electrical connector for printed circuit boards and the like |
CA1282847C (en) * | 1986-03-05 | 1991-04-09 | Ray C. Doutrich | Electrical connector with pin retention feature |
US4762500A (en) * | 1986-12-04 | 1988-08-09 | Amp Incorporated | Impedance matched electrical connector |
US4907978A (en) * | 1988-11-02 | 1990-03-13 | Robinson Nugent, Inc. | Self-retaining connector |
-
1992
- 1992-10-26 EP EP92309772A patent/EP0546673B1/en not_active Expired - Lifetime
- 1992-10-26 DE DE69216212T patent/DE69216212T2/en not_active Expired - Fee Related
- 1992-12-10 JP JP4352193A patent/JP2969314B2/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7247050B1 (en) | 2006-10-24 | 2007-07-24 | Fci Americas Technology, Inc. | Press-fit electrical contact |
CN109586061A (en) * | 2018-10-23 | 2019-04-05 | 番禺得意精密电子工业有限公司 | Electric connector |
CN109586061B (en) * | 2018-10-23 | 2021-04-23 | 番禺得意精密电子工业有限公司 | Electrical connector |
Also Published As
Publication number | Publication date |
---|---|
DE69216212D1 (en) | 1997-02-06 |
DE69216212T2 (en) | 1997-05-07 |
JP2969314B2 (en) | 1999-11-02 |
JPH05251119A (en) | 1993-09-28 |
EP0546673A2 (en) | 1993-06-16 |
EP0546673A3 (en) | 1993-12-08 |
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