US3461258A - Positive pressure cam type connector assembly and housings therefor - Google Patents

Description

g- 9 a. E. SHLESINGER, JR 3,

POSITIVE PRESSURE CAM YPE CONNECTOR ASSEMBLY AND HOUSINGS THEREFOR Filed Feb. 16, 1967 2 Sheets-Sheet l I mark).

MWQ

INVENTOR Aug- 9 B. E. SHLESINGER, JR 3,

POSITIVE PRESSURE CAM TYPE CONNECTOR ASSEMBLY AND HOUSINGS THEREFOR Filed Feb. 16, 1967 2 Sheets-Sheet 2IOO 98 loo I/l/l/l/I/Il/Il/ I08 I02 I04 H0 H6 H8 J vase-mm IIII/l/A VII/I MI-MA A\\\\\ I50 I56 I60 I64,

I 48 INVENTOR U.S. Cl. 200-153 29 Claims ABSTRACT OF THE DISCLOSURE An electrical conductor assembly which includes a pair of mating members which have an open first position and a closed second position; a pair of passageways in the assembly; a pair of cam surfaces in the assembly and a chamber adjacent the cam surfaces when the members are in the second position; a flexible conductor mounted in each of the passageways and extending a distance beyond the end of its passageway greater than the length of the cam surface; the flexible conductors when the mating members are in closed position extending into the chamber and having a primary and a secondary axis; the cam surfaces being in line with the primary axis of the conductors when the mating members are in the first and second positions; and said conductors being in engagement with each other when the mating members are in the second position; and the end of each conductor when the mating members are in the second position having their secondary axis different from their primary axis and parallel to and spaced from the primary axis.

This invention relates to electrical connectors and more particularly to electrical connectors of the hermaphroditic and cam type having positive pressure connector means therein.

PRIOR ART DEVELOPMENTS There have been a number of types of hermaphroditic connectors and cam connectors utilizing a positive pressure for good electrical contact. Earlier prior art devices such as Barre, United States Patent 3,217,285 of Nov. 9, 1965 and British Patent 930,509 of July 3, 1963 illustrate the broad principles set out. The difficulties with these connectors, is that they do not provide a good positive wipe uponinsertion and require a very complex type of blade which is expensive and diflicult to manufacture.

OBJECTS AND SUMMARY It is therefore, an object of this invention to provide a hermaphroditic connector which is inexpensive and simple to manufacture and utilizes flat blades for conductors.

Another object of this invention is to provide a connector which uses a double wipe and double contact connection.

Still a further object of this invention is to provide a connector assembly which applies positive pressure at all times to the conductors when the assembly is in connected position. Still another object of this invention is to provide a connector which will have a low contact withdrawal resistance.

A further object of this invention is to provide a connector assembly which has improved vibration and shock reliability.

Still another object of this invention is to provide an electrical assembly in which the parts which mate are identical requiring therefore only one master die to produce both mating parts.

Yet a further object of this invention is to provide an electrical assembly which can be used to simultaneously cause connection of a number of pairs of conductors.

Another object of this invention is to provide an as- United States Patent 3,461,258 Patented Aug. 12, 1969 'ice sembly having a reciprocating member which permits ready connection and disconnection.

Still a further object of this invention is to provide a connector assembly having cam surfaces which individually cause connection between twoor more conductors.

To summarize, it is therefore an object of this invention to provide an electrical connector which requires a minimum of space and a maximum of contact connection and in which there is a positive pressure at all times on the connector and where if necessary a double wipe and a double connection can be utilized.

These and other objects of this invention and advantages and capabilities will be apparent from the following description and appended claims and accompanying drawings in which:

FIGURE 1 is an enlarged exploded view showing the assembly in position for connection;

FIGURE 2 is a cross sectional view of the connector assembly in mating position;

FIGURE 3 is a perspective view of a conductor blade used in the assembly;

FIGURE 4 is a cross sectional view illustrating another modification of this invention utilizing the cam principle;

FIGURE 5 is an enlarged fragmentary view in cross section showing two conductors in contact relation;

FIGURE 6 is a further modification of the invention in cross section which includes a spring return mechanism;

FIGURES 7, 8 and 9 illustrate additional modifications of this invention in cross section showing various cam surface assemblies;

FIGURES 10 and 11 illustrate in cross section still further modifications of the invention showing hermaphroditic assemblies.

FIGURE 12 is a sectional view illustrating another modification of this invention.

FIGURES 1 THROUGH 3 The assembly as generally shown in FIGURE 1 is comprised of a pair ofhermaphroditic housings 10 and 12 which as illustrated in FIGURE 1 are generally rectangular in configuration. The housings are made of some nonconductive material which may be molded or cast or otherwise formed as illustrated.Coupling members 14, 16, 18 and 20 project forwardly of the housing and have locking ribs orbeads 22, 24, 26' and 28. Thecoupling members 14 and 16 and 18 and 20 are laterally spaced relative to each other as best illustrated in FIGURE 1. Thelocking ribs 22, 24, 26 and 28 engage in slots such as 30 and 32.Leads 34 andleads 36 are crimped toconductors 38 and 40.

As best illustrated in FIGURE 3, aconductor 38 which is identical withconductors 40 shown in FIGURE 2 is provided withclamping members 42 which are crimped or otherwise formed around theleads 34 and 36 to insure positive electrical connection. Theleads 34 and 36 would be stripped if necessary. The method of connecting the leads to theconductor 38 does not form a part of this invention as this may be done by any means such as crimping, soldering, and the like.

Theconductor 38 includes a smoothflat blade 44 which is quite flexible so that the blade may be bent or flexed in various planes. Theblade 44 has struck from it atine 46 for purposes of locking the conductor in thehousing 10 or thehousing 12 as the case may be. Theconductor 38 is also provided with centeringarms 48 for positioning the conductor in thepassageways 50 and 52 of the blocks orhousings 10 and 12 respectively. Thepassageways 50 and 52 are relieved as at 54 and 56 to provide clearance means for thelocking tine 46. The passageways are further relieved byclearance spaces 58 and 60 which receive the ends of theblades 44. Thehousings 10 and 12 are provided withcam surfaces 62 and 64 respectively.

It will be noticed in FIGURE 2 that the flexible conductors extend a distance beyond the end of their respective passageways greater than the length of thecam surfaces 62 and 64. It should be further noticed that the flexible conductors when in mated position have primary and secondary axes. The main body of the conductor lies along the primary axis and the end of the conductor lies along the secondary axis. The two axes are parallel and spaced from each other in the configuration illustrated in FIGURE 2. The intermediate portions of the conductors in the areas of acam surfaces 62 and 64show gaps 66. It will be obvious that the action in the closing of the two housings and 12 causes a double wiping action of the conductors by the ends of the conductors resulting in a two point contact connection. One point of contact for a pair of conductors is in one housing and the other point of contact for the same pair of conductors is in the other housing. Due to the action of theearns 62 and 64, a bowing occurs in the conductors towards each other as will be obvious from a study of FIGURE 2. This bowing action is possible due to the flexing of the blades of theconductors 38 and 40. In the device illustrated in FIGURES 1 through 3, the relieved portions orclearance spaces 58 and 60 are slightly larger than the thickness of theblade 44 of theconductors 38 and 40. This insures a good firm contact between the conductors. When thehousings 10 and 12 are spaced from each other for initial assembly, theblades 44 of theconductors 38 and 40 are non-configured and lie flat. As aforementioned, the blades when thehousings 10 and 12 are in mating position assume an S-shaped configuration.

FIGURES 4, 5 AND 6 In FIGURE 4, thehousing 68 is provided with a plurality ofparallel conductors 70 mounted inpassageways 71 therein in spaced relation. Amating housing 72 is provided with a series ofouter tines 74 andinner tines 76. All of the tines are provided withcam surfaces 78. A spaced pair ofconductors 70 which are aligned with two face toface cams 78 will come together as best shown in FIGURE 5 when thehousing 68 is mated with themated housing 72. A pressure contact 80 is made by the two conductors being cammed together when the housings are mated. The conductors may be mounted in thehousing 68 in any conventional fashion. The spacing between the tines should be sufficient to permit a contacting pair ofconductors 70 to slide thereinto Without difficulty. Locking snaps 82 are provided to engagerecesses 84 for maintaining thehousings 68 and 72 in mating position.

In FIGURE 6, thehousing 86 holds a button orplunger 88. Aspring member 90 is provided for maintaining the button or plunger in extended position within thehousing 86. Thespring member 90 may be of resilient material such as plastic or may be a coil spring or the like.Outer tines 92 andinner tines 94 are provided on thebutton 88 and havecam surfaces 96 which operate on theconductors 98 in a manner similar to that illustrated in FIG- URE 4. Theconductors 98 are mounted inpassageways 99 inhousing 86. The button orplunger 88 may be positioned in thehousing 86 by snapping the button therein around theshoulders 100 of thehousing 86. Any other conventional arrangement for insertion of theplunger 88 in thehousing 86 may be provided. It will be noted that the pairs ofconductors 98 will have primary and secondary axes similar to the structure shown in FIGURE 2 when in mating position.

When theplunger 88 is pushed downwardly into thehousing 86, the pairs ofblades 98 are cammed together in the manner similar to that shown in FIGURE 5. Thespring members 90 force theplunger 88 to return to normal position when pressure is released thereon. As in the previous described modifications, the ends of theconnectors 70 in FIGURE 4 and 98 in FIGURE 6 are in line with the cam surfaces 78 and 96 respectively. It

4 should be further noted that the camming of the ends of-the conductors in FIGURES 4, 5 and 6, when in mating position, have a different axis which is substantially parallel to the primary axis in the manner set out. It will bewnoted that bowing occurs in the areas of the earns 78 and 98 also.

FIGURES 7, 8 AND 9 FIGURE 7 is a slightly different modification of the invention in which theconductors 102 are mounted inpassageways 103 in thehousing 104 and are cammed in the same direction by acam surface 106 in themating housing 108. Theconductors 102 have their ends in overlapping relationship as illustrated in FIGURE 7. Thecam surface 106 is in line with the primary axis of theconductors 102. When thehousings 104 and 108 are mated, the ends of theconductors 102 will be bent into another direction so that the primary axes of the conductors intersects the secondary axis of the conductors in mated position. Between the primary and secondary axes of the conductors in the mating position, will be bowing. A positive contact will therefore be made at all time due to the spring pressure involved.

FIGURE 8 shows a slightly different modification of the invention illustrated in FIGURE 7 and includes twocam surfaces 110 and 112 in themating housing 114 which abut each other and run in opposite directions. Certain of theconductors 116 will run in one direction Whereas others will run in the opposite direction as noted in FIGURE 8.

In FIGURE 9, themating housing 120 is shown with threecam surfaces 122, 124 and 126. Cam surfaces 122 and 124 run in the same direction whereascam surface 126 runs in the reverse direction. It is noted that cam surfaces 124 and 126 form a depression rather than an apex as in FIGURE 8. Theconductors 128 overlap each other in a manner similar to that described with regard to FIGURE 7.

In all instances, theconductors 102, 116, and 128, have a primary and secondary axes when the housings are mated. The secondary axis in FIGURES 7 through 9 of the conductors is at a diagonal with the primary axes. In order to function properly, the conductors must be quite flexible, relatively thin, smooth and unconfigured when in non-mating position. This provides the best possible pressure contact action when the housings are mated.

FIGURES l0 and 11 In FIGURE 10, thehermaphroditic housings 130 and 132 are provided withcam surfaces 134 and 136. The cam surfaces, run rearwardly from thepassageways 138 and 140. It is to be noted that thebows 142 and 144 of theconductors 146 and 148 respectively extend back only to the forward edge of the mounting passageway cam surface. FIGURE 11 is substantially similar to FIGURE 10 but includes recessedareas 150 and 152 which permit the bow of theconductors 154 and 156, mounted inpassageways 153, to extend back into the mounting passageway beyond the forward edge of the passageway cam surfaces 158 and 160. In the structure shown in FIGURES 10 and 11stops 162 in FIGURE 10 and 164 in FIGURE 11 are provided to prevent further forward travel of the conductors when the housings are mated. In FIGURES l0 and 11, theconductors 142, 144 and 154 and 156 extend beyond the end of their respective housings a distance farther than the greatest depth of the passageways in the opposite conductor in the areas of their cam surfaces. This causes buckling of the conductors toward each other as illustrated in FIGURES 10 and 11, in order to provide a good pressure contact between conductors. It will be obvious, from a review of the material, that multiple pairs of conductors can be used in housings provided with multiple passageways operating in a manner similar to the structures shown in FIGURES l0 and 11.

5 FIGURE 12 In FIGURE 12, thehousing 166 receives the housing 168. A chamber 170 is formed by the housings when in closed position.Blades 172 are mounted inpassageway 174 and are shown flexed inwardly bycam surfaces 176 againstblades 178 which at all times lie in a single plane and have only one axis in open or closed position as compared to theblades 172 which in open position have a single axis but in closed position have two spaced and parallel axis A and B with a diagonal axis C. A separator 1'80 separates conductors orblades 178.Latches 182 maintain the housings in mating position.

While the invention has been described in connection with different embodiments thereof, it will be understood that it is capable of further modification, and this application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice in the art to which the invention pertains, and as may be applied to the essential features hereinbefore set forth and fall within the scope of the invention or the limits of the appended claims.

Having thus described my invention, what I claim is:

1. A hermaphroditic electrical assembly comprising:

(a) a pair of mating housings,

(b) a passageway in one housing cooperating with a passageway in the other housing,

() each housing having a flexible conductor mounted in its passageway and when assembled extending into the passageway of the other housing and having a primary and an offset secondary axis,

(6.) each housing having a cam surface on its passageway in line with the primary axis of the conductor mounted in the other housing and deflecting the end of the conductor mounted in the other housing in a direction toward and into engagement with its own conductor, and

(e) the end of each conductor when in assembled position having a secondary axis different from said primary axis so as to provide a two point contact connection between said conductors.

2. A hermaphroditic electrical assembly as in claim 1 and wherein:

(a) said flexible conductors are relatively thin blades.

3. A hermaphroditic electrical assembly as in claim 2 and wherein:

(a) said blades are substantially flat and straight in non-assembled relation and S-shaped in assembled relation.

4. A hermaphroditic electrical assembly as in claim 1 and wherein:

(a) the end of the conductor of one housing projects a distance beyond the cam surface of the other housing.

5. A hermaphroditic electrical assembly as in claim 1 and wherein:

(a) the secondary axes of said conductors are parallel to each other.

6. A hermaphroditic electrical assembly as in claim 1 and wherein:

(a) the secondary axes of said conductors are parallel to each other and to said primary axes.

7. A hermaphroditic electrical assembly as in claim 1 and wherein:

(a) said conductors when in contact connection form an opening between said two point contact connection.

8. A hermaphroditic electrical assembly as in claim 1 and wherein:

(a) the ends only of said conductors are in contact connection.

9. A hermaphroditic electrical assembly as in claim 1 and wherein:

(a) said passageway of each housing adjacent its cam surface is relieved from its conductor, a distance slightly greater than the thickness of the end of the other conductor.

10. A hermaphroditic electrical assembly as in claim 1 and wherein:

(a) said housings each include a plurality of said cooperating passageways and a plurality of said flexible conductors.

-11. A hermaphroditic electrical assembly as inclaim 10 and wherein:

(a) said passageways in each housing are parallel to each other, and

(b) lock means for holding said housings in assembled relation.

12. A housing for an electrical assembly comprising:

(a) a passageway,

(b) a substantially flat unitary, non-configured blade conductor mounted in said passageway and flexible throughout its contact length,

(0) said passageway including a cam surface adjacent the end of said passageway, and

(d) said conductor extending beyond the end of said passageway a distance greater than the length of said cam surface.

13. A housing for an electrical assembly as inclaim 12 and wherein:

(a) said passageway adjacent said cam surface is relieved from said conductor a distance slightly greater than the thickness of said conductor end.

14. A housing for an electrical assembly as inclaim 12 and including:

(a) a plurality of said passageways each having one of said conductors.

15. A housing for an electrical assembly as inclaim 12 and wherein:

(a) said cam surface extends rearwardly in said housing relative to said passageway.

16. A housing for an electrical assembly as inclaim 12 and wherein:

(a) said cam surface extends forwardly in said housing relative to said passageway.

17. A housing for an electrical assembly as in claim 15 and wherein:

(a) said passage includes an enlarged area which includes said cam surface.

18. A hermaphroditic electrical assembly comprising:

(a) a pair of mating housings,

(b) a passageway in one housing cooperating with a passageway in the other housing,

(c) each housing having a flexible conductor mounted in its passageway and when assembled extending into the passageway of the other housing,

(d) each housing having a cam surface on its passageway in line with the primary axis of the conductor mounted in the other housing, and

(e) each passageway having a stop for deflecting the conductor mounted in the other housing in a direction toward and into engagement with its own conductor.

19. A hermaphroditic electrical assembly as inclaim 18 and wherein:

(a) said conductors when said housings are assembled have contacting bows.

20. A hermaphroditic electrical assembly as inclaim 18 and wherein:

(a) the bow of a conductor extends back into its mounting passageway beyond the forward edge of said passageway cam surface.

21. An electrical conductor assembly comprising:

(a) a pair of mating members having an open first position and a closed second position,

(b) a plurality of passageways in said assembly,

(c) a cam surface means in said assembly and a chamber adjacent said cam surface means,

(d) a flexible substantially flat, unitary, non-configured blade conductor mounted in each of said passageways and extending a distance beyond the end of said passageway,

(e) said flexible conductors when said mating members are in said closed position extending into said chamber and having a primary and a secondary axis,

(f) said cam surface means being in line with the axis of said conductors when said mating members are in said first and second positions, and

(g) said conductors being in conductive engagement with each other when said mating members are in said second position.

22. An electrical conductor assembly as in claim 21 and wherein:

(a) said cam surface means is a single cam surface.

23. An electrical conductor assembly as inclaim 22 and wherein:

(a) said conductors are lapped when said mating members are in the second position.

24. An electrical conductor assembly as inclaim 22 and wherein:

(a) said cam surface means includes at least two adjacent cam surfaces.

25. An electrical conductor assembly as inclaim 24 and wherein:

(a) at least two of said cam surfaces run transversely to each other.

26. An electrical conductor assembly as in claim 25 and wherein:

(a) at least two of said cam surfaces run in the same general direction.

27. An electrical conductor assembly comprising:

(a) a pair of mating members forming a housing having an open first position and a closed second position,

(b) a pair of passageways in said assembly,

(c) a pair of cam surfaces on one of said mating members of said assembly and a chamber adjacent said cam surface,

(d) a flexible conductor mounted in each of said passageways and extending a distance beyond the end of said passageway greater than the length of said cam surface,

(e) said flexible conductors when said mating members are in said closed position extending into said chamber and having a primary and an offset secondary axis,

(f) said cam surfaces being in line with the primary axis of the conductors when said mating members are in said first and second positions,

(g) said conductors being in engagement with each other when said mating members are in said second position,

(h) the end of each conductor when said mating members are in said second position having their offset secondary axis different from their primary axis and parallel to and spaced from said primary axis, and

(i) spring means for urging said mating members apart.

28. An electrical conductor assembly comprising:

(a) a pair of mating members having an open first position and a closed second position,

(b) a plurality of passageways in said assembly,

(c) a cam surface means in said assembly and a chamber formed adjacent said cam surface means,

(d) a flexible substantially flat, unitary, non-configured blade conductor mounted in each of said passageways and extending a distance beyond the end of said passageways,

(e) at least one of said flexible conductors when said mating members are in said closed position extending into said chamber and having a primary axis and an offset secondary axis,

(f) said cam surface means being in line with the axis of at least one of said flexible conductors when said mating members are in said first and second positions,

(g) said conductors being in conductive engagement with each other when said mating members are in said second position, and

(h) at least another of said conductors having a primary axis only when said mating members are in said first and second positions.

29. A hermaphroditic electrical assembly comprising:

(a) a pair of mating housings,

(b) a pair of passageways in one housing cooperating with a pair of passageways in the other housing,

(c) each housing having a flexible conductor mounted in its passageways and when assembled extending into the passageways of the other housing,

((1) each housing having a cam surface on one of its passageways in line with the primary axis of the conductor mounted in the other housing, and

(e) each passageway having a stop for deflecting the end of the conductor mounted in the other housing in a direction toward and into engagement with its own conductor, and

(f) said cam surface on said one passageway of said pair extending rearwardly in said housing relative to said other passageway of said pair.

References Cited UNITED STATES PATENTS 1,505,849 8/1924 Bates 200-163 XR 2,498,743 2/1950 Theriault 339-91 XR 3,145,067 8/1964 Mishelevich et al. 339-91 XR 2,558,188 6/1951 McWilliams ZOO-153.12 3,217,285 11/1965 Barre 339-221 ROBERT K. SCHAEFER, Primary Examiner H. BURKS, Assistant Examiner US. Cl. X.R. 339-91

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