US2259740A

US2259740A - Electrical connection

Info

Publication number: US2259740A
Application number: US303435A
Authority: US
Inventors: Camp Scipione M Del
Original assignee: Cinch Manufacturing Corp
Current assignee: Cinch Manufacturing Corp
Priority date: 1939-11-08
Filing date: 1939-11-08
Publication date: 1941-10-21
Anticipated expiration: 1958-10-21

Description

Oct. 21, 1941. s. M DEL (.ZAMP 2,259,740

ELECTRICAL CONNECTION Filed Nov. 8, 1939 I Invenivn' av (WWJOAOL Patented Oct. 21, 1941 ELECTRICAL CONNECTION Scipione M. Del Camp, Maywood, Ill., assignor to Cinch Manufacturing Corporation, Chicago, 111., a corporation of Illinois Application November 8, 1939, Serial No. 303,435

I 2 Claims.

This invention relatesto an improved socket member and more particularly to an improved contact for receiving the prong terminals of a vacuum tube, electrical plug or the like.

One object of my invention is the provision of a socket member for use in connection with an electrical plug having fixed prong terminals wherein the socket member has a one-piece multiple contact providing contact springs adapted to electrically connect at least two of the prong terminals and providing a common lead for the contact springs.

A further object of my invention is'the provision of a socket member having a multiple contact constructed in a way to provide the shortest path connecting two or more prong terminals.

My invention is also directed to a one-piece multiple contact effecting a substantial saving in cost of labor and materials over individual contact springs heretofore used to effect the same objects thereof.

Other objects and uses of'my invention will be apparent from inspection of the drawing and specification hereinbelow set forth.

Referring to the drawing, in which I have illustrated a preferred embodiment of my invention:

Fig. l is a top plan view of a socket member embodying my improved multiple Contact;

Fig. 2 is a bottom plan view of the socket member shown in Fig. 1:

Fig. 3 is a top plan view of the socket member after the upper insulating plate has been removed;

Fig. 4 is a side elevation of the socket member showing an electrical plug. member in position for electrical connection with the socket member;

Fig. 5 is a sectional view taken along the line 5-5 of Fig. 1; p

Fig. 8 is an end view of my improved multiple contact per se; and.

Fig. 7 is a bottom plan view of the multiple contact shown in Fig. 6.

series of fixed prong terminals 8 form a ring around the guide member 1 and extend downwardly from the"base 6 in substantially parallel relation to the guide member.

Referring in detail to the construction of'my improved socket member, I have shown one having an insulating body comprising an upper insulating plate 9 and a lower insulating plate I8 secured in superposed relation as by the rivets ll (Figs. 1 and 2). a plurality of individual contact springs I! for electrical engagement with certain of the prong terminals 8 and a multiple contact I 3 providing a plurality of contact springs for electrical coengagement with those prong terminals 8 which it is desired to connect to a common lead. The lower insulating plate has a central opening it conforming to the cross-sectional shape of the guide member I of the vacuum tube and adapted to receive the guide member to position the contact springs of the socket member in registry with Referring to Fig. 4 of, the drawing, I have construction. has a metal envelope shield I and provides an insulating base 8. A guide member I of well known construction extends downwardlyproper prong terminals. The lower plate I0 has a series of openings l5 arranged in an are around the opening ll to receive prong-engaging portions of the contacts l2 and a number 01' openings l8, herein shown as three, to receive the contact springs of the multiple Contact IS. The arc of the openings l5 and the arc of the openings l8 combine to form an annular series of openings arranged to enable the prong-engaging portions of the contact springs in alignment therewith to register with the annular series of prong terminals 8. The lower plate III has a series of rectangular openings l1 arranged in an arc outside the arc of the openings It to receive respective soldering terminals of the contacts I! and a plurality of openings is arranged in an are outside the openings. II to receive positioning lugs of the multiple contact If, as will be described. I2he upper plate 9 has a central opening is in alignment with the opening it of the lower plate It and an annular series of prongreceiving openings 28 in alignment with the annular series of openings l5 and I! of the lower plate. Each of the contact members ii, in my preferred form, comprises yieldable, tubular-like "prong-engaging portions 2| in alignment with 23 extends from the saddle 22 through an open 4 ing ll of the lower plate It. from the center-of the base"! and an annular Referring in" detail to the multiplecontactll,

The socket member carries as most clearly illustrated in Figs. 6 and 7, I have shown one formed of one-piece resilient metal. The multiple contact in my preferred form provides three contact springs including an intermediate spring 24 and side springs 25--25 disposed laterally on opposite sides of the spring 24. The spring 24 is in the form of an elongated strip having a lead terminal 26 at one end. The lead terminal 26 is adapted to extend beyond the marginal edge of the socket member when the parts are in final assembly and provides a raised soldering portion 21 at its outermost end adapted to be soldered or otherwise secured in electrical engagement to the lower surface of the supporting panel I, as most clearly shown in Fig. 4.

The contact spring 24 has an extruded portion 28 adjacent its opposite end from the terminal lead 26 defining a prong-receiving opening 29. The spring 24 has a slit 3!] extending from its end away from the terminal lead 26 longitudinally of the strip for a predetermined distance and bisecting the prong-receiving opening 29 so as to form yieldable arms 3l3l. Thus the arms 3l3l are disposed in adjacent coplanar relation and adapted to yield laterally on entrance of a prong terminal 8 through the prong-receiving opening 29 and cause thenarrow edges 28*- (Fig. 3) of the opposed halves of the extruded portion 28 to resiliently bite the prong terminals effecting an excellent electrical contact. In view of the fact that the extruded portion 28 is struck downwardly from the strip in the relative position of the part shown in Fig. 5, the extruded portion effects a projection adapted to seat itself within an opening [6 of the lower plate-l0 and at the same time the extruded portion provides a lead for guiding the prong terminal through the opening 29. Each of the laterally disposed contact springs 25 comprises a fiat portion 32 preferably in the plane of the arms 3l-3l of th spring 26 and an angularly projecting portion 33 at one end of the fiat portion 32 bent downwardly relative to the plane of the flat portion. Each of the springs 25--25 has an extruded portion 34 at an end thereof away from the projecting portion 33 defining prong-receiving openings 35 (Fig. 7). Each of the flat portions 32 has a slit 36 extending from adjacent the end having the extruded portion, preferably through the respective fiat portions, and bisecting the respective prong-receiving openings 35 to form yieldable adjacent arms 31-31 which cooperate to cause the extruded portions 34 to-electrically engage prong terminals 8 in the manner of the arms 3l-3l of the spring 26. Connecting portions 38 integrally join the contact springs 25-25 to the intermediate spring 24 with the result that the three springs have one common lead through the terminal 26 thus eliminating the possibility of increased resistance, and, at the same time, the multiple contact effects the shortest path for connecting three of the prong terminals 8.

In final assembly of the parts of the socket, the individual contacts i2 are assembled with the insulating plates 9 and- I II with the prongengaging portions 2| disposed within the openings l5 of the lower plate In and the soldering terminals 23 extending through the openings l1. When the contact terminals l2 are in this position, the saddle portions 22 are disposed between the insulating plates 9 and I0 and prevent relative axial movement of the prong-engaging portions 2!. The multiple contact I3 is assembled with the insulating plates 9 and I0 so as to diS---- pOse the extruded portions of the

contact springs

24 and 25 within the openings [6 of the lower plate It with the angular projections 33 extending through a pair of openings 18 of the lower plate Hi to maintain the multiple contact in proper position. The socket member is secured to the supporting panel I through any suitable means, such as the rivets 39 (Fig. 4), and finally the terminal lead 26 is soldered to the supporting panel I.

As a result of my improved socket member, wherein I have employed a one-piece triple contact, the filament or heater line, the cathode lead, and, in the case of a metal tube, the envelope lead may be connected together and grounded to the chassisthroughthe multiple contact; As these three leads are next to one another in metal tubes now in commercial use, my multiple contact effects an eflicient method of grounding the leads, at the same time saving a considerable I amount of. labor and solder over the methods previously used wherein each of the leads was grounded to the chassis of the radio through an individual contact for each prong terminal.

Although I have illustrated and described a preferred embodiment of my invention, I do not wish to be limited thereby because the scope of my invention is best defined by the following claims.

I claim:

1. An electrical socket member adapted to cooperate with a plug device carrying a series of terminal prongs, said socket member comprising upper and lower insulating plates having a single group of annularly arranged apertures, said socket member carrying a plurality of single contact springs,- each of said springs having a prongengaging portion in alignment with an aperture of said lower plate and a portion for electrical connection to said Spring, and a, one-piece multiple contact carried by said plates having a plurality of contact springs in alignment with other of said apertures of said lower plate, said lastmentioned springs lying in a generally fiat plane disposed between said insulating plates, and a positioning means integral with said multiple contact in inter-engagement with one of said plates to maintain the contact springs thereof in alignment with said respective openings.

2. An electrical socket member adapted to cooperate with a plug device carrying a series of terminal prongs, said socket member comprising upper and lower insulating plates having a single group of annularly arranged apertures, said socket member carrying a plurality of single contact springs, each of said springs having a prong-engaging portion in alignment with an aperture of said lower plate and a portion for electrical connection to said spring, and a one-piece multiple contact carried by said'plates having a plurality of contact springs in alignment with other of said apertures of said lower plate, said lastmentioned springs lying in a generally fiat plane disposed between said insulating plates, apositioning means integral with said multiple contact in inter-engagement with one of said plates to maintain the contact springs thereof in alignment with said respective openings, 3. single terminal lead integrally joined to said multiple contact at substantially the center thereof whereby said contact springs thereof have a common lead.! and at least a portion of said terminal lead lying in the generally fiat plane ofsaid contact sprin' of said multiple contact. 1

SCIPIONE M. DEL CAMP.