|Publication number||US2306206 A|
|Publication date||Dec 22, 1942|
|Filing date||Sep 29, 1941|
|Priority date||Aug 13, 1940|
|Publication number||US 2306206 A, US 2306206A, US-A-2306206, US2306206 A, US2306206A|
|Inventors||White Dalgleish James|
|Original Assignee||Pye Ltd|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (26), Classifications (13)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Dec. 22, 1942;
J. w. DALGLEISH ELECTRIC COUPLING Filed Sept. 29, 1941 20 INVENTOR EISH ' ATTORNEY-5 Patented Dec. 22, 1942 g 1 ELECTRIC COUPLING James White Dalgleish, Cambridge, England, as signor to Pye Limited, Cambridge, England, a
British company Application September 29, 1941, Serial No. 412,879
' In Great Britain August 13, 1940 5 Claims.
This invention relates to electric couplings and more particularly to plug and socket couplings.
An object of this invention is to provide a form of coupling which has a lead-carrying capacity which is capable of extension to the connection of a large number of leads, as circumstances may require, and which may be capable of rapid disconnection by snatching in the event of an emergency requiring such disconnection. Another object of the invention is to prevent access of water to the conductors of cables connected to the coupling. A further object of the invention is to provide a simple method of manufacturing plug and socket couplings by mass-production methods.
The invention provides an electric coupling comprising a socket and a plug which is adapted to fit into the socket, the sockethaving an inner Wall carrying conductors on its surface with which conductors carried on the surface of an outer wall of said plug are adapted to engage, at least one of said walls being of rubber or like resilient material, whereby on insertion of the plug into the socket the resilient material is stressed so as to maintain the inter-engaging conductors in contact.
Preferably both of said walls are of resilient material and preferably also the entire body of the plug and socket are both made of the resilient material. Alternatively, the use of the resilient material may be confined to the said walls or either of them, the remainder of the plug or socket, as the case may be, being made of some other material.
The conductors carried on a resilient wall are preferably bonded directly to the surface thereof by a bonding process. Rubber bonding processes are known by which metal can be so securely bonded to the rubber that the rubber tears before the metal can be separated therefrom.
The socket may be of annular or tubular form, as a sheath, of internal cross-section appropriate to receive a plug in the formof a prism, cylinder, flat strip or other parallelopiped, or other desired shape. The socket may, alternatively, be cupshaped internally, for example, hemisphericalor in the shape of a conical frustum, the plug being shaped complementarily. If desirable, suitable means may be provided to ensure that the socket and plug will be complementary to each other in a unique relation, such as by means of a groove in one of the parts and a complementary rib in the other part, or alternatively, for this purpose, the plug may have an irregular cross-section such as by forming it in the shape of an irregular 55 a prism. In another form the socket may be in the form of a channel, open at its ends, and with contacts spaced along the inner surface of one or both of its walls, the plug being in the form of a strip fitting within the socket. With this form the socket channel and plug strip may be made in any suitable length and cut oif to the desired length according'to the particular requirements;
The plug and socket may have shallow recesses or grooves in the surfaces of their cooperating walls for receiving and locating the conductors in position. The conductors may project from their respective surfaces or theconductors of one part may so project While the conductors of, the other part are recessed in its surface. Preferably, however, the conductors comprise flat metal portions.
The dimensions of the socket withinits conductors are made less than those of the plug over its conductors so that in inserting the plug in the socket, the interengagement of the conductors causes the resilient material of the plug and/or that of the socket to be stressed, thereby bringing into play forces maintaining the conductors in contact. In this way the contacting conductors are all subjected to the same pressure maintaining them in'contact, in view of the distribution of the stresses respectively in the resilient materials of the socket and plug. The contacting conductors are, moreover, self-aligning due to the rocking action afforded to them about their resilient supports.
The plug and socket may be housed in cases of metal or of synthetic resin or other plastic insulating material or may be completely sheathed in tough rubber or a similar material.
The before mentioned conductors of the plug and socket may constitute contacts and be adapted or provided with suitable terminal means for connecting to the leads to be connected toaether.
In order that the invention may bemore clearly understood, an embodiment thereof will now be described, by way of example with reference to the accompanying drawing in which:
Figure l is a side elevation of a plug according to the invention.
Figure 2 is a plan view of Figure 1.
Figure 3 is a section through a complementary socket.
Figure 4 is a plan view of Figure 3 and Figure 5 shows the plug and socket elements secured to the ends of a cable.
Referring to the drawing the plug comprises rubber mouldin generally designated 1', having a disc portion 2 with an upwardly extending triangular portion 3. The disc portion 2 is formed with a peripheral flange 4 the purpose of which will be hereinafter explained.
The metal contact elements 5 are in the form of strips which pass through correspondingly shaped apertures in the disc portion 2 adjacent the base of the triangular portion 3 and bear along their length upon the surface of this triangular portion being secured thereto byany suitable adhesive. Preferably, however, the contacts are fitted as inserts in the moulding die and.
and 4 and comprises a rubber moulding I gener ally of a cylindrical form, having its centre hollowed out to form a recess 8, generally of triangular cross-section. The preferred cross-section,
however, is shown in the plan view of Figure 4, in which two corners of the triangular recess are filled in, in order to reduce the possibility of the plug being incorrectly inserted in the socket.
To the inner walls of this triangular recess 8 are secured five flat strip metal contacts 9 which project through apertures formed in the base of the socket, the lower extensions constituting terminal tags for the attachment of the conductors and being provided with apertures 10 to facilitate i this connection. The upper ends of the contacts 9 are bevelled to facilitate the insertion of the contacts in the socket. These contacts are preferably moulded and bonded in position during the moulding process.
The internal dimensions between the contacts 9 are made slightly less than the corresponding dimensions over the contacts 5 of the plug so that in inserting the plug in the socket the interengagement of the contacts causes the resilient material of the socket and/or of the plug to be distorted, whereby the contacts on the plug and socket are pressed firmly into contact with one another. Due to the fact that the triangular portion 3 and triangular recess 8 are not equilat- &
eral, the plug and socket elements can only be connected together in an unique relation.
The outer periphery of the socket moulding I is formed with a peripheral flange II and also at its upper end with a peripheral ridge l2 upon which is mounted a metal ring l3 having a crosssection as shown in Figure 3. The ring [3 may be moulded as an insert in the die and simultaneously be bonded to the rubber. It gives support to the upper end of the socket to maintain its general shape and prevents the socket from being distorted to such an extent as would permit the plug to be inserted therein in any position.
Figure 5 shows a length of cable having a plug connected to one end and a socket to the other. The socket is carried in a housing I4 made of rubber or like resilient material which is preferably bonded or vulcanised to the sheathing of the cable IE or alternatively held thereto by the disc member l6 of rubber or other suitable material to which the conductors are secured and which is disposed in an enlarged portion of the housing H whereby the latter may not be removed from the end of the cable. The socket I is held in the housing by the inter-engagement of its peripheral flange H with a groove l1 formed in the inner surface of the housing adjacent its open end, as is clearly shown in Figure 5. The flange I l is cemented in the groove H. The conductors are soldered or otherwise secured to the terminal tags at the ends of the contacts 9. The disc member l6 carries an extension l6a which extends between the terminal tags and bears against the rear surface of the socket 1. The conductors are lashed to this extension and are coiled therearound, the arrangement thus preventing any pull on the coupling from being transmitted through the soldered joints.
The plug l is carried by a similar complementary housing l8 of rubber or other suitable resilient material which is attached to the opposite end of the cable in a manner similar to the housing I4. The plug is held in its housing 18 by the engagement and cementing of its peripheral flange 4 in a groove l9 formed in the internal surface of the open end of the housing 18. This open end has an enlarged mouth portion 20 with a further groove 2|, which mouth portion and groove are adapted to accommodate the cylindrical body of the socket I and metallic ring l3. When a plug is inserted in a socket, the external surface of the socket slides within the enlarged mouth 20 until the metal ring I3 engages in the groove 2i, the housing I8 distorting to allow its engagement, due to its being made of resilient material. In this way the plug and socket are firmly held together but in a way which permits the two parts to be rapidly disconnected by snatching in the event of an emergency requiring such disconnection. The coupling is also watertight.
Although a particular embodiment according to the invention has been described it is to be understood that this is only by way of example and that various modifications may be made without departing from the scope of the invention as defined by the appended claims. For example, a tubular or annular open-ended socket may be furnished with two plugs one for each end of the socket. Also for connecting together rubber or similarly sheathed cables, a cable end may be used to serve as a plug of the coupling, by bending back the bared ends of the conductors of the cable over its rubber sheathing and bonding them thereto and inserting the so prepared end of the cable into a sleeve socket (preferably of rubber or like resilient material) through one end thereof, the end of the other cable being inserted in the other end of the socket and having its bared conductor ends arranged around the inner surface of the sleeve (and preferably bonded thereto) to engage the bent back conductor ends of the first cable. Alternatively, both cable ends may be formed into plugs in the manner described and introduced from opposite ends into a similar sleeve socket having contact strips secured or bonded to its inner surface to effect electrical connection between the cables.
1. A multi-pole electric coupling comprising a socket having an inwardly facing wall, a plurality of conductors carried by said socket and abutting against said inwardly facing wall, a plug adapted to fit into the socket with an outwardly facing 'wall of the plug adjacent the said inwardly facing wall of the socket, a plurality of conductors, carried by said plug and abutting against said outwardly facing wall and adapted to engage with said conductors on the inwardly facing wall of the socket when the plug is inserted therein, the material of at least one of said walls beneath the conductors abutting thereagainst being of resilient material and the dimensions of the socket within its conductors being made less than those of the plug over its conductors whereby, on inerting the plug in the socket, th interengagement of the conductors causes the resilient material to be stressed transversely to the direction of insertion to maintain the interengaging conductors in contact with the pressure between one pair of conductors being taken up by a counterpressure between another pair of conductors.
2. A multi-pole electric coupling comprising a socket made substantially entirely of resilient rubber-like material, a plurality of conductors bonded to the internal surface of said socket, a plug having a shape appropriate to enter said socket which is also made substantially entirely of resilient rubber-like material, a plurality of conductors bonded to the external surface of said plug and adapted to engage with the conductors on the socket when the plug is inserted therein, wherein the dimensions of the socket within its conductors is made less than those of the plug over its conductors so that in inserting the plug in the socket the interengagement of the conductors causes the resilient rubber-like material of the plug and socket to be stressed transversely to the direction of insertion, thereby maintaining the conductors in contact.
3. An electric coupling as claimed in claim 2, wherein the socket is provided with a reinforcing ring adjacent its open end to maintain its general shape.
4. A multi-pole electric coupling comprising a socket of resilient material, a plurality of conductors bonded to the internal surface of said socket, a first housing of resilient material embracing at one end thereof a part of said socket, an electric cable fitted Within the other end of said housing, the ends of the cable conductors Within said housing being connected to the conductors bonded to the socket, a plug of resilient material, a plurality of conductors bonded to the external surface of said plug, a second housing of resilient material adapted to accommodate said plug. said second housing being secured to the opposite end of said cable with the cable conductors at that end connected to the conductors bonded to said plug, said second housing having a mouth portion adapted to embrace the free end of the socket When the plug is inserted in the socket.
5. A multi-pole electric coupling comprising a socket of annular form, one end of which is closed by an end wall, said annular portion and end Wall being made of resilient material, a plurality of contacts bonded. to the internal surface of said annular portion with their ends passing through said end Wall, and a reinforcing ring surrounding said annular portion adjacent the open end thereof, and a plug comprising a disc portion having a stem portion extending substantially axially therewith, said disc and stem portions being made of resilient material, a plurality of contacts bonded to the external surface of said stem portion with their free ends passing through said disc portion, the dimensions within the contacts of the socket being less than those over the contacts of the plug so that in inserting the plug in the socket the interengagement of the conductors causes the resilient material of the plug and socket to be stressed transversely to the direction of insertion, thereby to maintain the conductors in contact.
JAMES WHITE DALGLEISH.
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2450657 *||May 13, 1947||Oct 5, 1948||Guernsey Max M||Electric plug|
|US2730684 *||Aug 30, 1954||Jan 10, 1956||Gutman Alfred S||Electrical connectors|
|US2780788 *||Feb 19, 1954||Feb 5, 1957||Westinghouse Electric Corp||Plug-in bus duct structure|
|US2832941 *||Jun 28, 1954||Apr 29, 1958||Eugene Willis||Electrical connector|
|US2869091 *||Mar 8, 1955||Jan 13, 1959||Equipment Res Corp||Jumper for interconnecting power control conductors of railway diesel units and the like|
|US2877436 *||Mar 10, 1953||Mar 10, 1959||Pyle National Co||Jumper assembly having replaceable parts|
|US2881404 *||Jun 28, 1952||Apr 7, 1959||Kamm Lawrence J||Multiple electrical connector with yieldable contacts|
|US2893490 *||Apr 4, 1957||Jul 7, 1959||Petro Flow Corp||Oil well heater|
|US3076950 *||Jun 17, 1960||Feb 5, 1963||Tung Sol Electric Inc||Lamp socket|
|US3359527 *||Aug 23, 1965||Dec 19, 1967||Oliver M Hart||Portable insulated electric distribution apparatus|
|US3371306 *||Mar 8, 1966||Feb 27, 1968||Moranduzzo Dario||Lamp socket and bulb assembly|
|US3518617 *||Nov 17, 1967||Jun 30, 1970||Lockheed Aircraft Corp||Electrical connectors|
|US4543448 *||May 23, 1984||Sep 24, 1985||N. K. F. Groep B.V.||Electrical cord set having a magnetically identifiable conductor, and a method of automatically manufacturing such a cord set|
|US4900270 *||Feb 24, 1989||Feb 13, 1990||Safe Stress, Inc.||Cable adaptor assembly|
|US5418521 *||Nov 24, 1993||May 23, 1995||Read; Robert||Power cable with alarm|
|US7575338||Oct 3, 2005||Aug 18, 2009||Orion Energy Systems, Inc.||Modular light fixture with power pack|
|US7628506||Jun 29, 2007||Dec 8, 2009||Orion Energy Systems, Inc.||Modular light fixture with power pack and radiative, conductive, and convective cooling|
|US7780310||Jul 14, 2008||Aug 24, 2010||Orion Energy Systems, Inc.||Modular light fixture with power pack and deployable sensor|
|US7784966||Jun 29, 2007||Aug 31, 2010||Orion Energy Systems, Inc.||Modular light fixture with power pack with latching ends|
|US8136958||Dec 29, 2008||Mar 20, 2012||Orion Energy Systems, Inc.||Modular light fixture with power pack|
|US8337043||Mar 19, 2012||Dec 25, 2012||Orion Energy Systems, Inc.||Modular light fixture with power pack|
|US8858018||Dec 20, 2012||Oct 14, 2014||Orion Energy Systems, Inc.||Modular light fixture with power pack|
|US9532410||Sep 11, 2014||Dec 27, 2016||Orion Energy Systems, Inc.||Modular light fixture with power pack|
|US20080007943 *||Jun 29, 2007||Jan 10, 2008||Verfuerth Neal R||Modular light fixture with power pack with latching ends|
|US20080007944 *||Jun 29, 2007||Jan 10, 2008||Verfuerth Neal R||Modular light fixture with power pack and radiative, conductive, and convective cooling|
|EP1530267A1 *||Nov 7, 2003||May 11, 2005||Sony Ericsson Mobile Communications AB||Electronic connection device for transferring energy and data|
|U.S. Classification||439/357, 439/349, 439/502|
|International Classification||H01R13/627, H01R13/52, H01R13/26, H01R13/02, H01R13/64|
|Cooperative Classification||H01R13/52, H01R13/26, H01R13/64, H01R13/627|