|Publication number||US1515860 A|
|Publication date||Nov 18, 1924|
|Filing date||Mar 26, 1923|
|Priority date||Mar 26, 1923|
|Publication number||US 1515860 A, US 1515860A, US-A-1515860, US1515860 A, US1515860A|
|Original Assignee||Charles J Schmidt|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (10), Classifications (7)|
|External Links: USPTO, USPTO Assignment, Espacenet|
A. HOWARD ELECTRICAL CONNECTER' Filed March 26. 1923 IN VEN TOR.
u sron', rtnrrtore.
it ill e eonarna.
Y hpplleationflledlltarchtt, iaaa. am No. cart.
To all whom it may concern." 1 a I Be it mown, that l[, nae l'lowAnn, a citizen of the United States, and a resident of Chicago, in the county of 'Cook'and State t or lllinois, have invented certain new and useful Improvements in Electrical Connecters, of whichthe following is aspecification.
My" invention relates to electrical connecters for connecting electrical conductors W together orator connecting electricalconductors with electric circuit terminals, particularly when the electrical circuits are alive and it is desired to make connection without cong in contact with the conductor wire It or the terminal, for example in gas engines where,"for the purpose "of testing out the spark plugs, connection ordisconnection between the leads and the plug terminals are desired to he made while the engine is operfl ating.
The important object of myinventlon is to provide a construction and. arrangement with which clampingaws may be positively forced into secure gripping an Wm-aking engagement with the wirezor terminal with which connection is desired, and to this end a sleeve ofinsulating material is slidahle onthe insulated conductor with which the clamping jaws are connected, the 3 sliding of the; sleeve over and along a the clamp ng jawsedecting the positive gripping'engagement with the terminal or wire. The ends of the jaws can be made of various shapes and forms depending upon the nature'ot the terminals with which connection is to he made. i
' On the accompanying drawing ll show my improved connecter and various adaptations thereof, 0n the drawing,
.Fig. 1 is a side elevational view of a conductor with a connecter thereon, the connecter being partly'in' section and in open position, p n Fig, 2 is a side elevational view partly in sections showing the connecter closed in eng ement with aterminal,
ig. 3 is another side elevational view showing the clamping sleeve withdrawn, and showing more clearly the connection of the conductor wirewith the clamping jaws,
Fig. 4 is a plan view part1 in section of the connecter with spring en s for receiving terminals, such as battery terminals,
lt'rorn a single piece ots ring wire bent incontact Fig. 5 is a similar view showing the clamping ]aws 0 en,
ri dis a p an view partly in section showin a modified arrangement, and
Fig.% is a view from lane-7-7, Fig. 6. 1n the arrangement of igs.-1, 2 and 3, 10 represents an msuted electrical conductor of the type usually used tor the leads of an ignition system which connect with the spark'plugs of the gas engine. The clamping element a of-the connector is formed til termediate its ends to orm a pluralit of turns or loops 11, and the clamping limbs. or jaws 12 and 13 which at their end are shaped depending upon the nature of the 2, terminal with which connection is to be made. As shown'the ends of the limbs 14 and 15 are semi-circular for receiving the cylindrical terminal 16.
The end of the conductor 10 has its insulation cut away at the connecting end and the protruding wires w are then forced in between the adjacent turns or loops 11 whose spring resistance will securely clamp the wires and soldering will be unnecessary." The sleeve 17 of insulating material such as fibre, bakelite, redmonal, or other suitable material, is then slipped over the conductor 10. The clamping member 0 is primarily formed so that its spring action will hold the limbs 12 and 13 spread apart as shown in Fig. 1. Then when the sleeve 17 is slipped along oyer the limbs they will be positively forced togethier to bring their ends 14 and15 into secure clamping engagement with the terminal 16, as shown in ig. 2. In order to lock the sleeve in clampin position it may be provided with annu ar grooves 18, and the limbs 12 and 13 are provided with ridges or beads 19 spaced .to correspond with the spacing of the sleeve l5 grooves, so that when the sleeve is shifted outwardly the grooves will receive the ridges and the sleeve will thus be firmly locked in clamping position to hold the clamp ends firmly and securely and with good electrical Mm engagement to the terminal. When connection is to he made the conductor 10 is held by one hand and the insulated sleeve manipulated .with the other to close the clamp element on the terminal, and when mm it is desired to disconnect a pull is applied to the sleeve to withdraw it to permit the clamping element to spread. its limbs to release the terminal. During the connecting or disconnecting operation the person is fully protected against shocks as only insulation is touched during the operation. The connecter can thus be conveniently, safely and efliciently manipulated for connection or disconnection while the engine ignition circuit or other circuit is alive. The connect'er does not depend'upon any spring action to hold itself in engagement with the terminal, but the sleeve positively clamps and holds the connecter ends'to the termial and disconnection is impossible until the sleeve has been sufiiciently withdrawn to permit sufficient opening of the clamping element to release the terminal. a
In Figs. 4 and 5 I show a construction of connecter which is particularly adaptable for connecting battery leads with the battery terminal. Here the cooperation of the sleeve with the clamp element limbs is the same as in the arrangement of Figs. 1, 2 and 3, but the ends of the limbs are formed to adapt them for secure engagement and contact with the ordinary type of battery terminalsl In storage batteries, particularly when used on automobiles, it is diflicult to keep terminals and connections clean and bright as acid will slo over and attack them. Usually the termlnal is in the form of a cylindrical sleeve which is tapered, the lead wire being inserted therein and spreader screws applied to force the wires into contact with the terminal material. After these terminals are attacked by acid they are very hard to disconnect. By means of my improved connecter, these difficulties are all eliminated and connection and disconnection can be quickly made and firm and clean electrical contact will always be maintained between the terminals and the leads. I have shown; the battery terminal 20 in the'form of a cylindrical sleeve whose passageway 21 tapers inwardly from the ends..
Near their outer ends the limbs 22 and 23 of the clamping element a is given, U or V bends 24 and 25 whose sections 26 and 27 extend parallelly toward each other when the sleeve17 is slipped over the clamp limbs.
. These sections 26 and 27 support coil springs 28 and 29 respectively and these springs ment and bent from the same piece of wire.
, The springs are conical with their apexes at the ends of the sections 26 and 27, the
spring coils encircling the sections and being free therefrom except at the mner ends thereof where the sections are secured to the apexes. With this-arrangement the connecter is brought up into the terminal as shown in Fig. 5, with the apex ends of the springs opposite the ends of the terminal passageway 21. The sleeve 17 is then slid outwardly over and along the limbs 22 and 23 which causes the limbs to be brou ht together to carry the coil springs into t e terminal passageway, the conical angle of the springs being slightly greater than the conical angle of the tapered passageway 21 so that as the springs enter the passageway when the limbs 22 and 23 are forcibly brought together the coils will be contracted, and their expansion effort will be exerted against the terminal walls to insure clean, rigid electrical connection therewith. As the limb sections 26 and 27 are connected with the apexes of the coil springs the coils will be dragged one after the other into the terminal passagewa until the clampin sleeve has been fully applied and sue dragging action will also cause the coils to separate a distance so that the elastic force which tends to return them to normal position will aid in securing clean, rigid contact with the terminal walls. To disconnect, the sleeve is merely withdrawn to permit the sprin action of the limbs to remove the spring 00115 from the terminal. During connection or disconnection neither the terminal or the metallic clamp element a need be touched as the conductor 10 is fully insulated and the sleeve 17 is of insulatin material. The hands are thus protecte against shock and from contact with acid. After removal of the clamp the terminal and coil springs can be readily cleaned of any acid that may have splashed thereon.
In Figs. 6 and 7 I have shown a simple arrangement for preventin withdrawal of the insulation sleeve beyon the clamp loop 11 to which the wires w of the conductor are secured. I have shown the inner end of the sleeve closed except for a diametral slot 30 through which the limbs 12 and 13 extend. The loop 11 being Wider than the width of the slot, the sleeve can be drawn inwardly only until the walls adjacent the slot encounter the loops. The loops and the connection therewith of the conductor wires will thus always be protected within the sleeve. The slot also serves the purpose of preventing rotation between the sleeve and clamp element 0 and connections can therefore be made with greater certaint The end 17 of the sleeve can also be fl ared as shown and such fiare will prevent the fingers from sliding oil of the sleeve and into contact with the metallic clamp element a. I thus produce a connecter which can be positively and safely manipulated to be connected with or disconnected from a terminal by the simple shifting of an insulated sleeve along the insulated conductor from which connection is to be made. So long as the sleeve is'in clamping position it will be impossible for the connection to be broken and secure electrical connection is alwa s assured. The conductor can be secure y aptiaeeo plied to the clamping element without the use of solder, the loops securely clamping the wires and retaining them against ordinary pulls to which the conductor will be subjected during use.
ll do not desire to be limited to the exact construction, arrangement and 0 eration shown and described as changes can e made which will still come within the scope of the invention.
I claim as follows:
1. The combination with an electrical conductor, of a sleeve of insulating material slidable thereon, and a clamping element, said clamping element being of V-shape and formed from a piece of spring wire and having a number of turnsat its bend, the end of the conductor wire being received and clamped between said turns to be thereby electrically connected with the clamping ele ment, the ends of the limbs of said clamping element being shaped to receive anlothier conductor with which connection is to be made, said clamping element being expanded when said sleeve is shifted away from its limbs, and being closed when said sleeve is shifted along said limbs, said element when closed causing its ends to securely clamp said other conductors between them.
2. The combination with an insulated electrical conductor, of a sleeve of insulating material slidable thereon, and a clamping element bent intermediate its ends from a piece of s ring wire, spring turns formed in the hen of said clamping element, the end of the conductor wire being received and clamped between turns to be thereby electrically connected with the clamping element, said limbs being normally swung apart but being brought together by said sleeve when sai sleeve is slid along the conductor and said limbs, the ends of said limbs being sha ed to receive and clamp a conductor with which connection is to be made when said limbs are brou ht together.
3. Connecter mec anism of the class described comprising a spring frame bent to V-shape from sprin wire and having a plurality of turns at its bend between which are received the ends of a conductor from which connection is to be made, a sleeve of insulating material adapted to receive the tilt conductor and to be slid thereon and along said frame to bring the frame limbs together, and contact ends for said limbs for clamping a conductor with which connection is to be made when said limbs are broughttogether.
4. Electrical connecter mechanism of the class described comprising two spring limbs connected'to ether at one end and adapted at such end or connection with a conductor from which connection is to be made, the other ends of said limbs being deflected toward each other, conical coil springs surrounding such deflected ends and connected at their apexes to the inner ends of said deflected ends, and a sleeve slidable along said limbs to force them together and to bring said coil springs into engagement with a terminal with which connection is to be made.
5. An electrical connecter comprising terminal members and means for normally holding them apart, contact making coil springs at the ends of said terminal members extending aziially toward each other, and means for bringing said members together.
6. An electrical connection comprising a terminal member having a passageway, a
second terminal member, and a conical coil spring connected at its apex to the end of said second terminal member whereby when said second terminal member is inserted in the passageway in said first terminal member said conical spring will be drawn into said passageway.
7. An electrical connection comprising one terminal member having a passageway, a second terminal member, a conical coiled spring encircling said second terminal meme ber and connected at its apex with the end of said terminal member, insertion of said second terminal member in said first terminal member causing said coiled spring to enter said passageway with its apex en advance, said spring turns being of slightly greater diameter than the width of said passageway.
In witness whereof, ll hereunto subscribe my name this 24th day of March, A. D. 1923.
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US2549731 *||Dec 18, 1944||Apr 17, 1951||Wattley Vincent E||Flexible test prod|
|US2648826 *||Jul 10, 1950||Aug 11, 1953||Raymond Jubenville Arthur||Electrical test probe|
|US2657367 *||Nov 21, 1949||Oct 27, 1953||On A Lite Corp||Electrical socket connector with supporting clip|
|US2702895 *||Jan 4, 1951||Feb 22, 1955||George Pavlinetz||Terminal connector|
|US3204313 *||Jan 17, 1963||Sep 7, 1965||Alexandre See Jacques Leon||Clip|
|US3431576 *||Jan 5, 1966||Mar 11, 1969||Dalhart Austin Thomas||Attachment device for mops and the like|
|US3538486 *||May 25, 1967||Nov 3, 1970||Amp Inc||Connector device with clamping contact means|
|US3622941 *||Oct 30, 1968||Nov 23, 1971||Raychem Corp||Heat recoverable article with mechanical insert|
|US3932918 *||Aug 15, 1974||Jan 20, 1976||Eaton Corporation||Releasably attachable clip|
|US3993077 *||Dec 26, 1974||Nov 23, 1976||Kim Sung S||Method and apparatus relating to the practice of acupuncture|
|U.S. Classification||439/729, 24/334, 30/260|
|International Classification||H01R11/24, H01R11/11|