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US2581500A - Transformer terminal connector - Google Patents

Transformer terminal connector Download PDF

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Publication number
US2581500A
US2581500A US76519A US7651949A US2581500A US 2581500 A US2581500 A US 2581500A US 76519 A US76519 A US 76519A US 7651949 A US7651949 A US 7651949A US 2581500 A US2581500 A US 2581500A
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United States
Prior art keywords
wire
sleeve
jaws
insulator
connector
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Expired - Lifetime
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US76519A
Inventor
Raymond B Schoonmaker
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Fargo Mfg Co Inc
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Fargo Mfg Co Inc
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Publication date
Application filed by Fargo Mfg Co Inc filed Critical Fargo Mfg Co Inc
Priority to US76519A priority Critical patent/US2581500A/en
Application granted granted Critical
Publication of US2581500A publication Critical patent/US2581500A/en
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Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/02Casings
    • H01F27/04Leading of conductors or axles through casings, e.g. for tap-changing arrangements
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T279/00Chucks or sockets
    • Y10T279/17Socket type
    • Y10T279/17291Resilient split socket
    • Y10T279/17299Threaded cam sleeve

Definitions

  • This invention relates to clamps in electrical connections and more particularly to connecting or clamping and supporting ends of cables or wires.
  • Another object of this invention is to provide and electrical connector which will cooperate with, clamp, and connect the end of a cable or wire to a terminal.
  • a more specific object of this invention is to with, grips, supports and connects cables and wires to a terminal in such a way that the wires will be securely gripped and supported without strain or stress.
  • a further object is that of providing a unit which will embody relatively few parts, each of simple, rugged construction, such parts being capable of economical manufacture and assemblage by relatively unskilled labor to furnish a unitary article operating over long periods of time with freedom from all difficulties.
  • Fig. l is a sectional side view of a connector coupling the end of a wire or cable to a terminal;
  • Fig. 2 a sectional side View of the connector of Fig. 1 minus the wire or cable and the terminal and showing the clamping element partly in elevation;
  • Fig. 3 is sectional end view taken along lines 3-4 and in the direction of the arrows as shown n Fig. l;
  • ⁇ l is an exploded view of the terminal stud sleeve, gripping element and retaining ring of the connector shown in 1.
  • In genera tr e electrical connector of this invention connects a wire or cable to a terminal by a simple operation capable of being performed under adverse conditions and clamps and supports the wire in such a manner as to provide a and secure electrical connection without stress or strain.
  • the connector of this invention has a clamping element which grips ti lOllIlECt-Sd. wire or cable when the insulator to 1, an inmlator if: has centrally disposed in its upper pGl'tlC-ll a cylindrical recess terminating in bottom surface it. A funnel-shaped wed on to the terminal stud. Referring provide an electrical connector which cooperates passage l3 extends upward from the lower rim.
  • a terminal l6 positioned above the insulator H7 is suitably connected to an electrical line.
  • An external thread I! on the end of terminal I6 receives an internal thread 18 in a bored stud H] which is. thereby fastened to the terminal l5.
  • contains a, cylindrical chamber 22 which has threaded on its wall an internal thread 23.
  • this internalthread 23 receives an external thread 24 of the stud l9 so that the stud l9 may be screwed downward into the sleeve 2
  • seats with its lower end 25 on the bottom surface
  • from the lower end 25 are two recesses 26 and 21.
  • the upper recess 26 forms a shoulder 28 with the lower end of the chamber 22 and the lower recess forms a shoulder 29 with the recess 26.
  • has.
  • a wire 54 is shown inserted into the connector through passages l3 and M and clamped between the jaws 63 by the action between surface 3'! and tapered bore 38.
  • the wire 64 is or may be suitably connected to the electrical line which it is desired to electrically connect to the terminal l6.
  • the element 3! is preferably composed of a material having an elasticity suflicient to permit the fingers to receive a range of wire sizes of at least from #10 stranded to #2 solid without permanent deformation.
  • the material preferably provides teeth d5 with sufficient hardness to pierce the hard drawn copper of the ordinary conducting wire preferably over Rockwell B50.
  • the stud l 9 is fastened on the threaded terminal to by means of external threads H and internal threads E8, the terminal I6 being attached in some electrical circuit which it is desired to complete by electrical connection with the wire 44.
  • and the clamping element 3! secured in position therein is then screwed on to the stud l9 by engagement between threads 23 and 24.
  • sufiicient engagement to' hold the insulator in place on the stud H9 is obtained, the screwing operation is interrupted while the end of wire 44 inserted through passages 13 and M is positioned between the jaws 43.
  • the wire 54 extends downward and out from the electrical connector, resting against the curved wall of the funnel-shaped passage i 3.
  • the wire 44 in lying against and following the surface of the funnel passage I3 is introduced between the jaws 43 at a very small angle -to the axis of the head sections 36 and the jaws 45!.
  • the introduction of the wire M into the clamping position at a very small angle to the clamping position provides that the fiexure of the wire between the support of passage l3 and the damping jaws 43 will be so slight as to be negligible.
  • the support of the connected wire by the funnelshape of the insulator wall relieves strain placed upon the wire when it is seized by clamping.
  • This invention ameliorates the weakening of the wire by the clamping and obviates the possibility of rupture.
  • this advantage is obtained by supporting the wire in the vicinity of the clamp-ing and by reducing the angle of possible flexure of the wire in the vicinity of the clamping area.
  • Another advantage of this invention is seen in not deforming the connected wire by subjecting it to the rotation of the connected parts after it has been seized in the clamping grip.
  • This advantage is obtained by mounting the clamping element rotatably in the connector parts so that as the connector parts are rotated in the tightening operation the wire may remain stationary and no torque placed thereon.
  • a further advantage is that of the range of sizes of wire that may be accommodated in any single electrical connector of this invention.
  • the same electrical connector may clamp, secure, hold and connect wires ranging in gauge from #10 stranded to .2 solid without any loss of the benefits of this invention.
  • Still another advantage is found in the use of the teeth of the jaws to insure a good contact between the connector and the conductor.
  • the clamping element is composed of a material having hardness and elasticity to provide it with other desired advantages, such as flexibility of the fingers and hardness to reduce the friction in tightening the clamp, the sharpedged teeth are harder than the copper of the ordinary conductor. Then when the connector is tightened reasonably tight on the conductor the teeth of the clamping element will dig into the conductor and insure a good electrical contact by piercing any insulating surface layer, and will continue to maintain a good electrical contact because of the intimate bond between the two parent metals of conductor and connector will exclude further corrosion deposits.
  • the internally threaded passage 19 and the tapered bore 138 through stud 19 may be divided into two parts by a solid transverse wall extending across the passage and forming an upper threaded portion for receiving the thread i? of the terminal [6 and a lower tapered portion for receiving the head section 36 of the clamping element 3!.
  • the threaded portion and the tapered portion are thus made blind by the transverse wall.
  • a connector for securing an electrical conductor comprising in combination an insulator; a threaded sleeve supported in said insulator; a clamping element contained in said threaded sleeve comprising elongated fingers, conductor securing jaws mounted on said elongated fingers, and a central passage formed by said jaws and fingers extending axially through said clamping element for axially receiving an electrical conductor; a threaded member engaging said threaded sleeve; a surface actuated by said threaded member engageable with said jaws from an axial direction opposite to the axial reception of an electrical conductor into said central passage, to move said jaws to a closed position and a central bore in said insulator aligned with said axial central passage and terminating at the opposite end of said elongated fingers from said jaws, said bore admitting an electrical conductor into said passage whereby said jaws secure in said clamping element at a point removed from the entrance to said central bore, said electrical conductor being insertible
  • An electrical connector for securing an electrical conductor comprising in combination an insulator, a threaded cylindrical sleeve con tained in said insulator, a clamping element said jaws, an insulator supporting said cylindri cal sleeve, a threaded member engaging said threaded sleeve axially with relation to said central passage, a tapered bore in said threaded member engaging said frusto-conical surface on said jaws from one axial direction, and a central bore in said insulator at the opposite end of said cylindrical sleeve from said threaded member aligned with and tapering inwardly toward said central passage in the opposite axial direction from said tapered bore for admission of an electrical conductor into said central passage from said opposite axial direction whereby said jaws are securable on said insertible electrical conductor in said clamping element at a point removed from the entrance to said centralbore.
  • a connector for an electrical conductor the combination of a threaded stud to which the conductor is connectible, a threaded sleeve threading onto said stud with a rotary motion, a clamping element carried in said threaded sleeve and rotatably independent therefrom, an annular base supported in said threaded sleeve with a low coefficient of friction between the annular base and its supporting surface, flexible elongated fingers extending axially through said threaded sleeve from said annular base, movable conductor securing jaws mounted at the end of said elongated fingers, an axially short conductor gripping inner surface on said jaws, a frusto-conical outer surface on said jaws, a tapered bore in said threaded stud engaging said frusto-conical surface to flex said elongated fingers and move said conductor securing jaws inward, a surface contact between said tapered bore and said frusto-conical surface having

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Connections Effected By Soldering, Adhesion, Or Permanent Deformation (AREA)

Description

Jan. 8, 1952 R. a. SCHOONMAKER TRANSFORMER TERMINAL CONNECTOR Filed Feb. 15, 1949 IINVENTOR. Eayifimd B Srammaiar DWMWLHW.
permanent Patented Jan. 8, 1952 TRANSFORMER TERMINAL CONNECTOR Raymond B. Schoonmaker, Poughkeepsie, N. Y.,
assignor to Fargo Mfg. Company, Inc., Poughkeepsie, N. Y., a corporation of New York Application February 15, 1949, Serial No. 76,519
3 Claims.
This invention relates to clamps in electrical connections and more particularly to connecting or clamping and supporting ends of cables or wires.
It is an object of this invention to provide an electrical connector which will receive and grip the ends of cables and wires.
Another object of this invention is to provide and electrical connector which will cooperate with, clamp, and connect the end of a cable or wire to a terminal.
A more specific object of this invention is to with, grips, supports and connects cables and wires to a terminal in such a way that the wires will be securely gripped and supported without strain or stress.
It is still another object of this invention to design a connector in which the gripping elements are applied to the cables or wires clamped and supported therein by tightening one part of said connector upon another part of the same connector.
A further object is that of providing a unit which will embody relatively few parts, each of simple, rugged construction, such parts being capable of economical manufacture and assemblage by relatively unskilled labor to furnish a unitary article operating over long periods of time with freedom from all difficulties.
With these and other objects in mind, reference is had to the attached sheet of drawings illustrating a practical embodiment of the in? vention in which:
Fig. l is a sectional side view of a connector coupling the end of a wire or cable to a terminal;
Fig. 2 a sectional side View of the connector of Fig. 1 minus the wire or cable and the terminal and showing the clamping element partly in elevation;
Fig. 3 is sectional end view taken along lines 3-4 and in the direction of the arrows as shown n Fig. l; and
{l is an exploded view of the terminal stud sleeve, gripping element and retaining ring of the connector shown in 1.
In genera tr e electrical connector of this invention connects a wire or cable to a terminal by a simple operation capable of being performed under adverse conditions and clamps and supports the wire in such a manner as to provide a and secure electrical connection without stress or strain.
As shown in the figures, the connector of this invention has a clamping element which grips ti lOllIlECt-Sd. wire or cable when the insulator to 1, an inmlator if: has centrally disposed in its upper pGl'tlC-ll a cylindrical recess terminating in bottom surface it. A funnel-shaped wed on to the terminal stud. Referring provide an electrical connector which cooperates passage l3 extends upward from the lower rim.
14 of the insulator If! to a central aperture l5 in the bottom surface I2, thus providing a continuous passage from top to bottom through the insulator H]. A terminal l6 positioned above the insulator H7 is suitably connected to an electrical line. An external thread I! on the end of terminal I6 receives an internal thread 18 in a bored stud H] which is. thereby fastened to the terminal l5. As shown in Fig. 4, a sleeve 2| contains a, cylindrical chamber 22 which has threaded on its wall an internal thread 23. As shown in Figs. 1 and 2, this internalthread 23 receives an external thread 24 of the stud l9 so that the stud l9 may be screwed downward into the sleeve 2| which in turn is centrally positioned in the recess H of the insulator so. The sleeve 2| seats with its lower end 25 on the bottom surface |2 of the recess Counterbored into the sleeve 2| from the lower end 25 are two recesses 26 and 21. The upper recess 26 forms a shoulder 28 with the lower end of the chamber 22 and the lower recess forms a shoulder 29 with the recess 26.
Referring to Fig. 4, clamping element 3| has.
. wardly to make up a frusto-conical surface 31.
and 2 fits into the sleeve 2| with the base 32 slipping into the recess 26, the shaft sections 35 extending upward through the threaded chamber 22 and the head sections 36 protruding out of the upper end. The frusto-conical surface 3'! is thus brought into contact with the inverted taper of the bore 38 as the sleeve 2| and stud H) are threaded together. A retaining ring 39 fits into the lower recess 21 at the lower end of sleeve 2| and fitting snugly in the recess 21 seats against the shoulder 29 to hold the clamping element 3| in position within the sleeve 2|. It is noted, as shown in Figs. 1 and ,2, that the height of base 32 is not as greatas the depth of recess 26 which contains it, and therefore while held securely in place by retaining ring 39 the clamping element 3| is free to rotate on its axis within the sleeve 2|.
element 3| is inserted in the sleeve 2| and the ring 39 press-fitted into the recess 27. The sleeve and clamping element assembly is then positioned in the recess ll with the lower end 25 of sleeve 2| seated on the bottom surface l2 so that the center hole of ring 39 and the open center of element 3! form a passage M which *is aligned of the sleeve 2! as shown in Figs. 1, 2 and 3.
In this condition the insulator with the sleeve and clamping element assembly secured therein is fastened on to the stud I9 which has been previously screwed on to the terminal it as hereinbefore described. Thus the frusto-conical surface 31 with its outward taper is brought into engagement with the inverted taper of bore 38 as the threads ll and l8 inter-engage. The head sections 36 are provided at the upper end of their inner surfaces with jaws d3 having teeth Q5. As the frusto-conical surface 3'! engages the tapered bore 38 the head sections 36 are permitted to flex inward by the spring of the flexible shaft sections 35 anchored in the rigid base 32. The jaws 43 are thus urged together into the central passage 4! so as to constrict that passage in the area of the jaws 43. The further that the sleeve M is threaded on to the stud Is by rotation of the insulator It the greater will be this constriction. In Fig. l a wire 54 is shown inserted into the connector through passages l3 and M and clamped between the jaws 63 by the action between surface 3'! and tapered bore 38. The wire 64 is or may be suitably connected to the electrical line which it is desired to electrically connect to the terminal l6. The element 3! is preferably composed of a material having an elasticity suflicient to permit the fingers to receive a range of wire sizes of at least from #10 stranded to #2 solid without permanent deformation. At the same time the material preferably provides teeth d5 with sufficient hardness to pierce the hard drawn copper of the ordinary conducting wire preferably over Rockwell B50. A metal alloy composed of 91% copper, 2% silicon and 7% aluminum, having a modulus of elasticity in the neighborhood of 10 x l6 5 p. s. i. and a hardness of the order of Rockwell B85, is one example of such a material.
In the operation of this modification of the invention the stud l 9 is fastened on the threaded terminal to by means of external threads H and internal threads E8, the terminal I6 being attached in some electrical circuit which it is desired to complete by electrical connection with the wire 44. The insulator l0 containing the sleeve 2| and the clamping element 3! secured in position therein is then screwed on to the stud l9 by engagement between threads 23 and 24. When sufiicient engagement to' hold the insulator in place on the stud H9 is obtained, the screwing operation is interrupted while the end of wire 44 inserted through passages 13 and M is positioned between the jaws 43. The screwing of the insulator and sleeve assembly on to the stud I9 is then resumed and by bringing the surfaces 31 and 38 in to further engagement causes the jaws 43 to close in on the wire M and the teeth 45 to clinch the wire 44. The jaws 53 thus coming into contact with the wire l i clamp and hold it in position against removal. Thus the stud i9 is secured on the terminal It, the sleeve 2! and the insulator ll] is secured on the stud l9 and the wire 5 clamped in the jaws 43 is secured in, and supported by, the clamping element 31 and the electrical connector as a whole.
In the clamping operation the jaws 43 are closed on the wire 44 as tightly as reasonably possible which is sufiicient for teeth 45 to pierce surface layers of oxide or other matter on the wire 54. Consequently the insulator Ill and sleeve 2i are rotated with relation tothe stud it after the jaws have come into contact with the wire Q4 and hold it securely in position. The continued rotation of the sleeve 2! and the insulator I when the jaws' lS and wire 44 are in this condition is not trans ated to the clamping element 3! and consequently not transferred to the wire 54 because of the loose rotational fit permitted the clamping element 3! by the freedom of base 32 in recess 26 and the absence of contact between other parts of the element 3| and the sleeve 2!! and the low coefiicient of friction. Thus in the last stages of the tightening of the insulator iii and sleeve 2| on the stud 19 when the jaws Q3 and wire id are in contact, these members, the clamping element St and wire as, remain stationary with the terminal It and the stud I9, while the insulator it! and sleeve 2| are rotated.
The wire 54, as shown in Fig. 1, extends downward and out from the electrical connector, resting against the curved wall of the funnel-shaped passage i 3. In Fig. 1 the wire 44 in lying against and following the surface of the funnel passage I3 is introduced between the jaws 43 at a very small angle -to the axis of the head sections 36 and the jaws 45!. As the wire M is held axially between the jaws 63 the introduction of the wire M into the clamping position at a very small angle to the clamping position provides that the fiexure of the wire between the support of passage l3 and the damping jaws 43 will be so slight as to be negligible.
Among other advantages of this invention the support of the connected wire by the funnelshape of the insulator wall relieves strain placed upon the wire when it is seized by clamping. When a wire is deformed some of its inherent strength is lost, when to this loss of strength is added a severe flexure adjacent the weakened region, the probability of complete or partial rupture of the wire is considerably increased. This invention ameliorates the weakening of the wire by the clamping and obviates the possibility of rupture. As outlined above, this advantage is obtained by supporting the wire in the vicinity of the clamp-ing and by reducing the angle of possible flexure of the wire in the vicinity of the clamping area.
Another advantage of this invention is seen in not deforming the connected wire by subjecting it to the rotation of the connected parts after it has been seized in the clamping grip. This advantage is obtained by mounting the clamping element rotatably in the connector parts so that as the connector parts are rotated in the tightening operation the wire may remain stationary and no torque placed thereon.
A further advantage is that of the range of sizes of wire that may be accommodated in any single electrical connector of this invention. For example, the same electrical connector may clamp, secure, hold and connect wires ranging in gauge from #10 stranded to .2 solid without any loss of the benefits of this invention.
Further advantages of this invention are the simplicity of construction, the economical mantrfactors and assemblage possible in making such parts and the iewness of the number of parts necessary, Still further advantages are found in the simplicity of attaching the connected line, the fool-proof nature of the connection and the reliability of its operation.
Still another advantage is found in the use of the teeth of the jaws to insure a good contact between the connector and the conductor. As the clamping element is composed ofa material having hardness and elasticity to provide it with other desired advantages, such as flexibility of the fingers and hardness to reduce the friction in tightening the clamp, the sharpedged teeth are harder than the copper of the ordinary conductor. Then when the connector is tightened reasonably tight on the conductor the teeth of the clamping element will dig into the conductor and insure a good electrical contact by piercing any insulating surface layer, and will continue to maintain a good electrical contact because of the intimate bond between the two parent metals of conductor and connector will exclude further corrosion deposits.
Thus, among others, the several objects of the invention as specifically aforenoted are achieved. Obviously numerous changes in construction and rearrangement of the parts may be resorted to without departing from the spirit of the invention as defined by the claims. For example, the internally threaded passage 19 and the tapered bore 138 through stud 19 may be divided into two parts by a solid transverse wall extending across the passage and forming an upper threaded portion for receiving the thread i? of the terminal [6 and a lower tapered portion for receiving the head section 36 of the clamping element 3!. The threaded portion and the tapered portion are thus made blind by the transverse wall. It will thus be apparent that various modifications can be made in accordance with the principle of the invention as disclosed herein and for that reason it is not intended it should be limited other than by the scope of the appended claims.
I claim:
1. A connector for securing an electrical conductor comprising in combination an insulator; a threaded sleeve supported in said insulator; a clamping element contained in said threaded sleeve comprising elongated fingers, conductor securing jaws mounted on said elongated fingers, and a central passage formed by said jaws and fingers extending axially through said clamping element for axially receiving an electrical conductor; a threaded member engaging said threaded sleeve; a surface actuated by said threaded member engageable with said jaws from an axial direction opposite to the axial reception of an electrical conductor into said central passage, to move said jaws to a closed position and a central bore in said insulator aligned with said axial central passage and terminating at the opposite end of said elongated fingers from said jaws, said bore admitting an electrical conductor into said passage whereby said jaws secure in said clamping element at a point removed from the entrance to said central bore, said electrical conductor being insertible in an axial direction counter to said jaws closing motion of said surface.
2. An electrical connector for securing an electrical conductor comprising in combination an insulator, a threaded cylindrical sleeve con tained in said insulator, a clamping element said jaws, an insulator supporting said cylindri cal sleeve, a threaded member engaging said threaded sleeve axially with relation to said central passage, a tapered bore in said threaded member engaging said frusto-conical surface on said jaws from one axial direction, and a central bore in said insulator at the opposite end of said cylindrical sleeve from said threaded member aligned with and tapering inwardly toward said central passage in the opposite axial direction from said tapered bore for admission of an electrical conductor into said central passage from said opposite axial direction whereby said jaws are securable on said insertible electrical conductor in said clamping element at a point removed from the entrance to said centralbore.
3. In a connector for an electrical conductor, the combination of a threaded stud to which the conductor is connectible, a threaded sleeve threading onto said stud with a rotary motion, a clamping element carried in said threaded sleeve and rotatably independent therefrom, an annular base supported in said threaded sleeve with a low coefficient of friction between the annular base and its supporting surface, flexible elongated fingers extending axially through said threaded sleeve from said annular base, movable conductor securing jaws mounted at the end of said elongated fingers, an axially short conductor gripping inner surface on said jaws, a frusto-conical outer surface on said jaws, a tapered bore in said threaded stud engaging said frusto-conical surface to flex said elongated fingers and move said conductor securing jaws inward, a surface contact between said tapered bore and said frusto-conical surface having a low coeii'icient of friction to permit rotation of said clamping element within said threaded sleeve and said threaded stud after said conducting gripping surface has been brought into engagement with said conductor by the action of said tapered bore on said frusto-conical surface.
RAYMOND B. SCHOONMAKER.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 411,153 Lafierty Sept. 17, 1889 1,267,959 Becker May 28, 1918 1,649,923 Post Nov. 22, 1927 1,677,326 Bowen July 17, 1928 1,942,661 Paulus Jan. 9. 1934 2,087,384 Lee July 20, 1937 2,406,346 Buchanan Aug. 27, 1946 2,468,169 Carlson Apr. 26, 1949 FOREIGN PATENTS Number Country Date 535,264 Germany Oct. 8, 1931 12,150 England of 1915
US76519A 1949-02-15 1949-02-15 Transformer terminal connector Expired - Lifetime US2581500A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2730686A (en) * 1952-04-18 1956-01-10 Charles E Smiley Hermetically sealed electrical apparatus
US3040284A (en) * 1958-07-08 1962-06-19 Conax Corp Termination fitting for mineral-insulated metal-sheath cable
US3127230A (en) * 1964-03-31 Electrical connector device
US3824556A (en) * 1972-04-13 1974-07-16 American Optical Corp Extra-corporeal medical instrument electrical connector
EP0446837A1 (en) * 1990-03-16 1991-09-18 Asea Brown Boveri Aktiengesellschaft Feed-through transformer
US20100059275A1 (en) * 2008-08-20 2010-03-11 Utilx Corporation Cable splice connection assembly
US20100062628A1 (en) * 2008-08-20 2010-03-11 Utilx Corporation Cable termination connection assembly

Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US411153A (en) * 1889-09-17 Samuel c
GB191512150A (en) * 1915-08-23 1916-11-23 Arthur Hollister Fargo Connector for the Adjacent Portions of Two or More Electrical Wires, Cables or the like.
US1267959A (en) * 1916-11-27 1918-05-28 Charles Tremain Connector.
US1649923A (en) * 1925-10-23 1927-11-22 Ernest K Post Connecter for track circuits and train-control systems
US1677326A (en) * 1923-09-28 1928-07-17 Dudley A Bowen Connecter
DE535264C (en) * 1931-10-08 Staiger Geb Plug with conical terminal housed in the insulated handle
US1942661A (en) * 1931-05-25 1934-01-09 Trico Products Corp Windshield cleaner arm
US2087384A (en) * 1935-07-09 1937-07-20 Burndy Engineering Co Inc Cable connecter
US2406346A (en) * 1943-09-11 1946-08-27 Aircraft Marine Prod Inc Electrical connector
US2468169A (en) * 1942-09-25 1949-04-26 Aircraft Marine Prod Inc Method of making electrical connectors

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US411153A (en) * 1889-09-17 Samuel c
DE535264C (en) * 1931-10-08 Staiger Geb Plug with conical terminal housed in the insulated handle
GB191512150A (en) * 1915-08-23 1916-11-23 Arthur Hollister Fargo Connector for the Adjacent Portions of Two or More Electrical Wires, Cables or the like.
US1267959A (en) * 1916-11-27 1918-05-28 Charles Tremain Connector.
US1677326A (en) * 1923-09-28 1928-07-17 Dudley A Bowen Connecter
US1649923A (en) * 1925-10-23 1927-11-22 Ernest K Post Connecter for track circuits and train-control systems
US1942661A (en) * 1931-05-25 1934-01-09 Trico Products Corp Windshield cleaner arm
US2087384A (en) * 1935-07-09 1937-07-20 Burndy Engineering Co Inc Cable connecter
US2468169A (en) * 1942-09-25 1949-04-26 Aircraft Marine Prod Inc Method of making electrical connectors
US2406346A (en) * 1943-09-11 1946-08-27 Aircraft Marine Prod Inc Electrical connector

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3127230A (en) * 1964-03-31 Electrical connector device
US2730686A (en) * 1952-04-18 1956-01-10 Charles E Smiley Hermetically sealed electrical apparatus
US3040284A (en) * 1958-07-08 1962-06-19 Conax Corp Termination fitting for mineral-insulated metal-sheath cable
US3824556A (en) * 1972-04-13 1974-07-16 American Optical Corp Extra-corporeal medical instrument electrical connector
EP0446837A1 (en) * 1990-03-16 1991-09-18 Asea Brown Boveri Aktiengesellschaft Feed-through transformer
US20100059275A1 (en) * 2008-08-20 2010-03-11 Utilx Corporation Cable splice connection assembly
US20100062628A1 (en) * 2008-08-20 2010-03-11 Utilx Corporation Cable termination connection assembly
US7959477B2 (en) * 2008-08-20 2011-06-14 Utilx Corporation Cable termination connection assembly
US8344252B2 (en) 2008-08-20 2013-01-01 Utilx Corporation Cable splice connection assembly

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