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Publication numberUS2529270 A
Publication typeGrant
Publication dateNov 7, 1950
Filing dateFeb 26, 1949
Priority dateFeb 26, 1949
Publication numberUS 2529270 A, US 2529270A, US-A-2529270, US2529270 A, US2529270A
InventorsRobert Webster
Original AssigneeRobert Webster
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Self-piercing and self-holding test prod
US 2529270 A
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Description  (OCR text may contain errors)

Nov. 7, 1950 R. WEBSTER 2,529,270

SELF-PIERCING AND SELF-HOLDING TEST PROD Filed Feb. 26, 1949 INVENTOR. (Rubel- 'Vbser Patented Nov. 7, 195.0

UNITED STAT SELF-PIERCING AND SELF-HOLDING Vrns'r Piton l Robert Webster, Upper Darby, Pa. Appiieaeen February 26, 19.49,. sesame.` 78,553

My invention relates to a new and useful selfpiercing and self-holding test prod primarily for use by repairmen in testing the circuits of radio and video apparatus in which high voltage currents are often employed and one of the objects of this invention is to so construct such an instrument that it will be practically completely insulated and thereby prevent the user from being' subjected topthe electrical current which might result in severe burns or other injuries. In; devicesoi this general character it is usually necessary to remove the insulation from `an electrical conductorfor the purpose of making con- -tacttherewith This is not only a time consuming operation but often results in damage to the conductor, generally in the form of a wire, and requires the services of a highly skilled person to make a fairly good job of recovering thel conductor with insulation tape which never has the nnished appearance of the original insulated conductor until released by the .operator thus leaving one or both hands free to make tests and/orrepairs, changes and additions to electrical circuits.

A Another object of this invention is to construct an electrical testing tool. including a spring aci tuated presser jaw to force an insulated conducter engaged by said jaw towards a piercing element Aor needle in electrical communication with said'jaw `which is manually operated to retract iti-romthe needle to permit the conductor to be engaged or release the pressure therefrom whereiby saidekconductor and jaw may be disengaged from one another, l; ",Another object of the invention `is to provide te. testing tool in which me piercing needle ,removably and positively seatedlin a predetermined location whereby la' blunted or dull one can be easily and quickly removed and replaced by a new sharp one and when` assembled will be in proper relation tothe kpresser jaw which acts as a centeringmedium. Y

Another object of the invention is to provide a testing tool which may be operated by one hand `through holding the same between the Yindex and second fingers and Vpressing a Knob with the 4 claims( (131.1735279.)`

thumb thusmaking it easy to attach and permitting shing through a mass oif wires none of which, except the one gripped, will be snorted because of the thoroughly insulated construction `of the tool.

Another object oi the invention is to provide a tool of the character mentioned which Vis simple of opera-tion, having but one moving part, that will grip, center and pierce any size bare, covered cr shielded Wire, within the` limits of the jaw dimensions, and used for testing purposes or. for bridging Wires for current and voltage draw for temporary repairs. Another object of the` invention is to provide a tool including unique means for easily and quickly attaching and detaching a test lead to the knob bearing end thereof.

Fig. 2.

A further object of the inventionis to provide a test toolin which the piercing ,operation is accomplished by spring pressure in one direction on apresserjaw Aand openedV by manual pressure appliedto said `jaw.

.A still further object of this invention is to provide Aan arrangement of parts of the tool wherebythe tension` o fjtheV spring may be lectively adjusted..V Y With theabove and other objects in View invention 4consists of the details o construction and combination of elements hereinafter set iorth and then `designated by the claims.

` In order thatthose skilled in the art to which this invention appertains may understand how to make and use the same I will describe its construction in detail, referring to the accompanying drawing forming a part hereof, in which:

Figi. l1 is a side View of the prod or electrical testing tool constructed according to my invention.

2 is` a longitudinal sectional view on the liner2f-`2 `oi Fig. l with the presser jaw'structure and piercing needle shown in elevation.

Fig, 3 is an enlarged cross section on the line 3`3 of Fig. 2.

Fig. 4 is a similar section on the line -'i of vthe device, illustrating a structure to permit easy adjustment of'thetension of the. spring. i

7 is a similar View showing a modified forni of the presser jaw.

"In carrying out `my invention as herein embqdied. i0 represents a tubular body of desirable length and consisting of some suitable electrical insulating material. In one end of said body, hereinafter referred to as the outer end, is mounted a round plug II of electrical conductive metal and, preferably, this plug is threaded so as to be screwed into said outer end of the body with the outer end or face of said plug adjacent the outer end of said body. In other words the outer end of the plug can be ilush with or recessed within the outer end of the body but should not project beyond said outer end of said body. After the plug is properly positioned it may be held in place by a screw I2 threaded through a hole I3 in the body and into a radial threaded socket I4 in said plug. This screw should be countersunk relative to the body to prevent accidental contact of the person of an operator therewith, or be formed of some suitably hard non-conductive material for the same purpose and because it has another function, to be presently described.

In the outer end ofthe plug is a longitudinal needle socket I5 which is intersected by the radial socket I4 and terminates short of the inner end of said plug to act as a seat or stop for a needle or piercing element I6 inserted in said longitudinal socket I5 and said piercing element has a sharp pointed outer end. As the radial socket IFI intersects the longitudinal socket I5 so that they communicate with each other, the screw i2, when threaded home will engage the needle It to prevent accidental displacement thereof while permitting its ready removal when vdesired for changing needles.

The longitudinal needle socket I5 and the hole i? are on diametrically opposite sides of the axial Y,

center of the plug in which they are formed.

A V-shaped presser jaw I'is formed, bent or fashioned from the ilat or non-circular shank I9 of the push rod 2i! which also includes, preferably, a round neck 2| which, as covered in Figs. l to 5,

inclusive, has a short threaded terminal end 22, Fig. 2. On this threaded terminal is screwed a knob 23 of insulation material with a radial hole 2G extending inwardly from the outside cirof said hole 2Q by screwing the knob onto the push rod or said push rod into said knob to effect the clamping action.

Preferably, the knob 23 has a metal insert 2B Awith the hole 2li running therethrough and the threaded socket for the terminal 22 formed therein. rThis insures a good electrical contact between the push rod 2U and the uncovered end o f the lead or Wire 25. l

rlhe push rod 2G is longer than the tubular body it, in, which it is enclosed, so that when the internal angle, nook or center of the V-shaped hook I2 is in engagement with the point of the needle I5 the opposite end or neck projects from the end of lsaid body oppositeV the location of the plug II and the knob 23 on said push rod is spaced from the adjacent end of the body. About the part of the neck 2l ofthe push rod which projects outside of the body and any desired ya'Ydr-ditio'nal portion `of the length of said neck is loos'ely'ttedY a tubular'shield 2'I of insulating 4 material. The shield 2l is long enough to project from the knob into the open end of the body in which it is slidably or telescopically mounted. Said shield 2'I is urged outwardly or rearwardly by a coil spring 28 located Within the body I0 .about a portion of the push rod 20 between the plug I I, and the stationary element, and the inner end of the shield 27, as the movable element. The action of the spring 28 keeps the shield 2'I in contact with the knob 23 and urges said knob away from the adjacent end of the body I0 thereby retracting the push rod 20 to force the V-shaped jaw IS towards the needle I6.

The above arrangement of parts not only imparts a spring pressed retraction action to the presser jaw but adequately encloses the major portions of the metallic parts especially in the region where the instrument will be grasped by the user. Y Y

When it is necessary or desirable to disassemble the instrument the screw VI2 is backed out of the plug II and the latter removed from or screwed out of the tubular body I0. The knob 23 having been disconnected from the push rod 20, before or after the removal of the plug II, said push rod can with the plug II thereon be withdrawn from the shield and body and the shield and spring allowed to drop from said body. By reversing the above manipulations the device can be readily assembled. After the parts are secured in place the push rod is held against axial rotation by the non-circular or flat shank portion I9 tted in the non-circular or oblong hole I1.

If it is desirable to remove the needle I6, for replacement or other purposes, the screw I2 is merely withdrawn sufficiently to relieve the clamping pressure from the needle and projecting the jaw I8 forwardly the necessary distance to permit said needle to be pulled out of the socket I5. When the needle is in position for operation of the tool said needle is seated against the bottom -of the socket and cannot be accidentally The shield 21a, in this'instance, while slidably mounted in the body I also has threaded connection with the threaded portion of the neck of the push rod. Preferably, the shield 21a has a metal insert 2d non-rotatably fixed therein and provided with a threaded hole for engagement with the threaded portion of the push rod neck. The balance of the parts are identical to those l previously described. The push rod 20 is limited in its retractive movements by the jaw contacting the needle wherefore said push rodris Vin a stationary position; at least temporarily, and there is a temporary xed relation between the plug and the extended threadedV portion 22a. By screwing the shield 2'ia longitudinally along the push rod the position of said shield relative to the plug will be changed and the tension of the spring 28 will be increased or decreased in accordance with which direction said shield is moved along the push rod.

In a relatively small tool of this character the space between the side of the needle and the adjacent portion of the shank I9 is rather limited, if parallelism between the needle and the entire length ofthe shank is retained, which restricts the use ofthe device to wires of smaller gauges.

This difficulty is overcome by providing the shank I9 with an angular portion 30, Fig. 7, just back of the jaw and adjacent the needle. The angular portion 30 projects outwardly relative to the needle, from the main part of the shank towards the jaw and outside of the plug Il. In other words, the angular portion diverges from the needle in a direction towards the jaw which is `formed at `the outer end of said angular portion.

This permits the tool to be used in connection with wires of larger as well as those of smaller gauges.

In actual practice, when the tool is used, the body I0 can be grasped between the index and second fingers of one hand at a convenient location adjacent the knob 23. The thumbof the same hand can then be used to press said knob inward which will project the push rod and shield forwardly against the action of the spring 28 and move the jaw I8 away from the point of the needle I6. The jaw is hooked over the wire to be tested and the knob released permitting the spring 28 to retract said jaw and force the Wire insulating or shielding material over the pointed end of the needle until the wire conductor solidly contacts said needle to form a good electrical connection.` The current can now flow through the needle I6, plug Il, push rod 20 and the lead 25 to a test set, directly to the other side of the line or any other connections provided.

It is to be particularly noted that the action of the spring operated jaw causes the needle to pierce the wire insulation material and the tool is spring clamped to the wire so that the test connection can be maintained even during the time necessary to make prolonged observations or repairs, and the electric conductive parts of the instrument are so well insulated, covered or shielded that there is very little chance of an operator obtaining a shock during use thereof.

Of course I do not wish to be limited to the exact details of construction herein shown and described as these may be varied Within the scope of the appended claims without departing from the spirit of my invention.

Having described my invention what I claim as new and useful is:

1. A self-piercing and self-holding test prod comprising a tubular body of insulating material, a metallic plug ixed in one end of said body, a tubular shield of insulating material telescopically mounted in the opposite end of said body, a vslidably mounted push rod projecting through the plug, body and shield so that the ends extend outside of said plug and shield, the end adjacent the plug carrying a V-shaped jaw, the inside angle of said jaw constituting a nook facing the outer end of the plug, means on the opposite end of said push rod to function as a stop for the shield, a spring Within the body engaging the plug and shield to urge the latter outward and thereby retract the jaw, and a piercing element tted in the plug parallel to the axis of the body for cooperation with said jaw and in line with the nook of said jaw, said piercing element being in electrical communication with the push rod through the metallic plug.

2. In :a device of the kind described, a, tubular body of insulating material, a metallic plug screw threaded into one end of said body, a longitudinal 'needle socket in the outer end of said plug to one side of the center and having a bottom, a screw having threaded connection with the body and plug and projected into said socket, a needle removably mounted in the socket and seated on the bottom of said socket and temporarily held in place by the screw which also retains the plug against rotation, a tubular shield of insulating material telescopically mounted in the opposite end of said body, a push rod having a non-circular shank with a V-shaped jaw on the outer end with the nook in alignment with the needle point and a threaded circular neck with a threaded end, said push rod mounted in the body with the neck in the axial center and projecting through and in threaded engagement with the shield and the shank being offset and slidably mounted in a non-circular hole through the plug to the side of its center opposite the needle socket, an insulated knob on the threaded terminal end of the push rod neck, and a spring in the body engaging the plug and shield to urge the latter outward against the knob for retracting the jaw through the medium of said knob and the push rod of which said jaw is a part.

3. The structure according to claim 2 wherein the non-circular shank portion of the push rod is oblong in cross section and the non-circular hole through the plug is of the same shape.

4. The structure according to claim 2, in combination with a metal insert in the knob having a threaded socket to receive the threaded end of the push rod neck and provided with a radial hole intersecting said socket and aligned with a radial hole through the knob material to the perimeter thereof.

ROBERT WEBSTER.

REFERENCES CITED The following references are of record in the le of this patent:

UNITED STATES PATENTS Number Name Date 951,631 Dake Mar. 8, 1910 1,008,018 Cunningham Nov. 7, 1911 1,249,430 Lewis Dec. 11, 1917 2,276,736 Olson Mar. 17, 1942` 2,438,350 Reichard Mar. 23,1948

FOREIGN PATENTS Number Country Date 329,465 Great Britain May 22, 1930

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Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2648826 *Jul 10, 1950Aug 11, 1953Raymond Jubenville ArthurElectrical test probe
US2654075 *Jan 10, 1950Sep 29, 1953Gaborc James JTest probe
US2675528 *Oct 12, 1951Apr 13, 1954La Point James PUniversal test probe
US2677117 *Apr 30, 1952Apr 27, 1954Kathleen R SwainTest prod
US2702892 *Feb 2, 1951Feb 22, 1955Nelson Youger RobertElectrical test probe
US2969519 *Jun 24, 1958Jan 24, 1961Thomas Gitchel ARadio electrician's and power transmission safe test device
US3037161 *Sep 22, 1958May 29, 1962Rodney B CummingsMethod and apparatus for locating faults in transmission lines
US3108842 *Jul 18, 1962Oct 29, 1963Gorman Charles FTest probe and supporting bracket therefor
US3201746 *Jul 31, 1963Aug 17, 1965Askew Crawford STest probe with grappler
US3363171 *Jun 17, 1966Jan 9, 1968Robert A. LouksElectrical circuit tester with insulation piercing probe means
US4332257 *Feb 11, 1980Jun 1, 1982Bunker Ramo CorporationMedical clip and electrode constructions
US4388591 *Dec 22, 1980Jun 14, 1983Amp IncorporatedSelf-sealing test probe
US4994061 *Mar 6, 1989Feb 19, 1991Selvac CorporationHair grasping device
US5351002 *Aug 20, 1990Sep 27, 1994Snap-On IncorporatedTest probe
US5414346 *Nov 24, 1993May 9, 1995Chrysler CorporationAdjustable piercing probe tip
US5416405 *Aug 2, 1993May 16, 1995Dill; David M.Test probe with improved capture assembly and threaded needle point probe adjustment
US5457392 *Dec 19, 1991Oct 10, 1995Filipescu; RaduTesting clip and circuit board contacting method
US8310223Aug 19, 2010Nov 13, 2012The Boeing CompanyElectrical probe and associated method
US20120049856 *Apr 1, 2011Mar 1, 2012Hon Hai Precision Industry Co., Ltd.Pin test assistant device and method for using the device
WO2012024050A1 *Jul 20, 2011Feb 23, 2012The Boeing CompanyElectrical probe and associated method
Classifications
U.S. Classification439/417, 324/555, 324/72.5
International ClassificationH01R11/20, H01R11/11, H01R11/18, G01R1/067
Cooperative ClassificationH01R11/18, G01R1/06788, H01R11/20
European ClassificationG01R1/067P, H01R11/20, H01R11/18