US3520986A

US3520986A - No-strip explosion connector

Info

Publication number: US3520986A
Application number: US786640A
Authority: US
Inventors: Donald E Krup
Original assignee: Ideal Industries Inc
Current assignee: Ideal Industries Inc
Priority date: 1968-12-24
Filing date: 1968-12-24
Publication date: 1970-07-21
Anticipated expiration: 1987-07-21

Description

July 21, 1970 D. E. KRUP 3,520,986

NO-STRIP EXPLOSION CONNECTOR Filed Dec. 24, 1968 mm 16 f! m] [4 I zz +1 54 +1 .5 M

. Ill

H mam me. fifl/fd/a 15 Km;

5' Warm/WM l/f/fl/A United States Patent O1 ice 3,520,986 Patented July 21, 1970 3,520,986 NO-STRIP EXPLOSION CONNECTOR Donald E. Krup, Elgin, 111., assignor to Ideal Industries, Inc., Sycamore, Ill., a corporation of Delaware Filed Dec. 24, 1968, Ser. No. 786,640 Int. Cl. H02g 15/08 US. Cl. 17484 15 Claims ABSTRACT OF THE DISCLOSURE A no-strip explosive connector having spaced inner and outer shells and an explosive charge or charges between the shells. Detonation of the explosive is effective to drive electrical conductors, positioned within the inner shell, through the insulation of the wires positioned within the connector and into intimate electrical contact with the wires in the connector to thus form an elecrical bridge between the wires. In addition, there is at least one clamping electrical charge so posi tioned as to be simultaneously detonated to effect a clamp between the connector and the wires positioned within it.

SUMMARY OF THE INVENTION This invention relates to a method of electrically connecting insulated wires by the use of an explosive charge and has particular relation to a connector for use on insulated wires in which electrical conductors are driven by one or more explosive charges into electrical contact with the wires.

A primary purpose of the invention is a method of the type described utilizing one or more charges to effect an electrical connection between the wires within the connector and to provide a clamping action between the connector and the wires within it.

Another purpose is an electrical connector in which explosive charges are detonated to drive a plurality of electrical conductor members into electrical contact with the wires positioned within the connector to thus form a no-strip electrical connection.

Another purpose is a connector of the type described utilizing a plurality of conductors, each having an insulation piercing or insulation cutting area which can be driven into the electrical wires within the connector by means of an explosive charge.

Another purpose is an improved method of the type described utilizing a simply and reliably constructed electrical explosive connector to provide both physical and electrical connection between the insulated wires within the connector.

Other purposes will appear in the ensuing specification, drawings and claims.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated diagrammatically in the following drawings wherein:

FIG. 1 is an axial section through a connector of the type described,

FIG. 2 is a section along plane 22 of FIG. 1,

FIG. 3 is a section along plane 33 of FIG. 1,

FIG. 4 is a plan view of a modified form of connector member,

FIG. 5 is a plan view, similar to FIG. 4, illustrating a further form of connector member, and

FIG. 6 is a plan view, similar to FIGS. 4 and 5, illustrating still a further form of electrical connector member.

DESCRIPTION OF THE PREFERRED EMBODIMENT In FIG. 1 an outer shell 10, preferably formed of a rigid material such as metal, forms the outer surface of the connector. As shown, there is a section 12, having an enlarged cross section, and end sections 14 and 16 each of which have a cross section less than the section 12. There may be somewhat slanted areas 18 and 20 which join the sections 14 and 16 with the area 12. Positioned within the outer shell 10 is an inner shell 22 which has a cross sectional shape similar to that of the outer shell 10. As shown, the cross section of the inner and outer shells is somewhat square. Obviously the invention should not be limited to such a construction. The opposite ends of the outer shell 10 may have in-turned

flanges

24 and 26 which are clamped over outwardly extending flanges 28 and 30 of the inner shell 22, to form a rigid connection between the two shells.

As shown in FIG. 2, there are a plurality of spaced confined chambers 32 between the section 12 of the outer shell and a like portion of the inner shell 22. Positioned within the chambers 32 are explosive charges indicated at 34. (Note that the outer walls of the inner shell 22 is in contact with the inner wall 25 of the outer shell except for the confined chamber '32.) As will appear hereinafter, the explosive charges, as well as the means or method for detonating them, may take a number of different forms.

There are peripheral chambers 36 and 38 formed by the portions 14 and 16 of the outer shell and like portions of the inner shell. Within the peripheral chambers 36 and 38 may 'be additional or secondary explosive charges indicated at 40 and 42, which are preferably continuous. Again, the explosive charges 40 and 42, as well as the means or method for detonating them, may vary widely.

Positioned within the inner shell 22 are a plurality of wedge-shaped members or electrical conductors, indicated at 44. Note particularly FIG. 2. Each of the wedge-shaped conductors, and the number four is merely illustrative, may have an inner knife-like edge 46, a body section 48, and an outer head 50. Note that the cross section of the conductors 44, as illustrated in FIG. 2, takes a shape like that of a nail. The explosive charges 34, when detonated, are effective against the heads to drive the conductors 44 inward thus forming an electrical connection between the wires positioned within the connector.

As indicated in FIG. 1, there are a pair of insulated

wires

52 and 54, positioned within the conductor. The wires may have an outer layer of insulation, for example polyvinyl, indicated at 52a and 54a. Each of the Wires pass through aligned

openings

53 and 55 in the inner and outer shells respectively, with the aligned openings being effective to form wire receiving passages.

In a conductor of the type illustrated herein, in which the insulated wires come from opposed openings or wire receiving passages, the wires are positioned end to end within the connector. Detonation of the explosive charges 34 is effective to drive the knife-like edges 46 of the conductors into and through the insulation covering the

wires

52 and 54 so as to form an electrical bridge between the two wires. Simultaneously with the detonation of the charges 34, the secondary or clamping charges 40 and 42 will he detonated to clamp the inner shell, at spaced points, to the

wires

52 and 54. In this way, there will not only be an electrical connection between the two wires, but they will also be physically connected. The invention should not be limited to a method in which the charges :are all detonated simultaneously, although such a method has been found to be advantageous. In some application the clamping charges may be detonated either before or after the charges which are effective to provide the electrical connection between the wires.

When the

wires

52 and 54 are intially inserted within the wire receiving passages, they will be held in their position, in end to end cont-act, by the knife-like edges '46. Note in the position of FIG. 1, which is prior to detonation of the charges, that the knife-like edges 46 extend through a portion of the insulation on the wires, but not completely through the insulation or into electrical contact with the wires themselves.

The explosive charge is preferably of the deflagrating type and may be gunpowder of the double-base type which contains nitro-cellulose and nitro-glycerin, or it may be straight nitro-cellulose. This type of explosive is readily ignited by a spark or a. flame or other source of heat, but not by an ordinary shock as would be produced by dropping a connector on a hard surface such as a floor. A detonating type of explosive may also be used, but would require a thicker external shell for the same amount of deformation of the inner shell. The explosive may be selected to be detonated by shock, spark, flame, heat, friction or electricity, to suit a specific design purpose. Explosive combinations which include detonating, deflagrating, and priming mixtures in various proportions, or any two of the foregoing, may be used as the end use, commercial considerations and manufacturing needs may dictate. The amount of the explosive charge may be varied, depending upon the cross section of the wires to be connected, but it should be sufficient, upon explosion, to deform the inner shell 22 in such a manner as to drive the conductors 44 into intimate electrical and physical contact with the

wires

52 and 54.

The explosive charges may be detonated in a number of ways. In some applications, a source of electrical energy may be used to ignite a priming charge. In other applications, a match-type of arrangement may be provided whereby the rapid pulling of a member is effective to cause a spark adjacent or within the explosive charge. Heat may be used in some applications, such as high frequency heating of magnetic shells. A percussion primer of the type used in a rifle cartridge has been found to be satisfactory in some connectors.

FIGS. 4, and 6 illustrate modified forms of the conductor. In FIG. 4 a conductor 56 may have a head 58, a body section 60 and a knife-like inner edge 62. Note that the edge 62 has a relatively limited length, somewhat similar to the knife edge 46 in FIGS. 1, 2 and 3. The areas 63 adjacent the knife-edge 62 are somewhat sinuous or serrated and of less depth than the knife-edge 62 for grip.- ping adjacent portions of the

wires

52 and 54.

In FIG. 5 a similar conductor 64 has a head 66 and a knife-like edge 68. Note that the knife-like edge 68 extends generally the length of the conductor.

FIG. 6 shows yet a further form in which there is a head 70 attached to a body portion 72 with a knife-like edge 74. The body portion 72 is generally triangular or wedge-shaped with the knife-like edge 74 being formed at the small end of the triangle.

The conductors shown herein may take several different forms. In all cases the body portion, for example as shown at 48 in FIG. 2, should be formed of an electrically conductive material. In some applications the conductor may be a single piece in which case the head 50 would also be formed ofv an electrically conductive material. However, it is desirable in some applications to form the head 50 of insulated material, for example a fiberglass reinforced plastic.

The use, operation and function of the invention are as follows:

In operation, the explosive charges 34 may be detonated simultaneously with the explosive charges 40 and 42 so as to drive the conductors into the previously positioned wires to :form both a physical and electrical connection between the

wires

52 and 54. Normally the electrical connection or contact will be formed by the knife-like edges on the conductors and the clamping charges 40' and 42 will be effective to physicially clamp the connector to the wires. There will also be some clamping action by the electrical conductors.

Although the invention has been described in connection with a connector in which the wires are positioned within the connector from wire receiving passages at opposite ends of the connector, obviously the invention should not be so limited. There may be a single wire receiving passage and both wires or more than two wires may be positioned within the cavity formed by the inner and outer shells. 'In some applications the wires may be positioned between the inner and outer shells with the explosive charges within the inner shel It is preferred that the outer shell 10 be formed of a rigid material such as metal. There may be an outer cover or the like, not shown, of insulating material. The relative strength and the particular materials of the inner and outer shells will depend on the size of the connector and the size of the explosive charges. The inner shell particularly must be subject to deformation so that the explosive charges which are used to drive the conductors into the wires may have their force transmitted from their confined explosive chambers, through the inner shell and to the head of the conductors. The particular size and shape of the conductors is not important providing that they have a knife-like or insulation piercing portion or area and that they are so constructed so as to receive the maximum benefit of force from the detonated charge.

Whereas the preferred form of the invention has been shown and described herein, it should be realized that there are many modifications, substitutions and alterations thereto which may be made without departing from the fundamental theme of the invention.

What is claimed is:

1. A method of electrically connecting and physically joining at least two insulated wires or the like including the steps of:

placing insulated wires adjacent one another in a cavity of a collapsible shell having at least one insulation piercing member of electrically conductive material positioned therein,

positioning said insulated wires end to end in said cavity and holding said wires in position prior to detonation by means of said insulation piercing member, and

detonating an explosive charge positioned outside of the collapsible shell, and directing the force of the explosive charge to cause the insulation piercing member to penetrate the insulation and contact the wires and thereby form an electrical connection between the wires.

2. The method of claim 1 further characterized by and including the steps of detonating at least one additional explosive charge positioned adjacent a portion of the collapsible shell and directing the force of said last named explosion to move a portion of the collapsible shell into clamping relationship with the wires.

3. The method of claim 2 further characterized in that said first-named confined explosive charge and said additional explosive charges are all detonated simultaneously.

4. The method of claim 2 further characterized in that there are two additional explosive charges, simultaneously detonated for moving spaced portions of the collapsible shell into clamping relationships With the wires.

5. A connector for joining the ends of at least two insulated wires or the like, including:

an outer shell having at least one opening therein formed of a generally nondeformable material,

an inner shell positioned within and spaced from said outer shell, said inner shell having at least one opening therein in alignment with the opening of the outer shell and being formed of a generally deformable material,

an explosive charge positioned between the inner and outer shells, and

a plurality of separate electrically conductive members positioned within the inner shell, said electrically conductive members being generally circumferentially spaced around the inner shell with each having an insulation piercing area directed generally towards the center of the inner shell.

6. The structure of claim further characterized in that both the inner and outer shells have a pair of spaced openings, with each of said openings being arranged to receive at least one insulated wire for positioning within the inner shell.

7. The structure of claim 5 further characterized in that each of said electrical conductive members has a generally centrally located insulation piercing area terminating in a cutting edge.

8. The structure of claim 5 further characterized in that each of said electrically conductive members have wire gripping areas adjacent the insulation piercing area.

9. The structure of claim 5 further characterized in that each of said electrically conductive members is generally wedge-shaped with an insulation piercing area being formed along the small edge.

10. The structure of claim 5 further characterized by and including at least one additional explosive charge positioned between portions of the inner and outer shell, detonation of said additional explosive charge being effective to clamp the inner shell onto the exterior of at least one insulated wire.

11. The structure of claim further characterized by and including a pair of spaced additional explosive charges positioned on opposite sides of the first-named explosive charge, detonation of said last-named explosive charges being effective to clamp the inner shell to spaced portions of the insulated wires positioned within the inner shell.

12. The structure of claim 5 further characterized in that said inner and outer shells each have a pair of openings, said openings being aligned to form spaced wire receiving passages into the inner shell, a pair of additional explosive charges positioned between portions of the inner and outer shells adjacent said wire receiving passages, detonation of said additional charges being effective to clamp the inner shell about an insulated wire positioned within a wire receiving passage.

13. The structure of claim 5 further characterized in that each of said electrically conductive member has a. single knife-like edge extending generally along the length of the member.

14. The structure of claim 5 further characterized by a plurality of explosive charges positioned in defined spaces between the inner and outer shell, a plurality of electrically conductive members, there being an explosive charge positioned near each electrically conductive member.

15. The structure of claim 5 further characterized in that each of said electrically conductive members is generally T-shaped in cross-section with the cross arm of the T located adjacent the collapsible shell and the insulation piercing area being located at the foot of the T.

References Cited UNITED STATES PATENTS 3,320,355 5/1967 Booker l74-84 3,333,046 7/1967 Margis 174-84 3,390,227 6/ 1968 Shlesinger.

DARRELL L. CLAY, Primary Examiner US. Cl. X.R.