US3323458A

US3323458A - Thermal fuze

Info

Publication number: US3323458A
Application number: US391820A
Authority: US
Inventors: Jr Henry W Hartmann
Original assignee: Individual
Current assignee: Individual
Priority date: 1964-08-24
Filing date: 1964-08-24
Publication date: 1967-06-06
Anticipated expiration: 1984-06-06

Description

June 9 1967 H. w. HARTMANN, JR 3,

THERMAL FUZE 2 Sheets-Sheet l Filed Aug. 24, 1964 xx/z 0 ///N INVENTOR. HENY W. HARTMANN, JR.

* EYS ATTOR June 6, 1967 H. w. HARTMANN, JR &

THERMAL FUZE 2 Sheets-Sheet 2 Filed Aug. 24, 1964 INVENTOR. HENRY W. HRTMANNMR ATTORNEYS United States Patent O 3,323,458 THERMAL FUZE Henry W. Hartmam, Jr., 58 Van Duyne Ave., Wayne, NJ. 07470 Filed Aug. 24, 1964, Ser. No. 391320 14 Claims. (Cl. loz-70.2

The invention described herein may be manufactured and used by or for the Government for governmental purposes without the payment to me of any royalty thereon.

This invention relates to fuzes and, more particularly, to a fuze for protection against premature arming or detonating of a nuclear device during uncontrolled exposure to high temperatures, such as that of a warehouse fire.

One of the objects of the invention is to provide a thermal fuze having means for actuating a nuclear device which is automatically rendered ineffective at predetermined high temperature environments.

Another object of the invention is to provide such a fuze with an electrically separate but mechanically interlocked monitoring circuit capable of readily indicating the condition of the actuating means.

A further object of the invention is to provide a thermal fuze having high sensi-bility to external temperature combined with insensitivity to internally liberated heat.

Another object of the invention is to provide such a fuze having an internal chamber inherently resistant to out-gassing vapors.

A further object of the invention is to provide a temperature sensitive electrical fuze that is resistant to contact chatter When subjected to powerful Vibration or mechanical shock.

A further object of the invention is to provide a thermal -fuze of high inherent reliability.

In one aspect of the invention a thermal fuze includes separate terminals in one electric circuit that are normally connected by a switch means, a monitoring spring in an electrically separate monitoring circuit and releasably connected to the switch means, and means for opening the switch means upon disconnection of the monitoring spring therefrom.

In another aspect of the 'invention the fuze includes a housin having a shell portion of electrically non-conductive material in which the terminals are mounted, the switch means includes an apertured disk, and a reduced portion of a headed elongated member extends through both the apertured disk and a shell opening with the reduced portion free end positioned exteriorly of the housing and fused to an end of the monitoring spring so that the head is urged toward the disk in opposition to a biasing means.

i In further aspects of the invention the electrically conductive disk and terminal elements within the housing are substantially isol ated from the fusing media by ceram-ic material, and the disk includes a central hub section and a plurality of radially extending cantilevered leaf-spring t-abs that normally electrically connect with the terminals.

These and other aspects, features and advantages will 'become apparent from the following description and accompanying drawings in which:

FIG. 1 is a top plan view of the thermal fuze constructed in accordance With the principles of the invention;

FIG. 2 is a sectional view taken along line 2 2 of FIG. 1 with the parts in position to establish electrical continuity across the terminals; and

FIG. 3 is a View similar to FIG. 2 with the electrical continuity interrupted.

The housing, shown generally at 10, referably includes a brass base 11 having a peripheral upst anding annulus 12 the upper portion of which is crimped inwardly and solder connected at 13 to an appropriately flanged annular metal ring 14 which is molded in the lower portion of an inveted substantially cup-like ceramic shell 15. The shell 15 is provided with suitable openings, preferably diametrcally opposed, for reception of

copper terminals

17, 17, the outer ends of which protrude from

insulating sleeves

18, 18 in position -for respective connections to a source of electrical power (not shown) and nuclear weapon arming or detonating media (also not shown) adapted to be actuated thereby. The walls of the shell openings each include a terminal seal 19 positioned adjacent one of a pair of split or physically separate conducting

ring portions

20, 20. The ring portions are molded into the electrically nonconductive ceramic shell 15, as are the terminal seals 19, in such a manner as to preclude normal electrical conductivity between the ring portions. The lower surface of each ring portion 20 is crowned at 21 and plated with silver to enhance contact conductance with a switch means 22 for establishing current flow across the

terminals

17, 17 under predetermined norma-l temperature conditions.

The switch 22 preferably is in the nature of a forrned copper disk having a suitably apertured central hub portion 23 and a plurality of split cantilevered leaf-spring tabs 24 extending radially therefrorn. Each of the spaced tabs 24 is normally upw ardly curved (FIG. 3) from the central hub and extends outwardly a distance sufficient to underlie and make a firm contact with the annular crown 21 when the disk is positioned in its uppermost extremity (FIG. 2) against the force of biasing helical spring 25. The top of shell 15 extends across the fuze body and the central portion thereof is offset down-wardly to :form recess 26 in which a hollow substantially cylindrical member 27 is positioned in an appropriately sealed manner. The bottom wall 28 of the recess has a central opening 29 vertically aligned with the guide cylinder bore 30 for upward reception of the reduced portion 31 of a headed elongated copper member or nail 32 A ceramic eyelet or flanged bushing 33 telescopes the nail with 'its lower flange supported on the upper surface of the nail head. The eyelet engages the ceramic shell ofiset to electrically insulate or separate the nail and disk when they are in their FIG. 2 elevated position.

Ths undersurface of the shell top is provided with an elongated recess 34 surrounding the ofifset and in which is seated one end of the spring 25. The recess 34 is properly dimensioned to receive the spring with a relatively close-fit tolerance to preclude slippage of coils past one another should the spring rupture. The other end of the spring exerts a downward force against the disk tabs 24 to positively move the tabs away from the crown when any force opposing the spring has 'been removed.

To the free end of the nail reduced portion, innermost ends of a pair `of transversely extending monitoring springs 35 (FIG. 1) are solder connected by a fusible alloy 36, which melts at a predetermined temperature environment, the connection serving to urge or hold the nail head and switch upwardly against the force of the compressed spring 25 (FIG. 2). Preferably, the normally straight monitorin-g springs 35 a-re connected in a bowed or curved position between the releasable or meltable fusion connection and respective anchoring brass inserts 37 located at diametrically opposed edges of the shell top. 'l'he insert ends of the monitoring springs serve as 'terminals for

electrical wires

38, 38 to complete an electrically separate monitoring circuit which may include any form of indicating means such as lamp 39` to denote the breaking of the circuit simultaneously with the opening of switch 22 in the first nuclear actuation circuit when t-he fused connection 36 melts to release the nail 32 and springs 3'5, 35. Of course, visual observance of springs 35 will render .the same function in ascertaining when the selected, highly sensitive, fusible alloy has experienced an unsatisfactorily high temperature. The monitoring springs 3 35 also act as fins to assist the fusion alloy in sensing outside temperature deviations.

The electrically conductive disk 22 and terminal elements within the housing are substantially isola-ted from the sensitive fusible alloy by the ceramic materials in the shell top and eyelet 33. This minimizes the influence of any heat generated internally from the electric current on the triggering of the thermal fuze.

The hermetically sealed fuze charnber 40 preferably is evacuated via a small elongated hole 41 drilled through the center of the threaded stud 42 of the base Ll. A nut or securing means 43 having suflicient thread-length permits attachment to a unit for purging and pressurizing the chamber 40 with an inert, dry gas prior to pluggng or wedging the hole 41 with a small tapered metal pin 44 which may be further sealed in position with solder.

The actuating temperature of the thermal fuze can be readily altered by employing fusible alloys from a variety having selective melting temperatures.

Various changes, alterations or modifications may be resorted to without departing from the scope of the invention as defined in the appended claims.

*I claim: 1. In a temperature sensitive electrical fuze having a housing with a shell portion of electrically non-conductive material.

separate terminals mounted in said shell portion,

means including an apertured disk normally connecting said terminals in a first electrical circuit,

a headed elongated member having its reduced portion extending through both said apertured disk and an opening in said shell,

a monitoring spring in an electrically separate monitoring circuit,

means fusing said spring to said elongated member and urgin-g the head of said elongated member toward said disk, and

means biasing said disk toward said head in opposition to said urging means,

so constructed and arranged that when the fusing means experiences a predetermined temperature environment it will melt and said biasing means will move said disk and head away from said terminals -to break electrical continuity therebetween.

2. The structure of claim 1 wherein said spring is fused to said elongated member reduced portion.

3. The structure of claim 1 in which said reduced portion has its free end positioned exteriorly of said housing, and said spring being fused to said elongated member free end.

4. The structure of claim 1 wherein said disk and separate terminals within said housing are substantially isolated from said fusion means by ceramic material.

5. The arrangement of claim 1 in which said housing defines an hermetically sealed chamber containing said disk, and said housing has apertured means for releasing vapors from within said chamber.

6. The fuze as defined in claim 1 wherein said disk is provided with a central hub section and a plurality of 'radially extending tabs that normally electrically connect with said terminals.

7. The fuze of claim 1 in which a ceramic eyelet is positioned intermediate said disk and elongated member.

8. T he fuze of claim 1 wherein said biasing means comprises a helical spring having one end seated with a close fit in an elongated recess formed in said shell portion and the other end engaging said disk.

9 A thermal fuze for protecting nuclear weapons against premature arming and detonation during uncontrolled exposure to fire comprising,

a housing for a fuze and including a shell portion of electrically non-conductive material,

separate terminals mounted in said shell portion for connection respectively to a source of electrical power and nuclear weapon arming or detonating media adapted to be actuated thereby,

means normally connecting said terminals in a first electrical circuit for electrical con-tinuity therebetween including an apertured disk of electrically conductive material,

a headed elongated member having its reduced portion extending through both said apertured disk and an opening in said shell, said reduced portion having its free end positioned exteriorily of said housing,

a monitoring spring in an electrically separate monitoring circuit and extending transversely of said elongated member,

means fusing an end of said spring to said free end of said elongated member and urging the head of said elongated member toward said disk, and

means biasing said disk toward said head in opposition to said urging means,

so constructed and airranged that when the fusing means experiences a predetermined temperature environment it will melt and said biasing means will move said disk and head away from said terminals to break electrical continuity therebetween.

10. A therm al fuze in accordance with claim 9 wherein the electrically conductive disk and terminal elements within said housing are substantially isolated from said fusion means by ceramic material.

11. A thermal uze in accordance with claim 9 in which said housing defines an hermetically sealed chamber containing said disk, and said housing has apertured means for releasing vapors from within said chamber.

1:2. A thermal fuze as defined in claim 9 wherein said disk is provided with a central hub section and a plurality of radially extending cantilevered leaf-spring tabs which normally electrically connect with said terminals.

13. A thermal fuze as defined in claim 9 in which a ceramic eyelet is positioned intermediate said disk and elongated member.

.14. A thermal fuze in accordance with claim 9 wherein said biasng means comprises a helical spring having one end seated with a close fit in an elongated recess formed in said shell portion and the other end engaging said disk.

References Cited UNITED STATES PATENTS 2,696,539 12/1954 Peterson 200--114 2,749,409 6/1956 Kay 200-142 2,775,942 1/1957 Dell et al. 102-70.2 2,934,622 4/1960 Massar 200-114 2,994,269 8/1961 Schlumberger --70.2 X 3,167,018 1/1965 Brunner 102-702 3,171,924 3/1965 Lohman 200--142 BENJAMIN A. BORCHELT, Pr'may Examne'.

G. H. GLANZMAN, Assistant Exam'er.

Claims

1. IN A TEMPERATURE SENSITIVE ELECTRICAL FUZE HAVING A HOUSING WITH A SHELL PORTION OF ELECTRICALLY NON-CONDUCTIVE MATERIAL. SEPARATE TERMINALS MOUNTED IN SAID SHELL PORTION, MEANS INCLUDING AN APERTURED DISK NORMALLY CONNECTING SAID TERMINALS IN A FIRST ELECTRICAL CIRCUIT, A HEADED ELONGATED MEMBER HAVING ITS REDUCED PORTION EXTENDING THROUGH BOTH SAID APERTURED DISK AND AN OPENING IN SAID SHELL, A MONITORING SPRING IN AN ELECTRICALLY SEPARATE MONITORING CIRCUIT, MEANS FUSING SAID SPRING TO SAID ELONGATED MEMBER AND URGING THE HEAD OF SAID ELONGATED MEMBER TOWARD SAID DISK, AND