Claims
- 1. A safety and arming device for an ordnance fuze comprising:
- a housing receivable within the fuze and longitudinally movable from a first position flush with the top surface of the fuze to a second position protruding above the fuze;
- an arming rotor rotatably supported on the bottom of and longitudinally movable with said housing;
- motive means within said housing to control rotation of said rotor into an armed position only when said rotor is in said second position;
- spring means urging said housing and said arming rotor out of said position to said second position;
- releasable restraining means for maintaining said rotor and said housing in said first position; and
- an electro-responsive explosive device positioned in said arming rotor and forming a part of an explosive arming train in the fuze,
- said rotor being normally held in the safe position with said housing being flush with the fuze and said explosive device being axially and rotationally out-of-line with the explosive arming train.
- 2. The device of claim 1 further comprising retractable means to prevent rotation of said rotor when said housing is in said second position, and said motive means rotates said arming rotor to align said explosive device with the arming train upon withdrawal of said retractable rotation preventing means.
- 3. The device of claim 2 wherein said arming rotor has a butterfly shape to be received in a butterfly-shaped recess in the fuze to prevent rotation of said rotor in said first position.
- 4. The device of claim 3 wherein said motive means to rotate said rotor comprises a sensor responsive to air flow to generate stored energy releasable to rotate said rotor.
- 5. An ordnance fuze having dual out-of-line safe positions comprising:
- a housing adapted to be mounted flush with the surface of the ordnance;
- a recess in the base of said housing;
- an explosive arming train in the base of said housing adjacent said recess;
- a safety and arming device receivable in said housing comprising:
- containment means for a source of power, said means longitudinally movable from a first position flush with the surface of the ordance to a second position protruding above the surface of the ordnance; and
- an arming rotor containing a component of said arming train and rotationally positioned adjacent said containment means, said rotor being receivable in said recess and longitudinally movable with said containment means in said housing from a first axial position with said recess to a second axial position and rotatable only in said second axial position to complete the arming train;
- spring means for urging said containment means and said arming rotor out of said first axial position;
- releasable restraining means for maintaining said containment means and said rotor in said first axial position; and
- means in the containment means for rotating said arming rotor in said second axial position to align said arming train in the armed position.
- 6. The fuze of claim 5 wherein said recess and said rotor are of conforming shapes, said rotor being non-rotatably received in said recess in said first axial position.
- 7. The fuze of claim 6 further comprising retractable means to prevent rotation of said rotor in said second axial position.
- 8. The fuze of claim 7 wherein said containment means is provided with openings for fluid communication with the interior of said containment means.
- 9. The fuze of claim 8 further comprising resilient means adjacent said recess to fix said arming rotor in the armed position after rotation.
- 10. The fuze of claim 9 wherein said releasable restraining means comprises a tearable cover fastened to the surface of the ordnance and overlying said housing.
- 11. The fuze of claim 10 wherein said means for rotating said rotor comprises:
- an environmental sensor adapted for deriving energy from the environment around the ordnance; and
- energy storage means operatively coupled to said environmental sensor and said arming rotor.
- 12. The fuze of claim 11 wherein said energy storage means comprises a torsional spring wound by said environmental sensor to store energy, said torsional spring being released to rotate said arming rotor upon withdrawal of said retractable means.
- 13. The fuze of claim 12 wherein said environmental sensor comprises:
- an edgetone electrical generator responsive to vibrations induced by the air stream to produce electrical energy;
- means to convert the electrical energy to mechanical oscillations; and
- an escapement mechanism operatively coupled to said converter means to torque said torsional spring.
- 14. The fuze of claim 12 wherein said environmental sensor comprises:
- a flutter vane adapted to be oscillation by the air stream; and
- an escapement mechanism coupled to said flutter vane to torque said torsional spring.
- 15. The fuze of claim 12 wherein said environmental sensor comprises:
- an air turbine rotated by the air stream; and
- an escapement mechanism coupled to said air turbine to torque said torsional spring.
- 16. The fuze of claim 12 wherein said arming rotor is butterfly shaped.
- 17. The fuze of claim 12 wherein said resilient means comprises a spring-biased pin cooperating with an aperture in said arming rotor to prevent continued rotation of said rotor and to align said arming train upon withdrawal of said retractable means.
CROSS-REFERENCES TO RELATED APPLICATION
This application is a continuation-in-part of application Ser. No. 322,825 filed Jan. 11, 1973, now abandoned.
US Referenced Citations (5)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
322825 |
Jan 1973 |
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