| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | Timer | JP3881680 | 1980-03-26 | JPS5653482A | 1981-05-13 | GUREEMU DERETSUKU GUTSUDOMAN |
| 2 | GAS CONTROLLED DELAY TIMING DEVICE | EP13872159 | 2013-11-01 | EP2914924A4 | 2016-07-20 | BERGER RORY |
| 3 | Time delay device and piece of equipment used in combination with such a device | EP80300946.3 | 1980-03-26 | EP0017427A1 | 1980-10-15 | Goodman, Graeme Derek |
A time delay device is adapted to cooperate with a firing device. The time delay device comprises a piston (30) for cooperating with the firing device, a spring (34) to move the piston (30) between a first position in which the firing device remains in a non-operating condition and a second position in which said firing device is allowed to operate, a retractable pin (35) to hold the piston in the first position, a reservoir (42) of fluid adapted to be acted upon by the piston (30) and communicating with a length of small bore or micro-bore tubing (41) whereby upon movement of the piston (30) fluid will be displaced from the reservoir (42) through said tubing (41), with the rate of movement of the piston (30), and therefore the time for the piston )30) to move from the first to the second position under the action of said spring (34), being dictated by the viscosity of the fluid in the reservoir (42) and the length of the tubing (41). A predetermined time delay is therefore produced between actuation by retractiong of the pin (35) and movement of the piston (30) under the action of said spring (34) to the second position to allow operation of the firing device. A temperature compensating device (52) is also disclosed. |
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| 4 | GAS CONTROLLED DELAY TIMING DEVICE | EP13872159.2 | 2013-11-01 | EP2914924A2 | 2015-09-09 | Berger, Rory |
| A delay release device that connects to an aerosol filled canister that releases the aerosol in a delayed manner. The device includes a main body with a first plunger assembly mounted on one end. Formed adjacent to the first plunger assembly is a first chamber filled with a compressed gas pressurized from 40 to 150 psi based on the time delay desired. In the main body adjacent to the first chamber is a second chamber and a third chamber. Located inside the third chamber is a second plunger with a hollow stem introduced into a top valve assembly on the canister. To activate, the first plunger assembly is pressed inward which activates a second valve disposed between the first and second chambers. The second valve allows compressed gas to flow slowly from the first chamber into the second chamber and into the third chamber. The increased air pressure in the upper portion of the third chamber exerts a downward force on the second plunger which forces the hollow stem into canister and causes the aerosol gas to be released into a lower discharge chamber and then through holes formed on the main body. | ||||||
| 5 | Bouchon allumeur pour grenades à mécanisme de retard | EP92403347.5 | 1992-12-09 | EP0546940A1 | 1993-06-16 | Sassier, Pierre-Henri |
Ce bouchon allumeur pour grenade possède un système à sécurités multiples et indépendantes permettant d'avoir une interruption et un désalignement des composants primaires de la chaine pyrotechnique durant les périodes de stockage. En utilisation, on a un retard mécanique de mise en place de la chaine pyrotechnique après lâcher de la cuiller (9), et un deuxième retard mécanique pour déclencher la percussion de l'amorce (13). En cas de mauvais fonctionnement, si le retard de percussion est plus court que le retard de mise en place de la chaîne pyrotechnique, le percuteur vient arrêter le mouvement de mise en place de la chaîne pyrotechnique et le bouchon allumeur est dans ce cas neutralisé. Deux dispositifs à soufflets (28, 29) renfermant un volume d'air communiquant avec l'atmosphère au travers d'un tube capillaire (3) définissent les retards. |
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| 6 | Zünder eines Bomblets | EP90106725.6 | 1990-04-07 | EP0393456A3 | 1992-01-02 | Rüdenauer, Werner; Müller, Fritz; Furtmayr, Joachim |
Ein Zünder eines Bomblets weist einen Schieber(2) auf, in dem ein Detonator(12) für eine Aufschlagzündung angeordnet ist und der im Freiflug des Bomblets von seiner Sicherstellung in seine Scharfstellung übergeht. Um eine Selbstzerlegezeit erst mit der Scharfstellung des Schiebers(2) beginnen zu lassen, sind in dem Schieber(2) eine hydraulische oder pneumatische Zylinder-Kolben-Verzögerungseinrichtung(21) und eine mit dieser gekoppelte Selbstzerlegenadel(15) für einen Selbstzerlegedetonator(14) angeordnet. Die Verzögerungseinrichtung(21) ist blockiert, bis der Schieber(2) in seiner Scharfstellung steht. In Scharfstellung bremst die Verzögerungseinrichtung(21) die Bewegung der Selbstzerlegenadel(15) während der Selbstzerlegezeit. |
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| 7 | Zünder eines Bomblets | EP90106725.6 | 1990-04-07 | EP0393456A2 | 1990-10-24 | Rüdenauer, Werner; Müller, Fritz; Furtmayr, Joachim |
Ein Zünder eines Bomblets weist einen Schieber(2) auf, in dem ein Detonator(12) für eine Aufschlagzündung angeordnet ist und der im Freiflug des Bomblets von seiner Sicherstellung in seine Scharfstellung übergeht. Um eine Selbstzerlegezeit erst mit der Scharfstellung des Schiebers(2) beginnen zu lassen, sind in dem Schieber(2) eine hydraulische oder pneumatische Zylinder-Kolben-Verzögerungseinrichtung(21) und eine mit dieser gekoppelte Selbstzerlegenadel(15) für einen Selbstzerlegedetonator(14) angeordnet. Die Verzögerungseinrichtung(21) ist blockiert, bis der Schieber(2) in seiner Scharfstellung steht. In Scharfstellung bremst die Verzögerungseinrichtung(21) die Bewegung der Selbstzerlegenadel(15) während der Selbstzerlegezeit. |
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| 8 | Time delay device and piece of equipment used in combination with such a device | EP80300946.3 | 1980-03-26 | EP0017427B1 | 1983-10-19 | Goodman, Graeme Derek |
| 9 | Gas-operated timing demolition delay | US724302 | 1996-09-19 | US5753849A | 1998-05-19 | B. Kelley Posey; Bradley Q. Niemann; M. Russel Phinney |
| Time delay apparatus for providing a firing action at the end of a predetermined time-delay period. It is used with a source of fluid under pressure, and defines a fluid-receiving chamber for accumulating the fluid when released from the source. A flow controller is connected between the source and the fluid-receiving chamber for providing fluid communication between the source and the fluid-receiving chamber. A triggering assembly initiates flow of fluid from the source through the flow controller and into the fluid-receiving chamber. A piston-form firing pin in the fluid-receiving chamber is actuated by shear pin release for movement to an actuating position for desired firing action when a predetermined pressure has accumulated in the fluid-receiving chamber at the end of the predetermined time-delay period. | ||||||
| 10 | Fuze for a bomblet | US503874 | 1990-04-03 | US4998476A | 1991-03-12 | Werner Rudenauer; Fritz Muller; Joachim Furtmayr |
| A fuze for a bomblet including a slider in which there is arranged a detonator triggered in response to an impact or percussion, and which undergoes a transition during the free flight of the bomblet from a safe or secured position into an armed position. Arranged in the slider is a hydraulic or penumatic cylinder-piston retarding device and a spring-biased self-destruct pin which is operatively coupled to the device, which has a self-destruct detonator associated therewith, wherein the retarding device is blocked until the slider is generally located in the armed position thereof, and in which the retarding device, in the armed position of the slider, will brake the movement of the self-destruct pin during a self-destruct time period and thereafter will cause the releast of the latter. | ||||||
| 11 | Pressure initiating primer system for projectiles | US37815873 | 1973-07-11 | US3888182A | 1975-06-10 | BREED DAVID S |
| A primer system of this invention includes a housing substantially filled with liquid and containing a sealed primer in intimate association with the liquid such that when the projectile strikes a target with sufficient velocity, a pressure or shock pulse is created within the fluid which initiates the primer.
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| 12 | Mechanical fuzing system | US3603258D | 1968-10-25 | US3603258A | 1971-09-07 | GREEN NORMAN F |
| An all mechanical fuzing system having an arming system, a stabilization timer, an antidisturbance device, a self-destruct timer, and a trip-line release mechanism. The above elements being interconnected so as to be able to (1) arm a mine, (2) actuate the traps associated with the mine, and (3) destruct the mine a predetermined interval of time after arming.
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| 13 | Delay actuator | US3430568D | 1967-10-12 | US3430568A | 1969-03-04 | AMSTER STANLEY A |
| 14 | Fuze with improved time delay and self-destruct mechanism | US59043266 | 1966-10-28 | US3397640A | 1968-08-20 | ZIEMBA RICHARD T; WOLF JOHN W |
| 15 | Fuze for a gyratory projectile | US3118379D | US3118379A | 1964-01-21 | ||
| 16 | G-actuated air controlled time delay | US5510360 | 1960-09-09 | US3077160A | 1963-02-12 | WILLIAMS WILLIAM F |
| 17 | Projectile fuze | US58043156 | 1956-04-20 | US2938462A | 1960-05-31 | WENCKER RUSSELL E |
| 18 | Thermal fuze | US76501158 | 1958-10-02 | US2937596A | 1960-05-24 | MEEK JAMES M; WARREN RAYMOND W |
| 19 | Fuse | US35189640 | 1940-08-08 | US2362123A | 1944-11-07 | DOE THOMAS B; ROSS ELLIOTT P |
| 20 | Fuse | US35189540 | 1940-08-08 | US2330873A | 1943-10-05 | DOE THOMAS B; KENNGOTT ROBERT L |
