41 |
Timer |
US57528156 |
1956-03-30 |
US2822692A |
1958-02-11 |
JACOBSON JAMES W A; BROOKS ROBERT B |
|
42 |
Clockwork for mechanical time fuses |
US48143255 |
1955-01-12 |
US2814251A |
1957-11-26 |
GEORGES KUHN; FRANCIS LIENGME |
|
43 |
Delay action fuse |
US65646146 |
1946-03-22 |
US2514499A |
1950-07-11 |
KHARASCH MORRIS S; WESTHEIMER FRANK H |
|
44 |
Time fuse |
US29812839 |
1939-10-05 |
US2453479A |
1948-11-09 |
WHITEHEAD RICHARD H |
|
45 |
Clockwork-operated time fuse |
US44802642 |
1942-06-22 |
US2446745A |
1948-08-10 |
FERNAND DELAY |
|
46 |
Timing mechanism |
US26031139 |
1939-03-07 |
US2440677A |
1948-05-04 |
FIX EUGENE J |
|
47 |
Regulating mechanism for time fuses |
US28074039 |
1939-06-20 |
US2430628A |
1947-11-11 |
WHITEHEAD RICHARD H |
|
48 |
Attachment of hair springs to arbors |
US24791938 |
1938-12-27 |
US2425017A |
1947-08-05 |
ROTH WENTZ RALPH |
|
49 |
Means for securing hairsprings to arbors |
US25241839 |
1939-01-23 |
US2329710A |
1943-09-21 |
FIX EUGENE J |
|
50 |
Mechanical time fuse with clockwork |
US43005130 |
1930-02-20 |
US1786664A |
1930-12-30 |
PAUL LIEBERGELD |
|
51 |
Clockwork-operated mechanical fuse for artillery projectiles |
US3969925 |
1925-06-26 |
US1586342A |
1926-05-25 |
ANDRE VARAUD |
|
52 |
Spring regulator |
US28625 |
1925-01-02 |
US1556907A |
1925-10-13 |
BOLD FREDERICK W |
|
53 |
Mechanical time-fuse |
US40874420 |
1920-09-07 |
US1362519A |
1920-12-14 |
ULRICH WILCK |
|
54 |
Variable distance detonation mechanism |
US12209519 |
2008-09-12 |
US07958826B2 |
2011-06-14 |
Robert S. Thomas, III; Edward C. Waters, III |
A grenade includes an explosion chamber having an explosive charge to which an ignition charge is connected. The grenade also includes a primer and trigger coupled to the ignition charge for detonation of the explosive charge held within the explosion chamber. A variable distance detonation mechanism has a trigger and primer for allowing controlled detonation of the grenade a specific distance from the launch point thereof. |
55 |
VARIABLE DISTANCE DETONATION MECHANISM |
US12209519 |
2008-09-12 |
US20100288154A1 |
2010-11-18 |
Robert S. Thomas, III; Edward C. Waters, III |
A grenade includes an explosion chamber having an explosive charge to which an ignition charge is connected. The grenade also includes coupling to the ignition charge for detonation of the explosive charge held within the explosion chamber. A variable distance detonation mechanism has a trigger and primer for allowing controlled detonation of the grenade a specific distance from the launch point thereof. |
56 |
Detached lever timing movement for mechanical time fuze |
US77423168 |
1968-11-06 |
US3871298A |
1975-03-18 |
POPOVITCH DRAGOLYOUB; NYSTROM ROY B; ENEMAN MELVIN; BIRO CARL; ALPERT SELWYN |
This invention relates to a timing mechanism for a mechanical fuze. The timing movement utilizes the detached lever escapement principle and is designed with elements having a minimum of masses, pivot diameters and eccentricities from the spin axis, so that sensitivity to the effects of spin and setback in excess of 30,000 rpm and 30,000 g''s, is reduced.
|
57 |
Air-driven turbine safe and arm arrangement for a free-falling ordnance device |
US36499673 |
1973-05-29 |
US3842743A |
1974-10-22 |
ZITTLE C |
A fail-safe, ordnance fuzing apparatus for a free-falling missile. The apparatus is characterized in that the arming arrangement does not utilize stored energy but instead relies upon the necessary energy being extracted from the air stream itself during free-fall. Two independent mechanisms must properly interact during the appropriate arming cycle. The first is a torsion spring mechanism activated by an air turbine during a predetermined time interval. The second is a clock timer apparatus which releases the torsion spring to complete the remainder of the arming cycle. The failure of either independent mechanism results in the failure of the ordnance device to be properly armed.
|
58 |
Time fuze adjustment |
US32017473 |
1973-01-02 |
US3824889A |
1974-07-23 |
MULLER J; KAISER P; KAISER H |
A time fuze is provided with adjustable means for setting the time delay and time range thereof. These adjustments may be made by an adjusting device in a single operation wherein the time delay is set in response to rotation of the adjusting device on the fuze, and the time range is set in response to axial movement of the adjusting device on the fuze.
|
59 |
Stop arrangement for limiting the tensioning of the drive spring of a fuze clockwork-movement |
US3489090D |
1967-12-11 |
US3489090A |
1970-01-13 |
SIMMEN ROBERT |
|
60 |
Projectile impact fuze |
US53490166 |
1966-03-16 |
US3352241A |
1967-11-14 |
ANDRE COMBOURIEUX |
|