1 |
一种水下低扰动分离装置 |
CN201610057494.6 |
2016-01-28 |
CN105716477A |
2016-06-29 |
廉斌; 赵家鹏; 刘延平; 吕维乐; 聂晓敏; 吴旌; 尚奇 |
本发明公开了一种水下低干扰分离装置,属于机械结构技术领域。该装置应用于远程自航水雷垂直上浮战斗部,其低扰动分离功能可减少发动机发射的初始干扰,最终实现提高上浮弹道质量,减小弹道散布。服役期间,垂直上浮战斗部通过安装在其尾部的分离装置与锚系两点系留水下隐蔽待击,接到攻击指令,发动机点火,产生的燃气使发动机内压快速增加,当内压达到一定值后,推动分离装置的限位塞切断剪切销,往下运动,解制钢球限位,当发动机的工作压大于环境压力,分离装置内壳移动并与发动机连接法兰分离,带动连接杆脱离上浮战斗部,实现战斗部与锚系分离,开始垂直上浮攻击目标。本发明能够解决水下上浮战斗部的密封、水下两点系留、水下点火解制和水下抗腐蚀、抗寄生等问题。 |
2 |
Method and system for determining a bounding region |
US10863837 |
2004-06-07 |
US07013808B1 |
2006-03-21 |
Joseph J. Perruzzi; Edward J. Hilliard, Jr.; Megan M. Gibson |
A method for determining a bounding region for a launched weapon. The method processes the course and speed of ocean currents, and the bearing and range to an aim point to determine the resultant speed of the launched weapon. The method then processes the resultant speed to determine a course for the weapon. The method also processes the ownship position at launch, the desired aim point and the resultant speed to determine weapon run time. The method provides a mathematical distribution of the uncertainty in the speed and course of the ocean current and then processes it to generate a scatter region of possible weapon positions. The method then processes the distribution function of the mathematical distribution and the desired aim point to determine a plurality of positions that define a bounding region. Finally, the method quantifies possible positions of the scatter region that are within the bounding region. |
3 |
Railway truck bolster friction assembly |
US436926 |
1982-10-26 |
USRE31784E |
1985-01-01 |
Donald Wiebe |
A railway freight truck bolster friction assembly and more particularly improved friction assemblies of elastomeric material which are adapted to be captively retained intermediate an axial end portion of a bolster member and an adjacent side frame. |
4 |
Case mounted mooring system |
US97480 |
1979-11-26 |
US4301734A |
1981-11-24 |
Frank Peregrim; James B. Johnson; Gerhard B. Winkler |
A system for mooring a buoyant case such as a marine mine or other marine vice at a preselected depth below the surface of the water in which the case was launched. After the case has been launched, together with an attached anchor, the anchor and case separate to the extent of a resilient line as they descend through the water. When the case passes through a first preselected depth the resilient line is released from the case, thereby permitting a mooring line, which is connected in series between the resilient line and the case, to payout. As the mooring line unwinds the anchor descends to the ocean floor while the buoyant case ascends toward the surface. When the case ascends through a second preselected depth a brake assembly is activated to stop the payout of the mooring line. After the case has been positioned at the second depth, a locking assembly fixes the position of the case at the mooring depth. |
5 |
Releasing device |
US949988 |
1978-10-10 |
US4230040A |
1980-10-28 |
Jan Bjork; Jan T. Olsson; Bo S. Lindgren; Arne G. Borg; Jan A. R. Andersson |
A releasing device for disconnecting a buoyant body from an anchor a predetermined period after having been sunk into water.In order to accomplish a reliable device, which may be stored for very long periods of time, a piston is movable in a cylinder under the influence of a spring and a water pressure differential. The piston controls the disconnection of the buoyant body and the anchor, as the cylinder is connected to one part and the piston will release an element connected to the other part in a disconnecting position under the influence of the spring. |
6 |
Minesweep obstructor with cable dispensing means |
US495369 |
1955-03-18 |
US4185550A |
1980-01-29 |
Charles C. Vogt; Royal Weller |
1. In a mooring device for an aerial launched mine adapted to be dropped into a body of water, in combination, a buoyant member, a casing releasably locked to said member and separable therefrom upon impact of the device with the water, locking means including a plurality of detents carried by said casing for releasably locking the casing to said member, impact responsive means mounted on the casing for releasing said locking means in response to said impact, and a length of mooring cable arranged to be payed out as the casing separates from said member and sinks to the bed of the body of water for mooring the mine beneath the surface of the water. |
7 |
Cable dispensing and locking means |
US52165466 |
1966-01-19 |
US3336892A |
1967-08-22 |
BARRY GERALD J; HARKER THOMAS B |
|
8 |
Automatically released couplings |
US39565964 |
1964-09-11 |
US3287781A |
1966-11-29 |
PEREZ GEORGE R; PEREZ JUAN A |
|
9 |
Depth regulation device |
US58332445 |
1945-03-17 |
US3109370A |
1963-11-05 |
ELMER WILLIAM B; SMITH CHARLES W |
|
10 |
Vibratory dynamic force meter |
US74017358 |
1958-06-05 |
US3024645A |
1962-03-13 |
CHRISTOPH WALTER P |
|
11 |
Anchor ejecting moored mine |
US19990550 |
1950-12-08 |
US2892401A |
1959-06-30 |
LOUIS MICHELSON |
|
12 |
Fair-lead for mine anchors |
US44767342 |
1942-06-19 |
US2631819A |
1953-03-17 |
DUNCAN ROBERT C |
|
13 |
Mine |
US32188640 |
1940-03-02 |
US2352226A |
1944-06-27 |
ADOLPH RONNING |
|
14 |
Submarine mine |
US31563728 |
1928-10-29 |
US1812370A |
1931-06-30 |
BLYTH PRATT HARTLEY |
|
15 |
Submarine mine |
US75314324 |
1924-12-01 |
US1546921A |
1925-07-21 |
EMANUELE ELIA GIOVANNI |
|
16 |
Submarine contact mine |
US20086017 |
1917-11-08 |
US1535633A |
1925-04-28 |
SPERRY ELMER A |
|
17 |
Mine |
US56422922 |
1922-05-27 |
US1531550A |
1925-03-31 |
GLENNON JAMES B |
|
18 |
Mine |
US66566623 |
1923-09-29 |
US1527770A |
1925-02-24 |
ASHBROOK ALLAN W; HICKMAN CLARENCE N |
|
19 |
huber |
US1314657D |
|
US1314657A |
1919-09-02 |
|
|
20 |
James huber |
US1314656D |
|
US1314656A |
1919-09-02 |
|
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