| 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 | Method and device for triggering missile | JP13198592 | 1992-04-24 | JPH05302800A | 1993-11-16 | NITTA TERUHISA |
| PURPOSE: To explode a missile near an objective with a high accuracy and increase the number of launching of the missile per unit time. CONSTITUTION: A laser projector 12 having a laser projector for firing, which is capable of projecting a laser beam for trigger command against a missile 14, launched out of a launcher 10 and flying, is provided. The missile 14 is provided with a photo detecting unit, receiving the laser beam for firing command and is reacted against the beam to output a triggering signal, and a photo detecting and triggering circuit, inputting the triggering signal from the photo detecting unit and provided with a triggering circuit for triggering the missile 14. COPYRIGHT: (C)1993,JPO&Japio | ||||||
| 2 | Genkaikairo | JP1310376 | 1976-02-09 | JPS51105587A | 1976-09-18 | KIERU ARUNE HOOKAN GUSUTAFUSON |
| 3 | Method of control of an ammunition or submunition, attack system, ammunition and designator implementing such a method | US11415180 | 2006-05-02 | US07745767B2 | 2010-06-29 | Thierry J. M Bredy |
| The object of the invention is a method of control of an ammunition or submunition, and in particular of the control of initiation of fire and/or of control of a trajectory correction and/or of a direction of fire, from a target detection. The method consists of the following steps: (1) a field zone (2) is sweeped from the ammunition (6) or submunition using a laser beam (10), (2) a potential target (1) located on the field is spotted using a passive surveillance means (4), and (3) when the means of passive surveillance (4) detects the laser beam (10) transmitted by the ammunition or submunition, the transmission of an order of confirmation is controlled and/or of at least one off-target data via the means of surveillance (4) and towards the ammunition or submunition. | ||||||
| 4 | Method of control of an ammunition or submunition, attack system, ammunition and designator implementing such a method | US11415180 | 2006-05-02 | US20070028791A1 | 2007-02-08 | Thierry Bredy |
| The object of the invention is a method of control of an ammunition or submunition, and in particular of the control of initiation of fire and/or of control of a trajectory correction and/or of a direction of fire, from a target detection, wherein the method consists of the following steps: a field zone (2) is sweeped from the ammunition (6) or submunition using a laser beam (10), a potential target (1) located on the field is spotted using a passive surveillance means (4), when the means of passive surveillance (4) detects the laser beam (10) transmitted by the ammunition or submunition, the transmission of an order of confirmation is controlled and/or of at least one off-target data via the means of surveillance (4) and towards the ammunition or submunition. The object of the invention is also an attack system associating an ammunition and a designator and implementing such a method. | ||||||
| 5 | Modular laser apparatus | US303860 | 1994-09-09 | US5584137A | 1996-12-17 | James W. Teetzel |
| A laser sight that can be fits conventional handguns and rifles without requiring major modification of the weapons and yet fits within the profile of the weapons framework. The invention features a chassis containing an infrared and visible red laser than can be mounted in various position, depending on the weapon selected. For a 9 mm handgun, the chassis mounts on the front face of the muzzle. For a M-16, the chassis mounts on the weapon handle. The weapons factory installed hand grips are replaced by modified hand grips that contain the laser electronic controls, water proof activation switches, and power source. The hand grips are wired to the chassis via a flexible internal circuit tape in the case of the 9mm and waterproof quick disconnect cable for the M-16. The apparatus is designed to be used with commercially available batteries providing about 12 hours of operating time. | ||||||
| 6 | Remote settable fuze information link | US321405 | 1973-01-05 | US4144815A | 1979-03-20 | Allen R. Cumming; Clyde O. Peterson |
| A system permitting VT (Variable Time) fuze setting information to be transmitted thereto from a remote fire control source via a microwave link when the fuze is chambered in a gun barrel prior to the firing of an artillery shell to which the fuze is affixed. Sufficient microwave power is initially transmitted to the fuze by means of the barrel acting as a microwave transmission line wherein the microwave power received is converted to a DC voltage which is stored and used to bias the fuze circuitry which subsequently receives binary detonating data AM modulated on a microwave carrier. | ||||||
| 7 | Threshold circuit | US653324 | 1976-01-29 | US4056738A | 1977-11-01 | Kjell Arne Hakan Gustafson |
| A threshold circuit for signal receiving equipment, particularly optical signals travelling to or from a rapidly flying object comprises a threshold determining device having an input accepting signal and noise pulses and an output emitting transmitted pulses which correspond to the signal and noise pulses that pass the threshold unit. Control circuits determine the threshold that is employed in response to the received signal and noise pulses. If the received signal and noise pulses have a relatively low amplitude, a relatively low predetermined threshold is employed. If the received noise and/or signal pulses increase in amplitude for a sufficient length of time, the control circuits respond by raising the threshold. | ||||||
| 8 | METHOD AND APPARATUS FOR IMPROVING THE AIM OF A WEAPON STATION, FIRING A POINT-DETONATING OR AN AIR-BURST PROJECTILE | US15860792 | 2018-01-03 | US20180231354A1 | 2018-08-16 | KEVIN MICHAEL SULLIVAN |
| The method and apparatus for a remote weapon station or incorporated into manually-aimed weapons. The methodology requires use of a muzzle velocity sensor that refines the aiming of the second and subsequent fires or volleys fired from weapon systems. When firing the first volley a weapon uses an estimated velocity and, at firing, the muzzle velocity of a projectile is measured. When firing the second volley a weapon's fire control calculates an aiming point using the measured velocity of the first volley. | ||||||
| 9 | Laser detonated projectile apparatus | US488648 | 1995-06-07 | US5526749A | 1996-06-18 | James W. Teetzel |
| An intelligent projectile that can be detonated at a predetermined range via a wide angle infrared laser. The projectile is fitted with a detector that is sensitive to the frequency of a wide angle laser beam that is attached to the weapon. Using the range obtained by the range finder, the wide angle laser beam is fired when the projectile is in proper position relative to the target. To prevent the projectile from exploding prior to its being fired, a series of batteries is held in a track via compressions springs. The springs must be compressed via centrifugal force due to the projectile spinning as a resulting of rifling in the weapon. Once, sufficient centrifugal force is reached, the batteries will slide into a "contact" position so that the projectile can be detonated. The apparatus fits within standard 40 mm shell casings and can be fired by conventional grenade launching weapons. | ||||||
| 10 | Concealed laser module sight apparatus | US73766 | 1993-06-08 | US5355608A | 1994-10-18 | James W. Teetzel |
| A laser sight that can be concealed within a standard autoloading handgun. The invention features a chassis that is mounted to the front face of the slide of the handgun. The chassis has the same cross-sectional profile of the handgun and extends the slide by only about three quarters of an inch. Therefore, the handgun can be carried in standard holsters. The standard spring recoil guide is replaced by a novel battery pack designed to be used with commercially available batteries providing about 12 hours of operating time. The device is activated by a three different membrane switches, one on the chassis itself to select between an infrared laser, a "red" laser, and an incandescent light; a second membrane switch on the trigger which activates the sight when a slight pressure is applied; a third membrane switch located on the side of the frame so that the sight can be activated without placing a finger on the trigger. A delay feature is featured with the third switch so the user can move his finger from the frame switch to the trigger switch without the sight being turned off. | ||||||
| 11 | Fuzing systems for projectiles | US841316 | 1977-10-07 | US5196644A | 1993-03-23 | Leslie G. Knight; Trevor W. Waters |
| An explosive projectile, eg an anti-tank shell, is fitted with a light-sensitive fuze enabling it to be detonated by a laser pulse transmitted at a time after firing the projectile determined by the pre-determined range to the target and the known velocity of the projectile. The fuze is located in the base of the shell (in addition to the usual impact fuze) with the light-signal detector, eg a photo-diode, facing backwards. The detector is connected to the initiator via "fast" electronic circuitry so that the fuze is insensitive to "slow" or "DC" light signals such as the sun, searchlights etc. The laser beam is made slightly divergent to illuminate a suitable target area. The invention allows an anti-tank shell, normally loaded in the tank gun, to be used effectively against "soft" targets (troops, helicopters, etc) for which a direct hit is not necessary. The laser may be part of the gun range-finder system. | ||||||
| 12 | Rotating warhead | US743178 | 1985-06-10 | US4657208A | 1987-04-14 | Walter E. Miller, Jr.; Robert R. Mitchell |
| The method achieves a top soft armor attack with the favorable attack ang In addition it eliminates the wiping motion. This is accomplished by a small upward exhausting thruster over the warhead. This thruster, activated on command from the launch station, institutes a rapid pitch down rotation of the missile imparting an angular momentum. This angular momentum produces a jet wiping effect in the opposite direction of that produced by the missile forward flight. | ||||||
| 13 | Laser-guided ring airfoil projectile | US41932273 | 1973-11-27 | US3912197A | 1975-10-14 | MCKOWN GARY L; AMBROSINI LEONARD R |
| A system to control and correct the flight characteristics of a ring airfoil projectile while in flight. A pulsed laser system located at the projectile launch site transmits a light beam along the desired projectile flight path. A receiving system aboard the projectile detects the light beam and sends signals to control elements to maintain the projectile on the flight path. The laser beam can also be used to send arming and/or detonation signals to the projectile warhead.
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| 14 | Anti-fratricide responsive ordnance system | US13847587 | 2013-03-20 | US08943942B1 | 2015-02-03 | Stephen F. Bartolucci |
| An anti-fratricide responsive ordnance system that uses the power of a friendly radio frequency signal to detect and identify a friendly force. Upon identification, an electronic safe and arm device disarms the munition when it enters a kill radius of the friendly force emitting the friendly radio signal. | ||||||
| 15 | Apparatus for attaching a flashlight to a firearm | US488631 | 1995-06-08 | US5685105A | 1997-11-11 | James W. Teetzel |
| A flashlight module that can fit conventional handguns and rifles without requiring major modification of the weapons and yet fits within the profile of the weapons framework. The invention features a chassis containing a flashlight that can be mounted in various positions, depending on the weapon selected. For a handgun, the chassis mounts on the front face of the muzzle. The weapons factory installed hand grips are replaced by modified hand grips that contain the flashlight electronic controls, water proof activation switches, and power source. The hand grips are wired to the chassis via a flexible internal circuit tape in the case of the 9 mm and waterproof quick disconnect cable for the M-16. The apparatus is designed to be used with commercially available batteries providing several hours of operating time. | ||||||
| 16 | Laser range finding apparatus | US488649 | 1995-06-08 | US5669174A | 1997-09-23 | James W. Teetzel |
| A laser range finder that is modular so that it can mounted on different weapon platforms. A pulsed infrared laser beam is reflected off the target. The timed return signal is then used to measure the distance. Another laser, either a visible laser or another infrared laser of differing frequency, is used to place a spot on the intended target. Notch pass optical filters serve to eliminate ambient light interference from the second laser. The range finder using projectile information stored in the unit processes the calculated distance to raise or lower the finder on the weapon. A plurality of weapon platforms and projectile is selected by pressing the desired rubberized keypad. The range finder can be used with a laser detonated projectile that can be detonated when the projectile is over the target. The projectile is fitted with a detector that is sensitive to the frequency of a wide angle laser beam that is attached to the weapon. Using the range obtained by the range finder, the wide angle laser beam is fired when the projectile is in proper position relative to the target. | ||||||
| 17 | Laser range finding apparatus | US349375 | 1994-12-05 | US5555662A | 1996-09-17 | James W. Teetzel |
| A laser range finder that is modular so that it can mounted on different weapon platforms. A pulsed infrared laser beam is reflected off the target. The timed return signal is then used to measure the distance. Another laser, either a visible laser or another infrared laser of differing frequency, is used to place a spot on the intended target. Notch pass optical filters serve to eliminate ambient light interference from the second laser. The range finder using projectile information stored in the unit processes the calculated distance to raise or lower the finder on the weapon. A plurality of weapon platforms and projectile is selected by pressing the desired rubberized keypad. The range finder can-be used with a laser detonated projectile that can be detonated when the projectile is over the target. The projectile is fitted with a detector that is sensitive to the frequency of a wide angle laser beam that is attached to the weapon. Using the range obtained by the range finder, the wide angle laser beam is fired when the projectile is in proper position relative to the target. | ||||||
| 18 | Switch apparatus | US349369 | 1994-12-05 | US5522167A | 1996-06-04 | James W. Teetzel |
| A tritium switch that can be easily fitted to standard laser sight that can be easily adapted to fit standard semi-automatic handguns or to standard military rifles such as an M-16. The switch is also useful as a safety interlock switch on machinery requiring electrical power. With a firearm, the switch allows the user to engage and disengage the laser sight without the necessity of reaching a special button or part of the weapon. The switch can be fitted to a standard trigger of the weapon so that the switch can be thrown as the user readies the weapon for firing. The switch is fabricated from using commercially available parts. The emitter portion of the switch, that is, the tritium vile requires no power and the detector portion, a low power consuming photoelectric cell, can be powered by commercially available batteries, providing a long service life before needing to be changed. | ||||||
| 19 | Laser module apparatus | US200204 | 1994-02-23 | US5481819A | 1996-01-09 | James W. Teetzel |
| A laser sight that can be fits conventional handguns and rifles without requiring major modification of the weapons and yet fits within the profile of the weapons framework. The invention features a chassis containing an infrared and visible red laser than can be mounted in various position, depending on the weapon selected. For a 9 mm handgun, the chassis mounts on the front face of the muzzle. For a M-16, the chassis mounts on the weapon handle. The weapons factory installed hand grips are replaced by modified hand grips that contain the laser electronic controls, water proof activation switches, and power source. The hand grips are wired to the chassis via a flexible internal circuit tape in the case of the 9 mm and waterproof quick disconnect cable for the M-16. The apparatus is designed to be used with commercially available batteries providing about 12 hours of operating time. | ||||||
| 20 | Laser module and silencer apparatus | US89889 | 1993-07-12 | US5425299A | 1995-06-20 | James W. Teetzel |
| A silencer apparatus that can be attached to a standard autoloading handgun having a laser sight module mounted to the front face of the slide of the handgun. The silencer module features additional electronics so that the firing status of the firearm can be ascertained. A skid plate protected switch in the magazine compartment of the handgun provides information as to whether a new clip has been inserted. A flash detector located within the silencer counts the rounds fired and provides a digital read-out of remaining rounds to be fired. Also, the accumulated fired rounds is provided to enable the user to know when the silencer needs cleaning. Noise reduction is provided by a metal honeycomb. | ||||||
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