| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | PRECISION PYROTECHNIC DISPLAY SYSTEM AND METHOD HAVING INCREASED SAFETY AND TIMING ACCURACY | US14011119 | 2013-08-27 | US20150260489A1 | 2015-09-17 | George Bossarte; Paul R. McKinley |
| A system and method are disclosed for controlling the launch and burst of pyrotechnic projectiles in a pyrotechnic, or “fireworks”, display. | ||||||
| 102 | PYROTECHNICS LAUNCHING DEVICE | US13991307 | 2010-12-01 | US20140007787A1 | 2014-01-09 | Vicente Caballer Barat |
| A pyrotechnic launcher that comprises at least one pyrotechnic launching tube (1), at least one frame which comprises cover (2), and in which said pyrotechnic launching tube (1) is prepared for housing inside it at least one pyrotechnic device (8); in which said pyrotechnic launching tube (1) comprises at least two openings located at its top and bottom ends that enable the introduction and deployment of the pyrotechnic device (8), both through its top opening and its bottom opening, in which at least one locking element (3) holds said pyrotechnic device (8); and in which the internal face of said pyrotechnic launching tube (1) comprises some interlocking means (17a) which enable locking said pyrotechnic device (8) in a direct manner or by means of an intermediate element, through some locking means (17b, 17b′) pertaining to said pyrotechnic device (8). | ||||||
| 103 | Spooling Pyrotechnic Device | US13431841 | 2012-03-27 | US20130255523A1 | 2013-10-03 | Darren Naud |
| A pyrotechnic device including a combustion chamber including a wall, the combustion chamber containing combustible powder; an ignition source adapted to ignite said combustible powder within said combustion chamber; wherein the wall of the combustion chamber is adapted to burst at a predetermined pressure caused by combustion of the combustible powder; wherein the combustion chamber is disposed within a launch structure beneath a projectile and wherein a preselected amount of free space volume is disposed between said combustion chamber and said projectile. | ||||||
| 104 | COMBINED FIREWORK | US12840639 | 2010-07-21 | US20110017087A1 | 2011-01-27 | Ziyou ZHONG; Yongzhang LIU; Weimin ZHONG; Liang ZHONG; Binbo GONG |
| A combined firework is disclosed in the invention. In the combined firework, several tubular holes whose central axes are parallel to each other are uniformly distributed in a body, the tubular holes have openings upward and bottom ends closed, the closed end of the bottom of each tubular hole is provided with two small through holes penetrating through the bottom of the body and respectively provided with an inward fuse and an outward fuse in series connection, the body, the tubular holes and the small through holes thereof are an integral structure moulded in one time; on the bottom in the tubular hole propellant powder is provided and connected with the outward fuse and the inward fuse, on the propellant powder an inner cylinder or effect powder is provided. The combined firework using the above solution has standard specification, firm structure and high production efficiency; moreover, the original fuse connection at the side of the cylinder body is changed into the fuse connection at the bottom, and the fuse connecting holes are mechanically moulded with a consistent size of the hole and precisely controlled distance between holes, therefore, the launching time is accurate and safety is good. | ||||||
| 105 | Integral-type Combined Firework | US12839783 | 2010-07-20 | US20110017086A1 | 2011-01-27 | Ziyou ZHONG; Yongzhang LIU; Weimin ZHONG; Liang ZHONG; Binbo GONG |
| The present invention discloses an integral-type combined firework, in which several tubular holes whose central axes are parallel to each other are uniformly distributed on a body, the tubular holes have openings upward and bottom ends closed, the closed end of the bottom of each tubular hole is provided with one small through hole that penetrates through the bottom of the body and is provided with a spreading fuse, the body, the tubular holes and the small through holes thereof are an integral structure moulded in one time; the bottom in the tubular holes is provided with propellant powder and connected with the spreading fuse, the propellant powder is provided with an inner cylinder or an effect powder on it. The integral-type combined firework using the above solution has standard specification, firm structure and results in high production efficiency; moreover, the original fuse connection at the side of the cylinder body is changed into the fuse connection at the bottom, and the fuse connecting holes are mechanically moulded with a consistent size of the hole and precisely controlled distance between holes, therefore, the launching time is accurate and safety is good. | ||||||
| 106 | Multi-purpose pyrotechnic trainer | US10713127 | 2003-11-14 | US07568431B1 | 2009-08-04 | Ronald M. Stria |
| An apparatus or device for simulating weapons firing/hit indications for military training which uses pyrotechnic devices to simulate target hits and hostile fire. The device in accordance with an embodiment of the present invention, can be used with blank ammunition. The combination of the device and the blank ammunition can offer both audio and visual indication of a hit in battlefield conditions and also simulate hostile fire. The device can be used for the training of military personnel. The device can provide visible and audible feedback to trainees. It can simulate hostile fire in which case the trainee must recognize the hostile fire and must be able to return fire. | ||||||
| 107 | SYSTEM AND METHOD FOR ZERO LATENCY DISTRIBUTED PROCESSING OF TIMED PYROTECHNIC EVENTS | US12366518 | 2009-02-05 | US20090145321A1 | 2009-06-11 | David Wayne Russell |
| A method for achieving zero latency timed pyrotechnic events by utilizing distributed processing is presented. A list of timed events may be used to synchronize a pyrotechnic firing sequence with music or other external events. This list is distributed over a series of embedded microprocessors. Each microprocessor is then synchronized to a master controller clock, and enabled such that each processor may then fire independently as required by the master list. This distributed process removes the split-second timing requirement from the main controller enabling the achievement of zero latency and providing significantly more timing events to be processed simultaneously while alleviating problems such as wireless radio interference delays. Each module is capable of forwarding information to other modules, which may be in a position that prevents wireless communication directly with the master controller. A wireless pyrotechnics ignition device which utilizes this distributed processing technique is also presented. | ||||||
| 108 | Fireworks ignition system for 1.4 fireworks | US11214305 | 2005-08-29 | US20060164787A1 | 2006-07-27 | James Deye |
| An ignition system for 1.4 g or consumer fireworks includes a base to which the fireworks are secured to prevent tipping thereof during shooting. The base is secured to the ground or other surface for stability. Preferably, the base is part of a container which encloses the fireworks in a pre-mounted fashion to protect the fireworks from the elements. Electrical matches or E-matches are used to ignite the fireworks and are controlled by an electrical control at a safe distance from the fireworks during the firing thereof. | ||||||
| 109 | Device for generating pyrotechnic effects | US11297975 | 2005-12-08 | US20060162602A1 | 2006-07-27 | Thomas Garms; Oliver Schultz; Arthur Zahn |
| A simple device for generating pyrotechnic effects, in which an enveloping body (11) is formed from a plurality of interconnected plate-like layers between which the pyrotechnic charges (10) as well as the igniter means (12) are embedded. A configuration of the igniter means (12) as heating resistors, in particular as heating resistors whose conductors run in a meandering path. Such igniter means (12) are particularly suitable for use in the formation of a plate-like enveloping body consisting of a plurality of layers. By virtue of this enveloping body, the device assumes a shape comparable to that of a credit card or bank card. | ||||||
| 110 | Group firing system for firework unit | US10658579 | 2003-09-09 | US07051657B2 | 2006-05-30 | Li Yi; Li Gang |
| Group firing system for firework unit, wherein it has 1–2 paper fuse tubes, which are assembled with other shot tubes. While both ends of the paper fuse tubes have male socket and female socket, so each firework unit could be connected to a firework group through soft fuse hose which contains a fuse inside. There are two firing systems, i.e. series connection and parallel connection. | ||||||
| 111 | Securing system for pyrotechnic launch tubes | US10504183 | 2003-02-10 | US07007584B2 | 2006-03-07 | Vicente Caballer Barat |
| Based on pyrotechnic launch tubes (1) with a cylindrical body which houses in their interior both the pyrotechnic objects or materials (3) and the lifting powder (5), the system consists in providing each cylinder (1), on its lower base, with a series of tabs (6), determining a radially deformable neck, wherein said tabs (6) are finished in barbs (7) for engagement by pressure in a securing piece (11–11′), fastenable to the frame of the tubes or incorporated by way of a single piece in the actual frame, provided with an external and rigid neck with a gradation (14) for the engagement of the barbs (7) and provided with an axial and cylindrical core (10) which, perforating the bottom of the cylinder (1), is of a size to house in its interior the igniter (12) with its corresponding cable (13), which is thereby perfectly protected from possible environmental humidity. | ||||||
| 112 | Securing system for pyrotechnic launch tubes | US10504183 | 2003-02-10 | US20050204911A1 | 2005-09-22 | Vicente Barat |
| Based on pyrotechnic launch tubes (1) with a cylindrical body which houses in their interior both the pyrotechnic objects or materials (3) and the lifting powder (5), the system consists in providing each cylinder (1), on its lower base, with a series of tabs (6), determining a radially deformable neck, wherein said tabs (6) are finished in barbs (7) for engagement by pressure in a securing piece (11-11′), fastenable to the frame of the tubes or incorporated by way of a single piece in the actual frame, provided with an external and rigid neck with a gradation (14) for the engagement of the barbs (7) and provided with an axial and cylindrical core (10) which, perforating the bottom of the cylinder (1), is of a size to house in its interior the igniter (12) with its corresponding cable (13), which is thereby perfectly protected from possible environmental humidity. | ||||||
| 113 | Pyrotechnic ignition apparatus and method | US09444152 | 1999-11-20 | US06505558B1 | 2003-01-14 | Joseph L. La Mura; Ronald Conrad Wallenburg |
| A plurality of magazines each receive an array of pyrotechnic devices. The magazines are latched to a fire control and support assembly which automatically engages the fire control circuit to each device of each magazine. The circuit ignites all devices of all the magazines in a given serial sequence. The system, under control of an operator, when turned off, may be restarted at the beginning of a selected sequence, at the point where the last device was ignited and continue the sequence or at selected different portions of devices. Different size devices can be ignited by one circuit using different magazines all coupled to one unit. Safety features also include delay ignition after startup and sounding an alarm before any device is ignited. A CPU is enabled by a fire command signal and disabled by internal programmed instructions. The CPU is periodically enabled in a device ignition cycle by external timing signals initiated by the CPU when enabled. | ||||||
| 114 | Pyrotechnic ignition apparatus | US447073 | 1995-05-22 | US5563366A | 1996-10-08 | Joseph L. La Mura; Ronald C. Wallenburg |
| A plurality of magazines each receive an array of pyrotechnic devices. The magazines are latched to a fire control and support assembly which automatically engages the fire control circuit to each device of each magazine. The circuit ignites all devices of all the magazines in a given serial sequence. The system, under control of an operator, when turned off, may be restarted at the beginning of a selected sequence, at the point where the last device was ignited and continue the sequence or at selected different portions of devices. Different size devices can be ignited by one circuit using different magazines all coupled to one unit. Safety features also include delay ignition after startup and sounding an alarm before any device is ignited. A CPU is enabled by a fire command signal and disabled by internal programmed instructions. The CPU is periodically enabled in a device ignition cycle by external timing signals initiated by the CPU when enabled. | ||||||
| 115 | Pyrotechnic ignition apparatus | US447070 | 1995-05-22 | US5554817A | 1996-09-10 | Joseph L. La Mura; Ronald C. Wallenburg |
| A plurality of magazines each receive an array of pyrotechnic devices. The magazines are latched to a fire control and support assembly which automatically engages the fire control circuit to each device of each magazine. The circuit ignites all devices of all the magazines in a given serial sequence. The system, under control of an operator, when turned off, may be restarted at the beginning of a selected sequence, at the point where the last device was ignited and continue the sequence or at selected different portions of devices. Different size devices can be ignited by one circuit using different magazines all coupled to one unit. Safety features also include delay ignition after startup and sounding an alarm before any device is ignited. A CPU is enabled by a fire command signal and disabled by internal programmed instructions. The CPU is periodically enabled in a device ignition cycle by external timing signals initiated by the CPU when enabled. | ||||||
| 116 | Pyrotechnic ignition apparatus | US877809 | 1992-05-04 | US5284094A | 1994-02-08 | Joseph L. La Mura; Ronald C. Wallenburg |
| A plurality of magazines each receive an array of pyrotechnic devices. The magazines are latched to a fire control and support assembly which automatically engages the fire control circuit to each device of each magazine. The circuit ignites all devices of all the magazines in a given serial sequence. The system, under control of an operator, when turned off, may be restarted at the beginning of a selected sequence, at the point where the last device was ignited and continue the sequence or at selected different portions of devices. Different size devices can be ignited by one circuit using different magazines all coupled to one unit. Safety features also include delay ignition after startup and sounding an alarm before any device is ignited. A CPU is enabled by a fire command signal and disabled by internal programmed instructions. The CPU is periodically enabled in a device ignition cycle by external timing signals initiated by the CPU when enabled. | ||||||
| 117 | Modular devices for loading cartridges on board aircraft | US678856 | 1984-12-06 | US4682529A | 1987-07-28 | Didier A. Duclos; Pierre F. Coutin |
| A modular device for loading cartridges on board aircraft is provided equipped with pyrotechnique cartridges with electric detonator, formed from a combination of elements of small volume and low weight comprising a case means enclosing cartridges whose bases carry firing detonators and are fixed to a support plate with interposition, between the support plate and an insulating plate, a printed circuit comprising resilient zones on which are fixed the studs for firing said detonators. | ||||||
| 118 | Securing apparatus for modules carried on aircraft, in particular for flare launching modules | US384097 | 1982-06-01 | US4524670A | 1985-06-25 | Alain A. Billard; Andre R. Santalucia; Christian Breseghello |
| Located below an aircraft is a support rod (1) provided with female engagement members (10). Standard missile launcher modules are provided on their flat upper wall with counterpart male engagement members (20). The engagement members (10 and 20) cooperate in the manner of dovetails and for each module location, they are separated from each other according to the same geometric progression along the support rod (1) and the upper wall of the module (2). A device comprising a cam (27) and lever (273) makes it possible to ensure at the same time the translation necessary for locking of the dovetail, as well as the making of contact between the electrical connector members. | ||||||
| 119 | Apparatus for simulated shooting with hit indicator | US120541 | 1980-02-11 | US4342556A | 1982-08-03 | Werner Hasse |
| An apparatus for simulated shooting is disclosed which includes a laser transmitter for directing a laser beam, as a simulated shot, towards a target; a receiver and evaluation device on the target for determining the deviation of the laser beam from the target in terms of magnitude and direction, and an impact indicating device on the target which is controllable by the evaluation device such that pyrotechnic charges are ejected in the determined direction of the deviation of the laser beam from the target and ignited so as to represent the light and smoke phenomena of the impact of a real projectile. | ||||||
| 120 | Device for simulating hits on armored vehicles and similar targets | US76378 | 1979-09-17 | US4299170A | 1981-11-10 | Ernst Dix; Gerhard Muller; Hans Notzel; Willy Walther; Detlef Zahn |
| A device for simulating hits on a target for example in war games and particularly for simulating hits on armored vehicles comprises a housing which has a plurality of separate spaced apart charge receiving chambers therein. Each chamber contains a distinct charge preferably including but not limited to a so-called fireball type of charge, a smoke type charge and a report type charge. The charges are arranged in separate cups or compartments and the first charge is connected to an igniter which may for example be an ignition system which is set off by an external pulse of light. The other charges are connected to the first charge and to each other through pyrotechnical propagation charges which may or may not have a delay operation so that they are set off in a controlled sequence. | ||||||
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