| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Power supply for electric fence | JP2009109433 | 2009-04-28 | JP2010257389A | 2010-11-11 | SUEMATSU HIROSHI; USAMI JIRO; WATANABE YUTO; NAKANO KAZUNARI; UENO MICHITAKA; MARUZUKA KIMIHIRO; TSUCHIYAMA YASUHIKO; MATSUMOTO HIROAKI; MOTOMURA AKIHIDE |
| PROBLEM TO BE SOLVED: To provide a power supply with a power supply circuit for theft prevention in which a shock voltage generation circuit is stopped after a switch is in a theft prevention mode, buzzer BZ making a sound. SOLUTION: The power supply circuit for supplying the shock voltage generation circuit with power is between the power supply and an opening and closing switch S2 for switching power supply between "On" and "Off" and is connected to a theft prevention mode T2 for controlling power supply for the shock voltage generation circuit or a normal mode T1 for supplying the shock voltage generation circuit with power. While the switch KS is "On" of the theft prevention mode T2, when the opening and closing switch S2 is switched or even when the power supply is removed temporarily from a power supply for an electric fence and is connected to the power supply for the electric fence again, an electric signal is generated, a sound being made by the buzzer BZ, and the power supply is removed from the connection with the shock voltage generation circuit. COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 62 | Electric fence for the power supply | JP2009109433 | 2009-04-28 | JP4565066B1 | 2010-10-20 | 道隆 上野; 和成 中野; 公博 丸塚; 二朗 宇佐美; 弘 末松; 有貴秀 本村; 寛朗 松本; 靖彦 槌山; 裕斗 渡辺 |
| 【課題】切替スイッチを盗難防止モードに入れた後は、衝撃電圧発生回路は停止状態となり、ブザーBZが発音する盗難防止用の電気供給回路を備えた電源装置を提供する。
【解決手段】衝撃電圧発生回路に電気を供給する電気供給回路が、電源と衝撃電圧発生回路への電気供給を「入り」又は「切り」に切り替える開閉スイッチS2との間にあって、衝撃電圧発生回路へ電気の供給を制御する盗難防止モードT2又は衝撃電圧発生回路に電気を供給する通常モードT1に接続され、切替スイッチKSが盗難防止モードT2へ「入り」の状態において、開閉スイッチS2を切り替えた場合や、電気柵電源装置から電源を一旦取り外し、再び電源を電気柵電源装置に接続した場合でも、電気信号を発生させてブザーBZを発音させ、電源が衝撃電圧発生回路との接続から外される回路である。 【選択図】図1 |
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| 63 | Pulse delivery system and method | JP2010504030 | 2007-04-26 | JP2010525289A | 2010-07-22 | ブルンデュラ,スティーブン・エヌ・ディー |
| 標的(1、14)を貫通する電流を伝えることによって、標的の移動運動を阻む装置(100)は、本発明の種々の態様によれば、変圧器と、容量と、電荷検出器(120)と、プロセッサ(102)とを含む。 変圧器は、電流を供給するために、前記標的に結合されている前記二次巻線を有する。 容量は、二次巻線と直列であり、ある電圧に充電される。 電荷検出器は、容量および二次巻線によって供給され目標を貫通する電荷を検出する。 プロセッサは、電荷検出器が検出した電荷に応答して、(例えば、次のパルスのために充電する)電圧を設定する。
【選択図】図1 |
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| 64 | Systems and methods for multi-function electronic weapon | JP2008533390 | 2006-09-11 | JP2009509122A | 2009-03-05 | チェロヴィック,ミラン; ナーハイム,マグネ・エイチ; ブランドゥラ,スティーヴン・エヌ・ディー |
| 電子非致傷兵器は、発射機能を始動する第1コントロールと、どの発射機能も始動しない第2コントロールと、信号発生器とを含む。 第2コントロールに応答して、信号発生器は、ターゲットに警告するためにアークを供給するか、または、ターゲットに電気ショックを与える。 たとえば、使用時、兵器は、第1電極と第2電極を有する展開ユニットと協働してもよい。 第1コントロールは、最初の作動で、第1ターゲットに向けた第1電極の発射を始動する。 第1コントロールは、2回目の作動で、第2ターゲットに向けた第2電極の発射を始動する。 信号発生器は、第2コントロールの1回の作動に応答して、第1ターゲットに電気ショックを与えるために第1電極を通して第1電流を供給し、かつ、第2ターゲットに電気ショックを与えるために第2電極を通して第2電流を供給する。 | ||||||
| 65 | System and method for immobilizing target | JP2007157292 | 2007-06-14 | JP2007292455A | 2007-11-08 | SMITH PATRICK W; NERHEIM MAGNE H |
| <P>PROBLEM TO BE SOLVED: To provide a system for immobilizing a target, which is improved in cost, reliability, range and effectiveness. <P>SOLUTION: The system comprises a first electrode, a second electrode, a third electrode which contacts with the target as a result of movement of the target, and a waveform generator 136 which is selectively coupled with the first electrode, the second electrode, and the third electrode, generates a stimulus signal through the first electrode and the second electrode to prompt movement of the target toward the third electrode, and supplies a stimulus signal for immobilizing the target through the third electrode. <P>COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 66 | System and method for using shock projectiles | JP2006534303 | 2004-10-07 | JP2007507687A | 2007-03-29 | スミス,パトリック・ダブリュー; ナーハイム,マグネ・エイチ |
| 【解決手段】 標的を動けなくするための装置(100)は、装置と標的とが接触した後で展開される電極(514、504)を含んでいる。 展開した電極(514、504)の間隔は、動けなくするための刺激信号をより効果的に送り出すための精度及び/又は反復性が高められている。
【選択図】 図6B |
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| 67 | Electrical screen device | JP54680198 | 1998-03-19 | JP3471027B2 | 2003-11-25 | 豊 伊澤; 英彦 前畑; 正徳 塚原; 友彦 洲崎; 大介 玉越 |
| 68 | Electrode member of stun gun | JP2001132666 | 2001-04-27 | JP2002115994A | 2002-04-19 | HSIEH TIEN-DI; CHEN HAN-LIANG |
| PROBLEM TO BE SOLVED: To provide the electrode member of a stun gun in which the stun gun can be used without being noticed by a dangerous person, e.g. a masher, at the time of attack by especially altering the size and shape of the electrode member of the stun gun. SOLUTION: A plurality of electrode members (12) having a gap are provided in the body (10) and each electrode member (12) is fitted with a cover (14) having at least one discharge hole (16). COPYRIGHT: (C)2002,JPO | ||||||
| 69 | JPS5910218B2 - | JP9075976 | 1976-07-29 | JPS5910218B2 | 1984-03-07 | RANSUROTSUTO HAMIRUTON RAINZU |
| 70 | JPS5533289B2 - | JP4028773 | 1973-04-09 | JPS5533289B2 | 1980-08-29 | |
| 71 | Device for combining recorder*reproducer and electronic tuning receiver | JP8707077 | 1977-07-20 | JPS5421804A | 1979-02-19 | OKAYA MASANAO; OONISHI HIROSHI; ISHIBASHI SADAAKI; SATOU REISUKE; SUGANUMA TAKASHI; YOKOGAWA TOMOHISA; UEKI YOSHIHARU; KAMA HARUO; KOSUGE TADASHI; OGAWA TADASHI |
| 72 | Tenkaparusuhatsuseikairo | JP3651475 | 1975-03-25 | JPS5199737A | 1976-09-02 | RICHAADO JEEMUSU JOODAN |
| 73 | JPS4911672A - | JP4028773 | 1973-04-09 | JPS4911672A | 1974-02-01 | |
| 74 | JPS4844972B1 - | JP1875270 | 1970-03-06 | JPS4844972B1 | 1973-12-27 | |
| 75 | ELECTRIC DEFENSE FIELD | EP15850354 | 2015-09-18 | EP3194710A4 | 2018-04-25 | HANDELMAN ARTHUR; SNOW RICHARD; BRIDGES JACK |
| An impenetrable electric barrier will prevent surreptitious crossing of a border or perimeter of an installation. It consists of rows of vertical electrodes installed underground or above ground. It has two modes of operation. In an RF heating mode a generator powers electric fields to heat the ground in a pattern around the fence. A temperature may be reached which makes human occupation of tunnels untenable. Humans may also be subjected to RF radiation effects, especially if the frequency is tuned to a resonant frequency of tunnel cavities. Detection of a resonant frequency by suitable instrumentation may also indicate the presence of tunnels. In another mode occupants of a tunnel may be subjected to shock from an electric pulse, without heating, depending on small amounts of moisture to transmit the pulse through soil to the tunnel. | ||||||
| 76 | METHODS AND APPARATUS FOR A CONDUCTED ELECTRICAL WEAPON | EP16891857.1 | 2016-04-05 | EP3265741A1 | 2018-01-10 | HANDEL, Stephen D.; BRUNDULA, Steven N.D.; NERHEIM, Magne H. |
| A conducted electrical weapon (“CEW”) launches wire-tethered electrodes from multiple cartridges to provide a current through a human or animal target to impede locomotion of the target. The CEW may detect when the electrodes launched from the cartridges may provide the current through more than one target. The CEW may detect when electrodes launched from the cartridges may provide the current through the same target. The CEW may set the pulse rate of the current based on detecting the launch of electrodes from more than one cartridge, detecting that electrodes may provide the current through two or more targets, and/or detecting that two or more pairs of electrodes may deliver the current through the same target. | ||||||
| 77 | AN ELECTRIC FENCE ENERGIZER SYSTEM AND METHODS OF OPERATION AND COMPONENTS THEREOF | EP15794345.7 | 2015-09-11 | EP3192332A2 | 2017-07-19 | WOODHEAD, Robert Charles Bryan |
| An electric fence energizer including an IPC (isolated power coupling) power transmitter and an IPC power receiver adapted to receive power from the IPC power transmitter and supply power to the energizer. A pulse shaping circuit between an energy source and output transformer of the energizer may include a series inductance of between 2 μΗ to 20 μΗ and a parallel capacitance of between 3 μΡ to 30 μΡ. The energizer output transformer may comprise a primary winding consisting of less than 15 turns and a secondary winding of between 5 and 50 times the number of turns of the primary winding. The energizer may produce a pulse having a duration of between 20 με and 60 με and a peak amplitude greater than 5 kV into 300 Ω. | ||||||
| 78 | SYSTEMS AND METHODS OF PROVIDING ENHANCED ELECTRIC FENCE DIAGNOSTICS | EP14765537.7 | 2014-03-14 | EP2974556A1 | 2016-01-20 | DEMAO, Jack; BATTI, Steve; BAXTER, Michael; ROBERTS, Mark |
| An electric fence energizer provides automated reporting of faults and other events as well as fault location to reduce effort in diagnosing faults and intrusion events in electric fences by measuring impedance changes using a time-domain reflectometer. In some embodiments, methods determine the location of a fault in distance from the energizer and provide timely and appropriate condition information. | ||||||
| 79 | SYSTEMS AND METHODS FOR PULSE DELIVERY | EP07868254.9 | 2007-04-26 | EP2137480B1 | 2015-08-05 | BRUNDULA, Steven, N.D. |
| 80 | ELECTRIFIED BIRD DETERRENT DEVICE WITH CAVITY | EP11873607.3 | 2011-12-21 | EP2621266A1 | 2013-08-07 | DONOHO, Bruce |
| An animal deterrent device includes an elongated carrier having an internal cavity. A conductive trace can be coupled to the carrier by a first fastener that extends from the conductive trace to the cavity, which prevents water from contacting the fastener and shorting the conductive trace. | ||||||
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