子分类:
- G01S7/4802: ..{利用用于表明目标特性的回波信号的分析;目标形状;目标截面}
- G01S7/4804: ..{ 用于检测或识别激光雷达信号或类似物的辅助装置,例如激光照明装置}
- G01S7/4808: ..{距离、位置或速度数据的估计}
- G01S7/481: ..结构特征,例如光学元件的布置
- G01S7/483: ..脉冲系统的零部件
- G01S7/491: ..非脉冲系统的零部件
- G01S7/495: ..对抗或反对抗测量{使用电子的或电光装置}
- G01S7/497: ..监测或校准装置
- G01S7/499: ..使用极化效应(光的极化测量入G01J)
- G01S7/51: ..显示装置
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 221 | Target device and method | JP2013556822 | 2012-02-29 | JP2014511493A | 2014-05-15 | ピーター ジー クレイマー; ロバート イー ブリッジズ; ニルス ピー ステッフェンセン; ロバート シー メーラー; ケニス ステファイ; ジョン エム ジュニア ホッファー; ダニエル ジー ラスリー |
| 球状湾曲部位を有する接触要素、その接触要素に堅固に連結された再帰反射器、電磁信号を輻射する送信機、並びに配置先のターゲット上で気温を検出しその結果を送信機に送る気温センサを備えるターゲットを提供する。 | ||||||
| 222 | Non-contact power transmission structure of the laser distance measuring device | JP2012001536 | 2012-03-21 | JP3178159U | 2012-09-06 | 徐巍 |
| 【課題】回転盤の回動のせいで電線が絡まって脱落することがなく、電力構造が損傷した際にレーザー管およびレンズを動かさずに電力構造の修理を行うことができるレーザー測距装置の無接点電力伝送構造を提供する。
【解決手段】無接点電力伝送構造は、主軸上部の回転盤上に設置され、上部にレーザー管およびレンズを搭載して電気的接続する第一回路板と、台座上に固定され回転しない第三回路板と、レーザー管およびレンズに信号を伝送するとともにレーザー管およびレンズが送信した信号を受信する2つの信号受信器および2つの信号発信器とを備える。 さらに、主軸の側辺に位置し動力伝導ベルトと主軸を接続することで主軸を回転させて回転盤を連動して回転させるモータと、第一、第三回路板と電気的接続し、電力を発生させて第一、第三回路板を駆動して作動させる電力構造と、を備える。 【選択図】図1B |
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| 223 | Laser distance measurement device | JP31386297 | 1997-11-14 | JP4024912B2 | 2007-12-19 | ダム ハートムート |
| 224 | Angle detection device and scan type actuator using the same | JP2003366274 | 2003-10-27 | JP3949098B2 | 2007-07-25 | 良平 重松 |
| 225 | Angle detector and scan type actuator using it | JP2003366274 | 2003-10-27 | JP2005127971A | 2005-05-19 | SHIGEMATSU RYOHEI |
| PROBLEM TO BE SOLVED: To provide a scan type actuator using an angle detector which easily can achieve scanning angle detection of high accuracy even if the scan type actuator is the one using such an elastic material as a leaf spring. SOLUTION: The actuator is provided with a non-transformational moving part 3 on the tip of the leaf spring 2 connected to a stationary part 1, 2-phase photosensors SR and SL installed in both ends of the moving part 3, encoder slit plates 4R and 4L with a slit 4 on the bottom, an origin sensor SC, and a processing part 13. This processing part 13 computes an angle of the moving part 3 based on values detected by the 2-phase photosensors SR and SL, values n A, n B counted through reset of the origin sensor SC, and the distance between both the 2-phase photosensors SR and SL. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 226 | Method and apparatus for detecting target by means of speckle pattern light | JP29869199 | 1999-09-12 | JP2001082924A | 2001-03-30 | UMETSU KATSUO |
| PROBLEM TO BE SOLVED: To detect the entrance or presence of a target by receiving speckle pattern light reflected by the surface of the target, to permit detection without adjusting a sensitivity volume irrespective of the distance to the target, the inclination of the surface of the target, light reflectivity, and size, and to detect a gray level between a dark level and a bright level. SOLUTION: A space to be monitored is irradiated with a coherent light beam 2 discontinuously modulated at low frequencies, and a weak signal current obtained through the photoelectric conversion of weak speckle pattern light 4 returned is strongly elongation amplified by a logarithmic amplifier, while a large signal current obtained through the photoelectric conversion of strong normal reflected light is compression amplified. Next, only a frequency component to be modulated is extracted by a dc regenerator and the voltage of this component is compared with a comparison voltage generated by a comparison voltage generator. When the relation in magnitude between both voltages is reversed, a detection signal 7 is output. COPYRIGHT: (C)2001,JPO | ||||||
| 227 | Navigation in poor visibility conditions, the system in order to improve monitoring | JP53664096 | 1996-05-30 | JP2001501751A | 2001-02-06 | ジェイ. ノリス,ビクター |
| (57)【要約】 悪視界条件下での航行、監視を容易にするためのシステムであり、一以上の紫外線源(110)と、出力信号を形成し、受信した放射線から二次元画像を形成し得る受信機(130)と、上記画像を表示するディスプレイ(140)とを具備してなる。 好ましい例として、紫外線源はクリテカル・マーカ、例えば滑走路ビーコンと共存させる。 紫外線源からの紫外線は反復性、特徴的信号として変調され悪視界大気を通過して受信機により受信される。 他の好ましい例として、紫外線源は受信機の少なくとも近傍に配置され、同じ乗物に乗せられる。 一以上のリフレクタ(150)をクリテカル・マーカと共存させる。 リフレクタは紫外線信号を受信、反射し悪視界大気を介して受信機へ送る。 ここでその信号がディスプレイを介してオペレータに提供される。 他の例として、リフレクタをトランスポンダで置換えることができる。 本発明はパイロット、その他の乗物のオペレータ等が、悪視界条件下での航行、監視を快晴下と同じように操作することを可能にする。 | ||||||
| 228 | Reverse reflection target for laser remote measurement | JP5157295 | 1995-03-10 | JPH08166241A | 1996-06-25 | MISHIERU KIYASE; GURAN RAN |
| PURPOSE: To compensate by fluctuation of an optical path by incorporating glass having a certain thickness between an outside of a target and a reflection face of RCC (large reverse reflection mirror) in the optical path of reverse reflection light beam to make deviation proper as function of an angle of incidence. CONSTITUTION: RCC has three vertical reflection faces 1, 2, 3 and crosses at three ridges which converge at a vertex S and are substantially right angles. A reference point O is provided at distance of e.√3 from the vertex S in opposition to the reflection faces on a normal on which a target has the same angle as each ridge. (e) is distance from the reference point O to each surface. This reference reflection target is composed of a material having known refraction rate (n) concerning each reflection face 1, 2, 3 and is provided with plates E1, E2, E3 which have parallel faces through which light radiation to be reflected reversely penetrates and have the same thickness,. When an approximate equation e'.√n=2.35e is formed, it is possible to eliminate uncertainty of optical constant d 0 (distance from the vertex S on RCC normal to the reference point O). COPYRIGHT: (C)1996,JPO | ||||||
| 229 | Device for detecting moving glass plate without contact | JP33867191 | 1991-12-20 | JPH04276588A | 1992-10-01 | DENISU MATEIIBA; JIYATSUKU SABATAA; FUREDERITSUKU UEEBAA |
| PURPOSE: To detect a glass plate moving in a region having high temperature/ stirred atmosphere without contact by using a photoelectric reflection barrier incorporating a light beam emitter/receiver. CONSTITUTION: A light beam 4 radiated from an emitter/receiver 3 arranged to be protected from any heat sources is concentrated in a selected frequency, subjected to amplitude modulation and introduced through an optical fiber 10 constituting an effective waveguide and a transmission path 6 of a heat resisting material to the proximity of the transfer plane of a glass plate 11 to be detected. Then, since the wall of a transmission path 6 fixes the range of a homogenious medium with equal temperature, the beam 4 passes through an equal temperature route protected from the movement of high temperature air to reach the proximity of the glass plate 11. The emitter/receiver 3 converts the reflected wave of the received light beam 4 to electric waves to be processed by a process unit 1. COPYRIGHT: (C)1992,JPO | ||||||
| 230 | Signal processing circuit for range measuring device | JP12977584 | 1984-06-23 | JPS618685A | 1986-01-16 | NISHIRA HIROTAKA |
| PURPOSE:To obtain an inexpensive circuit which has high accuracy, operates at a low voltage, and eliminates the need for external high-accuracy parts, etc., by adding a function whith amplified and integrates a signal while performing the current amplification and integration of a noise to a synchronous detecting circuit. CONSTITUTION:The amplifier 15 and switch 17 of the synchronous detecting circuit operate only at time determined by operation timing and a capacitor 18 holds a voltage, so the voltage obtained by amplifying and detecting an input signal is developed at an output terminal 19. Further, a signal inputted from an input terminal 13 to a connection point 21 is inputted to a transistor (TR)22 to charge and discharge the capacitor 18 through TRs 23 and 24 and a connection point 25, but the current of a current source 30 is so set that the capacitor 18 and an amplifier 15 constitute an integration circuit. Consequently, a current flowing in the capacitor 18 is not charged immediately in the capacitor 18 because the current ability is small and charging and discharging due to a noise are caused completely irregularly, so the DC voltage at the output terminal 19 has no variation caused by the noise. | ||||||
| 231 | Picture reading device | JP11769784 | 1984-06-08 | JPS60260869A | 1985-12-24 | TAKANO HIROSHI |
| PURPOSE:To detect the edge of a film without depending on the degree of blackening of the film by detecting the edge of the film based on a transmitted light detection signal and a reflected light detection signal of the film that formed a picture. CONSTITUTION:When a film 1 is sent to the direction of arrow mark and the edge of the film 1 passes a point P, an output signal (a) detected by a photodetecting device for detecting transmitted light 3 is inputted to a comparator 5 and its output (a1) is inputted to an NAND gate circuit 7. On the other hand, an output signal (b) detected by a photodetecting device for detecting reflected light 4 is inputted to a comparator 6 and its output (b1) is inputted to the NAND gate circuit 7. At this time, when the edge of the film 1 is a black color of high density or a transparent color of low density, a detection signal S0 is outputted from the NAND gate circuit 7. Thus, the accuracy in detection of the position of the edge of the film can be improved. | ||||||
| 232 | Optical radar equipment for vehicle | JP11379784 | 1984-06-05 | JPS60257374A | 1985-12-19 | TANAKA YASUSHI; FUJIKI NORIO; SATOU HIROSHI |
| PURPOSE:To improve the reliability of a titled device by cutting off an electrification of a primary side coil, when a current value flowing to the primary side coil of a transformer connected to a secondary side coil has reached a prescribed value. CONSTITUTION:When a voltage E of a battery is supplied, an output of a comparator 55 becomes ''1'', a transistor Tr11 becomes an on-state, a current flowing through a primary winding 15 of a transformer 13 and the Tr11 from the voltage E flows to a resistance 31, and a both end voltage Vr of this resistance 31 rises. This voltage Vr is charged to a capacitor 67 through a diode 57, and also supplied as a voltage Vr' to an inversion input terminal of the comparator 55. This voltage Vr' rises in the same way as the voltage Vr, and when it reaches a high threshold voltage of the comparator 55, an output of the comparator 55 is inverted and becomes ''0'', and the Tr11 becomes off. As a result, a current which has flowed through the primary winding 15 of the transformer 13 is cut off, therefore, a high voltage is generated in a secondary winding 17 of the transformer 13, charged to a capacitor 21 through a diode 19 and always goes to the same voltage. | ||||||
| 233 | Car laser radar equipment | JP15763383 | 1983-08-29 | JPS6049278A | 1985-03-18 | HAYASHI KUNIHISA; SUGIMOTO MASAHIRO |
| PURPOSE:To eliminate unnecessary operation and to prolong the life of a laser radar device by detecting the running state of a car and connecting a power supply, and putting the laser radar equipment in operation only during the car is running. CONSTITUTION:The laser radar equipment 1 is connected to the power source 3 through a control switch 2, which is brought under on-off control based upon the control signal from a run detecting circuit 4. The circuit 4 detects a car running state and generates the control signal for operating the switch 2. The device 1 is therefore put in operation only during the car is running to eliminate unnecessary operation while the vehicle is stopping. | ||||||
| 234 | Synchronous detection processing circuit for distance measuring apparatus | JP2440883 | 1983-02-16 | JPS59150356A | 1984-08-28 | KANBE TAKASHI; TOKUDA RIYUUJI |
| PURPOSE:To always enable execution of accurate synchronous detection by forming a reference clock pulse with a ring oscillator using I<2>L to form a synchronous pulse to a synchronous detection circuit. CONSTITUTION:A control logic circuit 3 controls a light emitting element control circuit 2 and a distance measuring signal processing circuit 5 including a synchronous detection circuit. A ring oscillator 4 using I<2>L applies a reference clock pulse to a logic circuit 3. The logic circuit 3 receives the reference clock from the ring oscillator 4 to effect a chip driving of an IRED9 with a light emitting element control circuit 2 by a frequency based on the reference clock. Otherwise, the logic circuit 3 form a pulse of the frequency of the chip driving based on the reference clock pulse as synchronous pulse to the synchronous detection circuit of the processing circuit 5 and transmit it to the detection circuit. This makes the light emission of the IRED9 synchronize the taking of the output of a light emitting element 10 into the processing circuit 5. | ||||||
| 235 | Directing method of light wave range finder | JP22931882 | 1982-12-27 | JPS59120873A | 1984-07-12 | TAKAHASHI TOKIO |
| PURPOSE:To achieve a accurate and quick facing with a target by displaying variations of the quantity of light with two different color light emitting elements. CONSTITUTION:Two light emitting diodes D1 and D2 different in color are inserted in series into a motor M in an inverted parallel relationship with each other. When the motor M rotates in the direction of damping the quantity of light, the blue light emitting diode D1 is turned on while when in the direction of enhancing it, the red light (diode D2) is emitted. When the body is turned vertically or horizontally so as to face a reflector, instantaneous flashing of the blue light emitting diode D1 indicates that the facing is not accomplished yet. So, the body is turned in the same direction until the red light emitting diode D2 flashes instantaneously and then, put back against the direction of emitting red light. Thus, the correct facing direction can be determined. | ||||||
| 236 | Target detector | JP2678478 | 1978-03-09 | JPS54119282A | 1979-09-17 | TOMITA MASAHIKO |
| PURPOSE:To make possible sure detection irrespective of the change in background condition by storing the infrared rays by the background of the target in a memory circuit and automatically setting the target detection level according to the target background. CONSTITUTION:The infrared rays from the target direction enters an infrared ray detector 13 via chopper 12 and are made to the voltage proportional to logarithmic functions by a detector 16 and a logarithmic amplifier 17. This voltage is stored in a memory circuit 18 based on the memory command signal applied prior to the observation of the target and is subjected to subtraction processing in a subtractor 19 together with the output of the amplifier 17 having detected the infrared rays from the target as a voltage. When the target infrared rays become more than the specified magnification of the background infrared rays, a level judgement circuit 20 judges the same as the target and the incident infrared rays are processes in a signal processing circuit 15. Hence, the target detection level is automatically set according to the target background changing with days and the detection of the target may be surely accomplished. | ||||||
| 237 | 광 송수광 장치 및 방법 | KR20160160092 | 2016-11-29 | KR20180046332A | 2018-05-08 | |
| 본발명은광 송수광장치및 방법에관한것으로서, 일부광 펄스의파워를다른광 펄스의파워와다르게출력하여반사광을수광하고, 상대적으로작은파워로출력된광 펄스의반사광을이용해감지하지못하는물체가상대적으로큰 파워로출력된광 펄스의반사광을이용해감지되는지확인하여, 이후출력할광 펄스의파워를조정한다. 이를통해이를통해눈 안전(eye safety) 조건을충족하면서저전력을이용해감지효율을극대화할수 있다. | ||||||
| 238 | 수중장비 부상 회수장치 | KR1020160141854 | 2016-10-28 | KR101711612B1 | 2017-03-02 | 김기준 |
| 본발명은수중장비용부상회수장치에관한것으로, 내부가격벽으로구획되어제1격실과, 제2격실, 제3격실로구획되는회수몸체와, 상기제1격실과제2격실에각각설치되는제1,2압력탱크와, 상기제1,2압력탱크를격발하기위하여제1격실과제2격실에설치되며, 제1,2압력탱크에연결되는제1,2전자타격부와, 상기제1,2전자타격부를각각무선으로작동시키기위한제1,2무선작동부와, 상기제3격실에설치되며, 상기제1,2압력탱크로부터유입되는고압기체에의해부풀려져서부력을발생시키는부력발생부;를포함하는것을특징으로한다. 따라서, 2개의압력탱크를구성하고, 이를각각무선으로작동시키도록구성함으로써, 하나의무선작동장치에이상이발생하더라도부력을발생시킬수 있어수중촬영장비의분실을방지할수 있는효과가있다. | ||||||
| 239 | 감지/방출 장치, 시스템, 방법 | KR1020167024222 | 2009-07-02 | KR1020160106222A | 2016-09-09 | 보아마츠,데이빗 |
| 장치에대한한개이상의장치시야선을따라에너지를감지및/또는방출하기위한다수의장치들이제공된다. 일실시예에서, 장치는스위칭축에대해베이스상에회전가능하게장착되는조립체를포함한다. 조립체는 2개이상의감지/방출유닛을가지되, 각각의감지/방출유닛은유닛시야선을한개씩가진다. 각각의감지/방출유닛은작동상태와비-작동상태를가지되, 작동상태에서는장치시야선을따라에너지를감지및/또는방출하기위해각각의유닛시야선이장치의장치시야선을지향하고, 비-작동상태에서는유닛시야선이상기장치시야선과는다른방향을지향한다. 요망감지/방출유닛만을배타적으로작동상태로배치하면서, 이와동시에, 나머지감지/방출유닛들각각을비-작동상태로배치하도록감지/방출유닛들간에스위칭이스위칭수단을이용하여이루어진다. 이에대응하는시스템및 방법이또한제공된다. | ||||||
| 240 | 감지/방출 장치, 시스템, 방법 | KR1020117002790 | 2009-07-02 | KR101656111B1 | 2016-09-08 | 보아마츠,데이빗 |
| 장치에대한한개이상의장치시야선을따라에너지를감지및/또는방출하기위한다수의장치들이제공된다. 일실시예에서, 장치는스위칭축에대해베이스상에회전가능하게장착되는조립체를포함한다. 조립체는 2개이상의감지/방출유닛을가지되, 각각의감지/방출유닛은유닛시야선을한개씩가진다. 각각의감지/방출유닛은작동상태와비-작동상태를가지되, 작동상태에서는장치시야선을따라에너지를감지및/또는방출하기위해각각의유닛시야선이장치의장치시야선을지향하고, 비-작동상태에서는유닛시야선이상기장치시야선과는다른방향을지향한다. 요망감지/방출유닛만을배타적으로작동상태로배치하면서, 이와동시에, 나머지감지/방출유닛들각각을비-작동상태로배치하도록감지/방출유닛들간에스위칭이스위칭수단을이용하여이루어진다. 이에대응하는시스템및 방법이또한제공된다. | ||||||
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