| 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 | 信号输出装置,图象形成装置以及信息输出装置 | CN02130499.8 | 2002-08-21 | CN1401498A | 2003-03-12 | 野尻英章; 赤池正刚; 金子典夫; 川崎岳彦; 中西宏一郎; 源间直世 |
| 本发明涉及信号输出装置,图像形成装置以及信息输出装置。用于检测有关在图像形成装置或者薄片传送装置等中使用的薄片材料的信息。本发明即使是没有在薄片材料上预先添加代码的情况下,也能够输出有关薄片材料的种类的信息。如果使用根据本发明输出的信号,则能够进行对应于薄片材料的最佳的各种控制。本发明的信号输出装置特征在于具有从外部在薄片材料上施加冲击的冲击施加单元以及通过该冲击输出信号的检测单元。检测单元构成为包括压电元件,设置在可弹性变形部件上。另外,检测单元能够设置在具有凹部的支撑台的凹部的底面。冲击可以在薄片材料静止时施加在上述薄片材料上。另外,可以是在冲击施加单元施加了冲击的时刻,冲击施加单元从与薄片材料的非接触状态变化为接触状态。 | ||||||
| 2 | 物标探知装置、鱼群探知机以及回波数据的显示方法 | CN201310378973.4 | 2013-08-27 | CN103675828B | 2017-09-08 | 中道淳; 后藤悠; 松原昌亮; 西本典弘 |
| 本发明提供一种物标探知装置、鱼群探知机以及回波数据的显示方法,该物标探知装置包括:信号处理部,被输入基于超声波的来自物标的回波而生成的接收信号,针对超声波的每次发送来生成与距超声波的发送源的距离对应的回波数据;显示部,具备具有第1边与第2边且能够转动的显示画面,将基于回波数据的图像显示于所述显示画面;控制部,根据伴随显示画面的转动的显示画面的显示状态,设定发送超声波的时间范围,将与位于该时间范围的超声波对应的回波数据输出至所述显示部。能够根据显示画面的状态,选择是提高由显示画面显示的基于回波数据的图像的分辨率,还是扩大回波数据的范围。 | ||||||
| 3 | 物标探知装置、鱼群探知机以及回波数据的显示方法 | CN201310378973.4 | 2013-08-27 | CN103675828A | 2014-03-26 | 中道淳; 后藤悠; 松原昌亮; 西本典弘 |
| 本发明提供一种物标探知装置、鱼群探知机以及回波数据的显示方法,该物标探知装置包括:信号处理部,被输入基于超声波的来自物标的回波而生成的接收信号,针对超声波的每次发送来生成与距超声波的发送源的距离对应的回波数据;显示部,具备具有第1边与第2边且能够转动的显示画面,将基于回波数据的图像显示于所述显示画面;控制部,根据伴随显示画面的转动的显示画面的显示状态,设定发送超声波的时间范围,将与位于该时间范围的超声波对应的回波数据输出至所述显示部。能够根据显示画面的状态,选择是提高由显示画面显示的基于回波数据的图像的分辨率,还是扩大回波数据的范围。 | ||||||
| 4 | 信号输出装置以及图像形成装置 | CN02130499.8 | 2002-08-21 | CN1294026C | 2007-01-10 | 野尻英章; 赤池正刚; 金子典夫; 川崎岳彦; 中西宏一郎; 源间直世 |
| 本发明涉及信号输出装置,以及图像形成装置。用于检测有关在图像形成装置或者薄片传送装置等中使用的薄片材料的信息。本发明即使是没有在薄片材料上预先添加代码的情况下,也能够输出有关薄片材料的种类的信息。如果使用根据本发明输出的信号,则能够进行对应于薄片材料的最佳的各种控制。本发明的信号输出装置特征在于具有从外部在薄片材料上施加冲击的冲击施加单元以及通过该冲击输出信号的检测单元。检测单元构成为包括压电元件,设置在可弹性变形部件上。另外,检测单元能够设置在具有凹部的支撑台的凹部的底面。冲击可以在薄片材料静止时施加在上述薄片材料上。另外,可以是在冲击施加单元施加了冲击的时刻,冲击施加单元从与薄片材料的非接触状态变化为接触状态。 | ||||||
| 5 | SONAR MAPPING SYSTEM | EP17196828.2 | 2017-10-17 | EP3315993A1 | 2018-05-02 | Pelin, Per; Harrington, Scott Allen |
A sonar mapping system that includes a sonar transducer assembly configured for mounting on a watercraft, and a display configured to show a topographical chart of a body of water. The sonar mapping system further includes a processor coupled to the sonar transducer assembly and display. The processor is configured to create the topographical chart in real time, and to update the topographical chart in real time, based on sonar data provided by the sonar transducer assembly. The processor is configured to render the created or updated topographical chart on the display. The sonar mapping system has memory accessible by the processor and configured to store the topographical chart rendered by the processor, and to store the sonar data provided by the sonar transducer assembly. The sonar data includes information indicative of vegetation present on a lakebed, seabed, or riverbed surface, the information being displayed on the topographical chart.
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| 6 | MARINE SONAR DISPLAY DEVICE WITH CURSOR PLANE | EP15822186 | 2015-05-14 | EP3170021A4 | 2018-03-21 | BROWN KEVIN A; COLEMAN AARON R |
| A marine sonar display device comprises a display, a sonar element, a memory element, and a processing element. The display presents sonar images. The sonar element generates a sonar beam and presents transducer signals. The processing element is in communication with the display, the sonar element, and the memory element and receives the transducer signals, calculates sonar data from the transducer signals and generates a three-dimensional view of a portion of the body of water, wherein the view includes a plurality of sonar images. Each sonar image is generated from sonar data derived from a previously-generated sonar beam and includes representations of underwater objects and a water bed. The processing element also generates a cursor plane and a cursor positioned thereon, both of which appear on the three-dimensional view. The processing element further controls the display to present the three-dimensional view, the sonar images, the cursor plane, and the cursor. | ||||||
| 7 | MARINE SONAR DISPLAY DEVICE WITH CURSOR PLANE | EP15822186.1 | 2015-05-14 | EP3170021A1 | 2017-05-24 | BROWN, Kevin, A.; COLEMAN, Aaron, R. |
| A marine sonar display device comprises a display, a sonar element, a memory element, and a processing element. The display presents sonar images. The sonar element generates a sonar beam and presents transducer signals. The processing element is in communication with the display, the sonar element, and the memory element and receives the transducer signals, calculates sonar data from the transducer signals and generates a three-dimensional view of a portion of the body of water, wherein the view includes a plurality of sonar images. Each sonar image is generated from sonar data derived from a previously-generated sonar beam and includes representations of underwater objects and a water bed. The processing element also generates a cursor plane and a cursor positioned thereon, both of which appear on the three-dimensional view. The processing element further controls the display to present the three-dimensional view, the sonar images, the cursor plane, and the cursor. | ||||||
| 8 | Echolot | EP87112775.9 | 1987-09-02 | EP0265634B1 | 1991-12-11 | Gerlach, Manfred; Richartz, Hans-Dieter |
| 9 | A SONAR TRANSDUCER ARRAY ASSEMBLY AND METHODS OF MANUFACTURE THEREOF | EP15821545.9 | 2015-05-14 | EP3170018A2 | 2017-05-24 | BLACK, Brandon, M.; MAGUIRE, Brian, T.; MATSON, Jason, A. |
| A sonar transducer array assembly comprises a first flexible circuit, a second flexible circuit, and a plurality of transducer elements. The first and second flexible circuits each include a first side, a second side, and a plurality of adhesive areas spaced apart and positioned in a line along one edge of the first side. The transducer elements each include a first surface attached to one of the adhesive areas of the first flexible circuit, an opposing second surface attached to one of the adhesive areas of the second flexible circuit, and a third surface positioned between the first and second surfaces. The transducer elements form a linear array with the third surface of each transducer element in alignment and configured to transmit and receive an acoustic pressure wave. | ||||||
| 10 | Target object detection device and method of displaying echo data in the target object detection device | EP13181417.0 | 2013-08-22 | EP2703835A1 | 2014-03-05 | Nakamichi, Jun; Goto, Yu; Matsubara, Masaaki; Nishimoto, Norihiro |
A target object detection device (100) is provided. The device (100) includes a signal processor (108), a display unit (103), and a controller (101). The signal processor (108) receives a reception signal generated based on an echo of an ultrasonic wave from a target object and generates echo data corresponding to a distance from a transmission source (110) of the ultrasonic wave to the target object every time the ultrasonic wave is transmitted. The display unit (103) has a display screen (103a) with a first side (103b) and a second side (103c) that is turnable around an axis perpendicular to the display screen (103a), and displays an image on the display screen (103a) based on the echo data. The controller (101) sets a range with respect to time at which the ultrasonic wave is transmitted, and outputs the echo data corresponding to the ultrasonic wave within the time range according to a turning state of the display screen (103a).
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| 11 | METHOD FOR SONIC ANALYSIS OF AN ANOMALY IN A SEAFLOOR TOPOGRAPHIC REPRESENTATION. | EP87905535 | 1987-08-12 | EP0277992A4 | 1990-05-14 | ABRAMS WILLIAM |
| 12 | METHOD FOR SONIC ANALYSIS OF AN ANOMALY IN A SEAFLOOR TOPOGRAPHIC REPRESENTATION | EP87905535.0 | 1987-08-12 | EP0277992A1 | 1988-08-17 | ABRAMS, William; SPRUANCE, John |
| Un procédé d'analyse sonique en direct et en temps réel ou par traitement en différé d'une représentation topographique d'un fond marin pour obtenir la latitude et la longitude d'un objet produisant une anomalie correspondante (32) identifiée sur une représentation topographique générée à l'aide d'un équipement sonar d'exploration latérale, consiste, dans le mode d'analyse en temps réel et en direct, à toucher avec la pointe du stylet du numériseur sonique un point de la ligne (24) de représentation du fond marin, latéralement et en opposition par rapport à l'anomalie (36), et, si l'on désire en longueur, à toucher les bords supérieur et inférieur de l'anomalie. | ||||||
| 13 | Echolot | EP87112775.9 | 1987-09-02 | EP0265634A1 | 1988-05-04 | Gerlach, Manfred; Richartz, Hans-Dieter |
Bei einem Echolot mit einem Schallwandler (11) zum Echoempfang, einem Echoschreiber (14) zum Aufzeichnen der Echospuren und einem Registrierverstärker (13) zum Ansteuern des Echoschreibers ist zwecks Aufzeichnung von durch Bodenschichtungen hervorgerufenen Echospuren bei gleichzeitiger, lückenloser und kontrastreicher Darstellung der Echospur der Grenzschicht Wasser/Boden zwischen Schallwandler und Registriergerät eine Schwellenschaltung angeordnet, die an den als Operationsverstärker ausgebildeten Registrierverstärker eine dem jeweiligen Echo individuell angepaßte Richtspannung legt. Hierzu weist die Schwellenschaltung einen Hüllkurvengleichrichter (16), ein diesen mit dem Operationsverstärker verbindendes Differenzierglied (17, 21) und eine dem Eingang des Operationsverstärkers (13) parallelgeschaltete Reihenschaltung aus einem Widerstand (18) und einer Diode (20) auf. |
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| 14 | A SONAR TRANSDUCER ARRAY ASSEMBLY AND METHODS OF MANUFACTURE THEREOF | EP15821545 | 2015-05-14 | EP3170018A4 | 2018-03-21 | BLACK BRANDON M; MAGUIRE BRIAN T; MATSON JASON A |
| A sonar transducer array assembly comprises a first flexible circuit, a second flexible circuit, and a plurality of transducer elements. The first and second flexible circuits each include a first side, a second side, and a plurality of adhesive areas spaced apart and positioned in a line along one edge of the first side. The transducer elements each include a first surface attached to one of the adhesive areas of the first flexible circuit, an opposing second surface attached to one of the adhesive areas of the second flexible circuit, and a third surface positioned between the first and second surfaces. The transducer elements form a linear array with the third surface of each transducer element in alignment and configured to transmit and receive an acoustic pressure wave. | ||||||
| 15 | Target object detection device and method of displaying echo data in the target object detection device | EP13181417.0 | 2013-08-22 | EP2703835B1 | 2014-10-29 | Nakamichi, Jun; Goto, Yu; Matsubara, Masaaki; Nishimoto, Norihiro |
| 16 | Analysis of sheet material | EP02018645.8 | 2002-08-20 | EP1286156A3 | 2005-01-19 | Nojiri, Hidetoshi; Akaike, Masatake; Kaneko, Norio; Kawasaki, Takehiko; Nakanishi, Koichiro; Gemma, Naoyo |
A signal output apparatus comprises an impact applying unit applying an impact to a sheet from the outside thereof, and a detection unit outputting a signal by the impact. An apparatus for determining the type of sheet comprises an impact applying unit applying an impact to a sheet from the outside thereof, and a detection unit outputting a signal by the impact, wherein the type of the sheet is determined based on the signal from the detection unit. An image forming apparatus comprises an impact applying unit applying an impact to a sheet from the outside thereof, and a detection unit outputting a signal by the impact. A method for determining the type of sheet comprises the steps of applying an impact to a sheet from the outside thereof, outputting a signal from a detection unit by the applying step, and determining the type of sheet based on the signal. An apparatus carries out the method for determining the type of sheet. An information output apparatus used in an image forming apparatus comprises an impact applying unit applying an impact to a target from the outside thereof, and a detection unit outputting information by the impact. |
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| 17 | Analysis of sheet material | EP02018645.8 | 2002-08-20 | EP1286156A2 | 2003-02-26 | Nojiri, Hidetoshi; Akaike, Masatake; Kaneko, Norio; Kawasaki, Takehiko; Nakanishi, Koichiro; Gemma, Naoyo |
A signal output apparatus comprises an impact applying unit applying an impact to a sheet from the outside thereof, and a detection unit outputting a signal by the impact. An apparatus for determining the type of sheet comprises an impact applying unit applying an impact to a sheet from the outside thereof, and a detection unit outputting a signal by the impact, wherein the type of the sheet is determined based on the signal from the detection unit. An image forming apparatus comprises an impact applying unit applying an impact to a sheet from the outside thereof, and a detection unit outputting a signal by the impact. A method for determining the type of sheet comprises the steps of applying an impact to a sheet from the outside thereof, outputting a signal from a detection unit by the applying step, and determining the type of sheet based on the signal. An apparatus carries out the method for determining the type of sheet. An information output apparatus used in an image forming apparatus comprises an impact applying unit applying an impact to a target from the outside thereof, and a detection unit outputting information by the impact. |
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| 18 | 신호 출력 장치 및 방법, 시트재 판별 장치 및 방법, 시트재 반송 장치, 화상 형성 장치 및 정보 출력 장치 | KR1020020049219 | 2002-08-20 | KR100544559B1 | 2006-01-24 | 노지리히데또시; 아까이께마사따께; 가네꼬노리오; 가와사끼다께히꼬; 나까니시고이찌로; 겜마나오요 |
| 신호 출력 장치는 외부로부터 시트에 충격을 가하는 충격 인가부 및 충격에 의한 신호를 출력하는 검지부를 포함한다. 시트 종류를 판별하기 위한 장치는 외부로부터 시트에 충격을 가하는 충격 인가부 및 충격에 의한 신호를 출력하는 검지부를 포함하고, 시트의 종류는 검지부로부터의 신호에 기초하여 판별된다. 화상 형성 장치는 외부로부터 시트에 충격을 가하는 충격 인가부 및 충격에 의한 신호를 출력하는 검지부를 포함한다. 시트의 종류를 판별하는 방법은 외부로부터 시트에 충격을 가하는 단계와, 인가 단계에 의해 검지부로부터 신호를 출력하는 단계와, 이 신호에 기초하여 시트의 종류를 판별하는 단계를 포함한다. 장치는 시트의 종류를 판별하는 방법을 수행한다. 화상 형성 장치에서 이용되는 정보 출력 장치는 외부로부터 시트에 충격을 가하는 충격 인가부 및 충격에 의한 정보를 출력하는 검지부를 포함한다. 시트재, 시트재 종류 판별, 충격 인가부, 검지부, 화상 형성 장치 | ||||||
| 19 | 신호 출력 장치 및 방법, 시트재 판별 장치 및 방법, 시트재 반송 장치, 화상 형성 장치 및 정보 출력 장치 | KR1020020049219 | 2002-08-20 | KR1020030017355A | 2003-03-03 | 노지리히데또시; 아까이께마사따께; 가네꼬노리오; 가와사끼다께히꼬; 나까니시고이찌로; 겜마나오요 |
| PURPOSE: A signal outputting device is provided to output information about kinds of sheet materials even if information as a code is not applied to the sheet materials in advance. CONSTITUTION: A signal outputting device comprises an impact applying unit applying an impact to a sheet from the outside thereof and a detection unit outputting a signal by the impact. A device for determining the type of sheets includes an impact applying unit applying an impact to a sheet from the outside thereof and a detection unit outputting a signal by the impact, wherein the type of the sheet is determined based on the signal from the detection unit. An image forming device comprises an impact applying unit applying an impact to a sheet from the outside thereof and a detection unit outputting a signal by the impact. A method for determining the type of sheets is composed of steps of applying an impact to a sheet from the outside thereof(S1), outputting a signal from a detection unit by the applying step(S2), and determining the type of sheets based on the signal(S3). The device carries out the method for determining the type of sheets. An information outputting device used in the image forming device comprises an impact applying unit applying an impact to a target from the outside thereof and a detection unit outputting information by the impact. | ||||||
| 20 | SONAR MAPPING SYSTEM | US15340777 | 2016-11-01 | US20180120431A1 | 2018-05-03 | Per Pelin; Scott Allen Harrington |
| A sonar mapping system that includes a sonar transducer assembly configured for mounting on a watercraft, and a display configured to show a topographical chart of a body of water. The sonar mapping system further includes a processor coupled to the sonar transducer assembly and display. The processor is configured to create the topographical chart in real time, and to update the topographical chart in real time, based on sonar data provided by the sonar transducer assembly. The processor is configured to render the created or updated topographical chart on the display. The sonar mapping system has memory accessible by the processor and configured to store the topographical chart rendered by the processor, and to store the sonar data provided by the sonar transducer assembly. The sonar data includes information indicative of vegetation present on a lakebed, seabed, or riverbed surface, the information being displayed on the topographical chart. | ||||||
