| 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 | 钓鱼信息显示装置 | CN200810188098.2 | 2008-12-30 | CN101496507A | 2009-08-05 | 片山阳介; 栗山博明; 野村昌一 |
| 本发明提供一种方便钓鱼者且可维持显示部的高可视效果的钓鱼信息显示装置。可以根据光传感器(65)检测到的周围亮度,调整显示部(51)的辉度,由此,当周围的亮度改变时,可自动调整显示部(51)的辉度。由于自动调整显示部(51)的辉度,因此,不必像现有技术那样,由钓鱼者操作辉度调整按钮来调整显示部(51)的辉度。由此,不给钓鱼者添麻烦,亦能维持显示部(51)的高可视效果。再者,由于显示探鱼器(120)回波最强的水底部分的水底信息由底线(81)突出显示,因此,可以维持水底信息的高可视效果。 | ||||||
| 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 | 钓鱼信息显示装置 | CN200810188096.3 | 2008-12-30 | CN101500089B | 2012-12-12 | 片山阳介; 栗山博明; 野村昌一; 山本和人 |
| 本发明提供一种能以简单的方式切实地显示钓鱼者想要的图像的钓鱼信息显示装置。该钓鱼信息显示装置(60)中,以水面为基准,按照操作键组(62)的操作,以钓鱼者想要的显示比率,在显示部(51)中对水中的钓鱼信息加以缩放显示,这样,可以以简单的方式,将显示内容调整为钓鱼者想要的显示比率。此外,在本发明中,以画面上部的水面为基准,将水中的钓鱼信息在显示部中进行缩放显示,因此,在将至水底水深较浅的水底显示在画面的中部时,通过以画面上部的水面为基准,将至水底的水深放大显示在显示部(51)内,可以将至水底的水深调整到画面的下部。 | ||||||
| 5 | 钓鱼信息显示装置 | CN200810188096.3 | 2008-12-30 | CN101500089A | 2009-08-05 | 片山阳介; 栗山博明; 野村昌一; 山本和人 |
| 本发明提供一种能以简单的方式切实地显示钓鱼者想要的图像的钓鱼信息显示装置。该钓鱼信息显示装置(60)中,以水面为基准,按照操作键组(62)的操作,以钓鱼者想要的显示比率,在显示部(51)中对水中的钓鱼信息加以缩放显示,这样,可以以简单的方式,将显示内容调整为钓鱼者想要的显示比率。此外,在本发明中,以画面上部的水面为基准,将水中的钓鱼信息在显示部中进行缩放显示,因此,在将至水底水深较浅的水底显示在画面的中部时,通过以画面上部的水面为基准,将至水底的水深放大显示在显示部(51)内,可以将至水底的水深调整到画面的下部。 | ||||||
| 6 | 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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| 7 | 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 |
| 8 | Target object detection device and method of displaying echo data in the target object detection device | US13973892 | 2013-08-22 | US09632175B2 | 2017-04-25 | Jun Nakamichi; Yu Goto; Masaaki Matsubara; Norihiro Nishimoto |
| A target object detection device is provided. The device includes a signal processor, a display unit, and a controller. The signal processor 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 of the ultrasonic wave to the target object every time the ultrasonic wave is transmitted. The display unit has a display screen with a first side and a second side that is turnable in an axial direction perpendicular to the display screen, and displays an image on the display screen based on the echo data. The controller 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 turning of the display screen. | ||||||
| 9 | Single-transmit, dual-receive sonar | US09605620 | 2000-06-28 | US06421299B1 | 2002-07-16 | David A. Betts; Louis Loving |
| An apparatus and method for scanning a body of water for fish and other underwater articles with a sonar depth finder of a type having a transducer that can transmit an acoustic wave and receive sonar returns on both a narrow acoustic wave beam mode and on a wide acoustic wave beam mode, in which the sonar depth finder repetitively determines the approximate depth of the body of water by repetitively transmitting in the wide beam mode and receiving and displaying the sonar returns from each transmission initially in the wide beam mode and then in the narrow beam mode, with the duration of receiving in the narrow acoustic wave beam mode being a function of the determined depth from a prior transmission. | ||||||
| 10 | Vehicle collision avoidance system | US811301 | 1991-12-20 | US5235316A | 1993-08-10 | Gregory K. Qualizza |
| The collision avoidance system includes structure mountable at the side mirror position of a vehicle. The system includes a rotatable mirror and an ultrasonic transmitting and receiving unit which is adaptable to scan a predetermined area about the vehicle to detect the presence of an object and to calculate its distance from the vehicle. If the distance and speed are determined to pose a threat, the distance is placed on a display and an alarm is sounded. Two displays are provided, one for the forward end of the vehicle and another for the rear end of the vehicle. The system operates when the vehicle is moving forwardly and rearwardly. Also, when the vehicle is not moving, the presence of a potential intruder is also monitored and the system can actuate an anti-theft alarm of the vehicle. Further, the system can be programmed by a plurality of operators to particular distances, with the system discerning which operator is driving and automatically using that operator's input. | ||||||
| 11 | Radiation beam splitter | US761833 | 1977-01-24 | US4101199A | 1978-07-18 | Craig M. Christensen |
| A unique two component beam splitter for generating multiple pairs of parallel beams of coherent radiation from input beams, one pair from each input radiation beam from a given laser source. The input beam from each different source is incident to a different input face of the beam splitter and the polarization states of each beam in a given pair are related in a unique manner.Each incident radiation input beam is separated by means of a selectively transmissive coating on one of the roof faces of an Amici prism into a first beam comprising substantially all of the polarized component parallel to the plane of incidence (P polarization) and one-half of the polarization component normal to the plane of incidence (S polarization), and a second beam comprising one-half of the S polarization component alone. | ||||||
| 12 | Sounding device for measuring a distance to objects | US3683403D | 1970-11-09 | US3683403A | 1972-08-08 | OKINO MUTSUO |
| A sounding device for measuring distance to an object wherein the transmitted and received reflected sound waves are converted to digital signals which are stored in a memory device at a variable rate. The storage rate of information in the memory device is set in accordance with the range of the distances being measured. The stored information is read out of the memory device at a fixed repetition rate and is fed to a display means which indicates the distance to the object.
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| 13 | 被検体情報取得装置、被検体情報取得方法、及びプログラム | JP2014029732 | 2014-02-19 | JP6433130B2 | 2018-12-05 | 万城 孝弘; 瀧 宏文; 佐藤 亨; 赤尾 昌治; 長永 兼一 |
| 14 | Fish information display device | JP2008021633 | 2008-01-31 | JP2009178121A | 2009-08-13 | KATAYAMA YOSUKE; NOMURA SHOICHI; KURIYAMA HIROAKI; YAMAMOTO KAZUTO |
| PROBLEM TO BE SOLVED: To provide a fish information display device which can simply and surely display an image desired by an angler. SOLUTION: This fish information display device 60 can simply display in the expansion rate desired by the angler fish information in water in response to a predetermined operation of an operation key portion 62 by an expansion-reduction displaying of an angler on the display portion 51 to give a desired expansion rate desired by the angler on the basis of the surface of the water. Herein, the fish information in water can be displayed in an expanded or reduced state on the display portion 51 on the basis of the surface of the water in the upper portion of a screen. When the depth of water on the bottom is small and when the bottom of the water is displayed in the middle portion of the screen, the bottom of the water is expanded and displayed on the display portion 51 on the basis of the surface of the water in the upper portion of the screen. Thereby, the bottom of the water can be arranged in the lower portion of the screen. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 15 | Echo sounder | JP16760780 | 1980-11-28 | JPS5791466A | 1982-06-07 | TAKAHASHI HIDEYUKI |
| PURPOSE:To make the moving speed of a recording pen constant and make the change in the recording range of echo sounding possible by transferring the waveform of the received wave stored in a memory to a holding and read-out device then reading it out at the speed corresponding to the range and recording depth. CONSTITUTION:The waveform of ultrasonic reception waves from a receiving amplifier 6 is stored in a waveform storage device 17. This storage is transferred from a storage device 7 to a detector 8 in subsequent echo-sounding scanning periods because a storage device 17 and a holding and read-out device 18 are synchronously controlled by a timing pulse generator 1 controlling the generation of transmission pulses. Further in the subsequent echo sounding scanning period, the contents of the device 18 are read out at the speed corresponding to the range synchronously with the start of the forward movement of a recording pen, whereby depth is recorded. Hence, it is possible to change the range of echo sounding while maintaining the speed of the recording pen constant, and the constitution of the sounder is made simple. | ||||||
| 16 | Sonar Auto Depth Range | US14803302 | 2015-07-20 | US20170023669A1 | 2017-01-26 | Matthew Laster |
| Various implementations described herein are directed to a non-transitory computer-readable medium having stored thereon a plurality of computer-executable instructions which, when executed by a computer, cause the computer to perform various actions. The actions may include receiving sonar data from a sonar transducer, identifying a subset of the received sonar data to be displayed on the screen, and identifying a deepest level from the subset. The actions may further include determining a depth range that includes the deepest level, and rendering an image of the subset based on the depth range. | ||||||
| 17 | TOUCH SCREEN SONAR ADJUSTMENT SYSTEMS AND METHODS | US15059257 | 2016-03-02 | US20160259520A1 | 2016-09-08 | Christopher Daniel Gatland |
| Techniques are disclosed for systems and methods to provide touch screen sonar adjustment for mobile structures. A sonar adjustment system includes a user interface with a touch screen display and a logic device configured to communicate with the user interface and a sonar system. The user interface is configured to receive and/or display sonar data provided by the sonar system. The logic device is configured to determine a stimulus or scroll rate component and a sample scale component of a pinch gesture performed on the touch screen display, adjust a rate and/or a sample scale factor for the touch screen display and/or for the sonar system, and render the sonar data according to the adjusted rate and/or sample scale factor. The user interface and logic device may be integrated together to form a multifunction display used to power and/or supply sonar transmission signals to the sonar system. | ||||||
| 18 | TARGET OBJECT DETECTION DEVICE AND METHOD OF DISPLAYING ECHO DATA IN THE TARGET OBJECT DETECTION DEVICE | US13973892 | 2013-08-22 | US20140064025A1 | 2014-03-06 | Jun Nakamichi; Yu Goto; Masaaki Matsubara; Norihiro Nishimoto |
| A target object detection device is provided. The device includes a signal processor, a display unit, and a controller. The signal processor 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 of the ultrasonic wave to the target object every time the ultrasonic wave is transmitted. The display unit has a display screen with a first side and a second side that is turnable in an axial direction perpendicular to the display screen, and displays an image on the display screen based on the echo data. The controller 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 turning of the display screen. | ||||||
| 19 | Electronic measuring device | US11186365 | 2005-07-21 | US07756665B2 | 2010-07-13 | Jeffrey L. Spanski; John C. Smith; Derek J. Nash; Daily Gist; Michael Williams; Raymond Wai-Man Chan; Desmond Wai Nang Tse; Hughes Sanoner |
| An electronic measuring device that includes a transceiver device, a microprocessor operatively connected to the transceiver device, as well as a memory, an electronic output device, and a plurality of input mechanisms, all of which are operatively connected to the microprocessor. In some embodiments, the microprocessor may be programmed with logic that allows a user of the device to take and manipulate measurements using a menu-driven procedure by using the input mechanisms to select and activate desired operations. | ||||||
| 20 | Flasher type fish sonar | US10154522 | 2002-05-24 | US06650595B2 | 2003-11-18 | Yoshiyuki Asakura |
| A flasher type fish sonar includes an ultrasonic vibrator transmitting and receiving ultrasonic waves in water, a transmitting circuit supplying oscillating signals to the ultrasonic vibrator, a receiving circuit amplifying reflected signals received by the ultrasonic vibrator, an A/D converter converting the reflected signals to digital signals, an input circuit receiving the digital signals from the A/D converter through a control circuit, a flasher display including a rotary disk having a rotated luminous body and a display board having a window displaying luminosity of the luminous body in response to the digital signals from the input circuit through brushes and slip rings, and a constant current circuit in the input circuit which eliminates changes of electric current flowing to the luminous body due to contact resistance between the slip rings and the brushes. | ||||||
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