| 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 | 自动授时的电子钟 | CN201320252850.1 | 2013-05-12 | CN203241730U | 2013-10-16 | 梁广俊; 慕孟丽 |
| 一种自动授时的电子钟,包括微处理器、存储器、扬声器、操作面板和显示模块,所述微处理器分别连接存储器、扬声器、操作面板和显示模块,所述自动授时的电子钟还包括自动授时模块,自动授时模块通过有线或者无线的方式连接微处理器。 | ||||||
| 62 | 一种同屏显示的数字钟 | CN202222310811.4 | 2022-08-31 | CN218158764U | 2022-12-27 | 施自强; 林家利 |
| 本实用新型涉及数字钟领域,具体为一种同屏显示的数字钟,包括壳体,所述壳体内部设有供电模块以及控制模块,所述控制模块包括处理器,本实用新型通过WiFi单元连接互联网,通过互联网实时获取时间信息,并对设备上的时显示单元、分数显示单元、月显示单元、日显示单元、秒数显示单元以及星期显示单元上显示信息实时校准,本实用新型通过数码管、发光二极管以及LED灯与处理器配合实现数字显示,与传统机械式时钟相比,具有计时更准确、读数更直观,也可以产生丰富的动态视觉效果,同时该数字钟具有使用寿命更长、功能更齐全等优点。 | ||||||
| 63 | 一种多机同步显示的控制系统 | CN202021110470.0 | 2020-06-16 | CN212460329U | 2021-02-02 | 马争 |
| 本实用新型提供一种多机同步显示的控制系统,包括:至少两个终端,将所述至少两个终端分为至少一组;其中,所述每个终端包括照明显示装置和控制卡,所述照明显示装置与所述控制卡连接;同一组中的每个所述终端的控制卡均控制对应的所述照明显示装置显示播放时长相同的多媒体文件;其中,每个所述控制卡包括通讯模块;所述对时模块通过同一组中的每个所述控制卡对应的所述通讯模块与同一组中的每个所述控制卡相连,用于向同一组中的每个所述通讯模块发送时钟信号。本实用新型让多个照明显示装置显示播放时长相同的内容,给人一种强烈的视觉冲击,可以更加吸引人们的注意力。 | ||||||
| 64 | 自授时智能多路时控开关 | CN201721514205.7 | 2017-11-14 | CN207612450U | 2018-07-13 | 王志昆; 张蒲萍; 高新思; 郭艳肖; 陈博; 崔敬凯 |
| 本实用新型公开了一种自授时智能多路时控开关,涉及电气设备技术领域,包括壳体、设置在壳体上的显示屏、按键和指示灯以及设置在壳体内的控制电路和继电器,其特征在于:所述控制电路包括MCU、供电模块、时钟芯片、GSM通信模块、存储器和授时模块,所述授时模块包括GPS授时模块、BPC接收模块,所述显示屏、按键、指示灯、继电器、供电模块、时钟芯片、GSM通信模块、GPS授时模块和BPC接收模块与MCU电性连接。本实用新型的有益技术效果是:1、通过GSM通信模块、GPS授时模块、BPC接收模块实现三种授时方式的自主选择,可以适应不同环境对精确授时的需求,可以精确实现对每天、多通道、多时间段分别定时,实现远程控制各通道的开合。 | ||||||
| 65 | 一种时间同步装置 | CN201520834578.7 | 2015-10-26 | CN205193459U | 2016-04-27 | 鲍贤勇; 巫玲坚; 曾庆宇; 王文晓; 屈哲 |
| 本实用新型公开一种时间同步装置,包括主控系统、多个中继器、多个终端时钟,主控系统和发送时间同步信号的中继器为父节点,接收时间同步信号的中继器和多个终端时钟为子节点,父节点和子节点之间通过无线网络通信,其中,主控系统根据来自授时源的标准时间校正本地时间,向主控系统所属子节点发送时间同步信号;中继器根据来自中继器所属父节点的时间同步信号更新本地时间,向中继器所属子节点发送时间同步信号;终端时钟根据来自终端所属父节点的时间同步信号更新本地时间。本实用新型的时间同步装置信号传输距离远,覆盖范围广,且免去了繁琐的电缆布置工程,安装方便,使用简单,有利于局域同步系统在民用计时领域的推广。 | ||||||
| 66 | 自动时间校准电子钟 | CN201520607546.3 | 2015-08-07 | CN204807947U | 2015-11-25 | 曾凯 |
| 本实用新型公开了一种自动时间校准电子钟,包括数码时间显示模块、时间调节模块、时钟电路、网络数据读取模块及电池,时间调节模块通过八位I/O端口与数码时间显示模块连接,时间调节模块通过两线IIC串行端口与时钟电路连接,时间调节模块通过UART串行端口与网络数据读取模块连接,电池分别连接到数码时间显示模块、时间调节模块、时钟电路及网络数据读取模块。本实用新型能够定时通过3G网络以读取标准时间数据,并将标准时间和当前显示时间进行对比,在显示时间和标准时间存在偏差时及时校准显示时间,从而能够保证显示时间的连续准确性。 | ||||||
| 67 | 一种基于手表的新媒体平台 | CN201520230275.4 | 2015-04-15 | CN204578699U | 2015-08-19 | 许银龙 |
| 本实用新型公开了一种基于手表的新媒体平台,包括输入键盘、控制器和显示器,所述输入键盘的输出端与上位机的输入端连接,所述上位机的输出端分别与接收模块、存储模块、购物模块、GSM模块和时钟模块的输入端连接,所述存储模块的输出端分别连接有图像处理模块和视频处理模块,所述GSM模块的输入端与购物模块的输出端连接,所述GSM模块、时钟模块、图像处理模块和视频处理模块的输出端均与显示器的输入端连接。该基于手表的新媒体平台通过在控制器内加设图像处理模块和视频处理模块使得手表实现了静态图片显示和视频播放的功能,通过在控制器内加设购物模块和GSM模块,使得手表实现了通话和购物的功能。 | ||||||
| 68 | 一种联合精确授时系统 | CN201420662959.7 | 2014-11-06 | CN204287779U | 2015-04-22 | 蔡红专; 耿清凯 |
| 一种联合精确授时系统,包括电源模块,电源模块、北斗信号接受模块、GPS信号接受模块、CDMA信号接受模块、键盘的输出连接中央处理模块的输入,中央处理模块的输出连接显示报警模块、通信模块的输入,使用时,北斗信号接受模块接受来自北斗卫星传来的同步授时信息,GPS信号接受模块接受来自GPS卫星传来的同步授时信息,CDMA信号接受模块接受来自CDMA基站的同步授时信息,同时将实时信息传递给中央处理模块,中央处理模块通过比较运算自动校准时间信息,将实时授时信息传递给通信模块,通信模块将实时授时信息传递给需要的装置设备用户等,本实用新型可靠性高,授时精确同步,覆盖广,功能完善。 | ||||||
| 69 | Communication device, communication method, communication system, electronic watch, and program | US16081065 | 2016-12-07 | US11307537B2 | 2022-04-19 | Hiroshi Iwamiya; Sadao Nagashima; Satomi Michitsuta; Makoto Nakagawa; Toyokazu Nishio |
| A communication system (1) comprises a central (100) and a peripheral (200). The central (100) receives location information and time information from NTP servers (10) and a location server (30). The central (100) creates first offset information of the time measured by its own device and the time information received from the NTP servers (10). The central (100) acquires from map information a time difference corresponding to a location presented by the location information received from the location server (30). The central (100) creates first updated time information based on the time measured by its own device, first offset information, and time difference corresponding to the location presented by the location information received from location server (30) and transmits the first updated time information to the peripheral (200). The peripheral (200) changes the time displayed by its own device based on the received first updated time information. | ||||||
| 70 | Electronic timepiece, time correction system, and method of correcting display time | US16182962 | 2018-11-07 | US11243500B2 | 2022-02-08 | Katsutoyo Inoue |
| An electronic device and a time correction system acquire time zone-related information through a network and correct the current time at the current location, and reduce power consumption. An electronic timepiece has a time display unit; a communicator that connects to abase station; and a controller. The controller executes a base station information acquisition process of acquiring from the base station base station information unique to the base station, an acquired information evaluation process determining whether or not to acquire time zone-related information based on the base station information, a time zone information acquisition process of acquiring time zone-related information based on the base station information when acquiring time zone-related information is determined in the acquired information evaluation process, and a time correction process of correcting the displayed time based on the acquired time zone-related information. | ||||||
| 71 | METHOD AND DEVICE FOR CALIBRATING A LIGHT SMART WATCH, AND LIGHT SMART WATCH | US16632819 | 2017-11-08 | US20210048784A1 | 2021-02-18 | Xun LIU |
| A method for calibrating a light smart watch includes: providing an FPC soft board under a dial, a size of the FPC soft board matching a size of the dial, the FPC soft board is divided into a plurality of partitions, each partition is insulated from other partitions, and each of watch hands and each partition form a capacitor in turn when the watch hands run; detecting a capacitance change amount of each partition, determining positions of partitions where the watch hands are currently located, and determining a current time indicated by the watch hands, according to the positions of partitions where the watch hands are currently located; comparing the current time indicated by the watch hands with a current time of a mobile terminal to determine a time error; and adjusting the watch hands, according to the time error to run in sync with the time of the mobile terminal. | ||||||
| 72 | ELECTRONIC TIMEPIECE, TIME CORRECTION SYSTEM, AND METHOD OF CORRECTING DISPLAY TIME | US16182962 | 2018-11-07 | US20190137949A1 | 2019-05-09 | Katsutoyo INOUE |
| An electronic device and a time correction system acquire time zone-related information through a network and correct the current time at the current location, and reduce power consumption. An electronic timepiece has a time display unit; a communicator that connects to abase station; and a controller. The controller executes a base station information acquisition process of acquiring from the base station base station information unique to the base station, an acquired information evaluation process determining whether or not to acquire time zone-related information based on the base station information, a time zone information acquisition process of acquiring time zone-related information based on the base station information when acquiring time zone-related information is determined in the acquired information evaluation process, and a time correction process of correcting the displayed time based on the acquired time zone-related information. | ||||||
| 73 | Electronic timepiece, communication system and storage medium | US14980279 | 2015-12-28 | US10054910B2 | 2018-08-21 | Hirofumi Nagareda |
| An electronic timepiece includes a timer unit, a timepiece-side communication unit, a timepiece-side daylight saving time information storage unit and a processor. The timer unit counts local time at a current position. The timepiece-side communication unit communicates with an external device. The timepiece-side daylight saving time information storage unit stores daylight saving time implementation information therein at least at the current position. The processor corrects the local time in correspondence to an implementation situation of daylight saving time at the current position, based on the daylight saving time implementation information, acquires update information of the daylight saving time implementation information from the external device through the timepiece-side communication unit and reflects the acquired update information in the daylight saving time implementation information. | ||||||
| 74 | COMMUNICATION APPARATUS, ELECTRONIC TIMEPIECE, COMMUNICATION METHOD AND RECORDING MEDIUM | US15921088 | 2018-03-14 | US20180203420A1 | 2018-07-19 | Hiroshi MOROHOSHI; Hirohisa MARUYAMA |
| A communication apparatus comprises a communicator that receives a standard time from an external apparatus, a manipulation receiver that receives a time correction action from a user, and a controller that performs a timing processing for clocking time and a time correction processing for correcting the time clocked by the timing processing, on the basis of the standard time received by the communicator, or on the basis of the time correction action received by the manipulation receiver. The controller changes processing contents of the time correction processing until a prescribed time interval has elapsed, when the time clocked by the timing processing is corrected on the basis of the time correction action received by the manipulation receiver. | ||||||
| 75 | Communication apparatus, electronic timepiece, communication method and recording medium | US15381871 | 2016-12-16 | US09939789B2 | 2018-04-10 | Hiroshi Morohoshi; Hirohisa Maruyama |
| A communication apparatus comprises a communicator that receives a standard time from an external apparatus, a manipulation receiver that receives a time correction action from a user, and a controller that performs a timing processing for clocking time and a time correction processing for correcting the time clocked by the timing processing, on the basis of the standard time received by the communicator, or on the basis of the time correction action received by the manipulation receiver. The controller changes processing contents of the time correction processing until a prescribed time interval has elapsed, when the time clocked by the timing processing is corrected on the basis of the time correction action received by the manipulation receiver. | ||||||
| 76 | Method for time and time zone synchronization and terminal device | US14901828 | 2014-12-02 | US09459592B2 | 2016-10-04 | You Li |
| A method for time and time zone synchronization and a terminal device. After a terminal registers with a network or roams to the network, the terminal determines whether the network supports a Network Identity and Time Zone (NITZ) function; and if the terminal determines that the network supports the NITZ function, the terminal prompts a user that uses the terminal to use a function of automatic time and time zone synchronization when automatic synchronization is not set for the terminal; or if the terminal determines that the network does not support the NITZ function, the terminal prompts a user that uses the terminal to manually configure time and a time zone. According to the present application, correctness of time and a time zone of the terminal can be ensured. | ||||||
| 77 | Portable terminal apparatus having automatic adjustment function for time difference | US10148475 | 2001-05-23 | US06876600B2 | 2005-04-05 | Takeshi Ito; Natsuki Ushigome; Satoru Matsumoto |
| Area location information on a base station received by a receiver (12) is identified by an area location identification section (14) and an identification result is output to a time controller (24). In case an area location of a portable terminal apparatus (10) has changed with the movement of the portable terminal apparatus (10) thus causing a time difference in the area location of the portable terminal apparatus (10) before and after the movement, the time controller (24) obtains time difference information from a time difference information database (34), adds/subtracts the obtained time difference information to/from a reference time of a timekeeping section (18) to automatically calculate the time corresponding to the area location of the portable terminal apparatus (10) after movement and displays the time on the display section (26). Thus it is possible to display the correct time without entering or registering time difference information by a user. | ||||||
| 78 | Precise universal time for vehicles | US11988 | 1993-02-02 | US5319374A | 1994-06-07 | Simon Desai; James G. MacKnight |
| Method and apparatus for providing precise universal time coordination or synchronization for each of a plurality of N vehicles, numbered consecutively i=1, 2, . . ., N (N.gtoreq.2) that move within a selected geographic region and that communicate by radiowaves with one or more base stations located within or adjacent to the selected region. Each vehicle is provided with a sequence of Satellite Positioning System (SPS) signals, with a sequence of SPS timing signals, and with a SPS signal transceiver/processor that receives the SPS signals and SPS timing signals and determines the present location of the vehicle and the time the vehicle location determination is made. One or more base stations broadcast a sequence of base station timing signals that are received by each vehicle. A timing signal choice means on each vehicle receives the SPS timing signals sequence and the base station timing signals sequence and chooses the timing signal sequence that is both presently available and presently the most accurate. A sequence of nonoverlapping time slots is determined that includes substantially all times within a selected time interval. An ith group of these time slots is allocated to vehicle number i, with no two of these groups having one or more time slots in common. An on-board clock provides back-up time if SPS and base station timing signals are both unavailable; on-board clock time is continually corrected by SPS time or base station time, if available. The chosen sequence of timing signals for vehicle number i is then used to determine the times within the ith group of time slots during which that vehicle will transmit selected vehicle operating data, including present vehicle position, to one or more base stations. At any time, the chosen sequence of timing signals is accurate to within a range as low as 2-7 milliseconds. The Satellite Positioning System may be a Global Positioning System, a Global Orbiting Navigational System, or any other satellite-based system that provides accurate information on position and/or time of observation. | ||||||
| 79 | ELECTRICAL ENERGY CONSUMPTION TARGET DISPLAY DEVICE | EP12890340.8 | 2012-12-21 | EP2937743B1 | 2019-08-07 | UMAMOTO, Eiichi |
| 80 | DEMAND TARGET DISPLAY DEVICE | EP12890340 | 2012-12-21 | EP2937743A4 | 2016-08-17 | UMAMOTO EIICHI |
| The conventional demand target display device based on time information differing from the information used by electric power companies and electric power consumers causes a divergence regarding their demand values. Therefore, a demand target display device with a dual-purpose scale, which acquires AC signals based on the AC waveform of AC power from a power supply line, generates time information based on the acquired AC signals, transmits the generated time information via radio waves within a housing, receives the transmitted time information via radio waves within the housing, indicates the time on the dual-purpose scale based on the received information, acquires electrical energy consumption within a segment for a given target demand value including the current time, and indicates the relationship between the acquired electrical energy consumption within a segment recorded and a target demand value set for such segment, is proposed. | ||||||
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