| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 一种结构紧凑的电波钟 | CN202022479464.9 | 2020-10-30 | CN213517921U | 2021-06-22 | 吴夏萌; 邓义松 |
| 本实用新型涉及电波钟领域,具体为一结构紧凑的电波钟,包括表盘,所述表盘包括控制装置、数据处理、无线电波长信号、计时器、时间校准装置、温度检测装置、脉搏检测装置、电源装置、后盖以及显示器,通过无线电波长信号接收地面发射站以长波发送的标准时间信号经过数据处理分析记录信号信息,并将时间信号导入时间校准装置进行校对,再通过控制装置将信息导入显示器进行显示,并通过增加计时器、温度检测装置以及脉搏检测装置提高电波种的结构紧凑性,通过计时器记录时间,当无线电波长信号受损时,通过计时器记录的时间临时使用,通过温度检测装置检测周围的环境温度,通过脉搏检测装置检测佩戴者的心率,提高电波钟的使用效果。 | ||||||
| 22 | 手表控制电路及自动校正手表 | CN202020004404.9 | 2020-01-02 | CN211698631U | 2020-10-16 | 闫宇; 王传辉; 尹海昌 |
| 本实用新型公开了一种手表控制电路,并公开了具有手表控制电路的自动校正手表,其中手表控制电路包括供电模块,用于提供电源VCC;控制模块,连接所述供电模块,用于控制手表显示的时间;信号接收模块,输出端连接所述控制模块,用于接收授时信号并将所述授时信号传送至所述控制模块;第一时钟单元,连接所述信号接收模块的控制端,用于倒计时触发所述信号接收模块接收所述授时信号;第二时钟单元,输出端连接所述控制模块,用于正计时所述手表显示时间。此控制电路周期性触发信号接收模块,不触发时信号接收系统关闭,减少不必要的能源消耗,有利于延长手表的续航时间。 | ||||||
| 23 | 一种数显手表 | CN201821970464.5 | 2018-11-27 | CN209149097U | 2019-07-23 | 曾福康; 魏伟思 |
| 本实用新型公开一种数显手表,包括:MCU处理器;显示模块,所述显示模块与所述MCU处理器连接;GPS模块,所述GPS模块与所述MCU处理器连接;所述GPS模块将获取的位置信号传递给所述MCU处理器,MCU处理器根据位置信号进行计算出对应的时区数据;对时电波接收模块,所述对时电波接收模块与所述MCU处理器连接;信号检测模块,所述信号检测模块与所述MCU处理器连接,所述信号检测模块用于对比判断环境中的授时电波信号强度以及GPS信号强度,并将时间信息通过所述显示模块输出。本实用新型通过设置信号检测模块,结合GPS模块和对时电波接收模块,充分利用GPS对时精确度高以及电波对时功耗低的优点,从而实现在保证高精度的时间显示的同时减低手表能耗的目的。 | ||||||
| 24 | 电波机芯装置 | CN202023090069.8 | 2020-12-19 | CN213517900U | 2021-06-22 | 王涛; 李德力; 陈昌锋; 赵祺乐 |
| 本申请涉及一种电波机芯装置,包括机芯主体,机芯主体包括机芯后盖,所述电波机芯装置还包括安装于机芯后盖上的减震组件,减震组件包括安装于机芯后盖上的连接板和与连接板连接的弹性件。本申请解决了电波钟向桌面倾斜碰撞时电波机芯内零件可能被损坏的问题,提高了电波机芯的使用时间。 | ||||||
| 25 | 一种电波时钟讯号发生器 | CN202020092168.0 | 2020-01-16 | CN211293650U | 2020-08-18 | 吴晓霖 |
| 本实用新型提供了一种电波时钟讯号发生器,包括:外壳、电子核心控制板、操作面板和底座;所述电子核心控制板设置在所述外壳内,所述外壳为一体式长方体外壳,所述操作面板包括前置操作面板和后置操作面板,所述前置操作面板设置在所述外壳的前侧,所述后置操作面板设置在所述外壳的后侧;所述操作面板与所述电子核心控制板电连接,本实用新型结构简洁,适用性高,可提供多项模式的编码以高频型式供给各制式的电波时钟接收测试。 | ||||||
| 26 | 一种基于电波校时的环境参数记录装置 | CN201521017298.3 | 2015-12-10 | CN205247083U | 2016-05-18 | 丁丽华; 其他发明人请求不公开姓名 |
| 本实用新型公开了一种基于电波校时的环境参数记录装置,包括运算装置、电池供电装置、环境参数传感器、记忆电路、人机交互装置、数据通信装置、电波校时装置和时钟电路;电池供电装置,为运算装置、记忆电路、环境参数传感器、人机交互装置、数据通信装置、电波校时装置和时钟电路供电;环境参数传感器,实时采集环境参数,并传送给运算装置;记忆电路,存储环境参数;人机交互装置用于接收人体输入,并呈现声音和图像信息;数据通信装置,将记忆电路存储的环境参数通过运算装置导出到外部系统;电波校时装置,定时以无线方式接收国家授时中心传送的标准时间信号,并进行修正后发送给运算装置,运算装置对时钟电路进行精确时间校准,以达到对环境参数检测记录设备实时、自动、精确、高效校时,并能同时应用于室外和室内的目的。 | ||||||
| 27 | 一种改进型电波闹钟 | CN201420429053.0 | 2014-07-31 | CN204129450U | 2015-01-28 | 吴晓霖; 吴夏萌; 蔡跃辉; 林坚 |
| 本实用新型公开一种改进型电波闹钟,包括双频电波机芯,该双频电波机芯主要包括主控电路、接收电路和马达驱动电路;接收电路主要设有芯片U1,电感L,晶振X1、X2,及电容C1、C2、C3、C4;芯片U1设有与所述主控电路相连接的控制输入端和信号输出端,还设有第一、第二、第三晶振端和第一、第二、第三工作端;马达驱动电路主要设有芯片U2,电容C9和马达M,芯片U2设有与所述主控电路相连接的控制端,还设有第一、第二连接端。本案改进型电波闹钟具有双频工作模式并且能够自动选择环境的频率工作,同时具有耗电小、噪音小的超小型结构,二者相结合可适于人们携带出行中使用便利,具有多样、灵活、实用等特点。 | ||||||
| 28 | 자동 시간 교정장치 | KR1020120036587 | 2012-04-09 | KR101358903B1 | 2014-02-05 | 김용광 |
| 본 발명은 자동 시간 교정장치에 관한 것으로,
AM 안테나, FM 안테나, TV 중파 안테나, 단파 안테나, GPS 수신부 및 장파 수신부를 통한 AM 시간정보, FM 시간정보, TV 중파 시간정보, 단파 시간정보, GPS에 의한 시간정보 및 장파의 시보음을 제1 비교부에 전달하도록 하고, 상기의 제1 비교부에서 AM 시간정보, FM 시간정보, TV 중파 시간정보, 단파 시간정보, GPS(Global Positioning System)에 의한 시간정보 및 장파의 시보음을 비교하여 비교 데이터를 검출부로 전달하도록 하고, 상기의 검출부에서는 제1 작동/대기 선택 타이머로부터의 제어 신호를 전달받으면서 내부의 제1 클록 발생기로부터의 비교 데이터에 의하여 가장 안정적인 시간정보를 선택하도록 하고, 상기의 가장 안정적인 시간정보를 전달받는 메인 컨트롤러에서는 전달되는 시간정보와 현재의 시간정보를 제2 비교부에서 출력하여 오차의 범위를 비교하도록 하고, 상기 제2 비교부로부터 오차의 범위에 따른 정보를 전달받은 메인 컨트롤러에서는 오차의 범위에 의하여 시간을 교정할 시기와 교정값에 따른 교정신호를 결정하도록 하고, 상기의 메인 컨트롤러에서 결정된 교정신호는 무선송신부로 전달되어 건물의 내부나 지하 또는 터널의 내부에 설치한 다수의 시계로 무선으로 전송되도록 하고, 상기 무선송신부를 통해 메인 컨트롤러로부터 교정신호를 전달받는 각 시계의 무선수신부에서는 제2 작동/대기 선택 타이머로부터의 제어 신호를 전달받으면서 시간 교정을 위한 과정을 수행할 수 있도록 하고, 상기 무선수신부를 통하여 교정신호를 전달받는 제3 비교부에서는 가장 최근의 시간정보를 전달받으면서 현재의 시간과의 오차에 의해 오차 범위 정보를 서브 컨트롤러에 전달하여 시간을 교정할 제어신호를 출력하도록 하고, 내부의 제2 클록 발생기로부터 클록을 전달받으면서 상기의 시간을 교정할 제어신호를 전달받는 시간조정부에서는 시간교정을 위한 클록 신호를 출력하여 시간교정이 작동하도록 구성한 것이다. |
||||||
| 29 | TIME-SYNCHRONIZING A GROUP OF NODES | EP15777530.5 | 2015-03-19 | EP3129838A1 | 2017-02-15 | GOMEZ GUTIERREZ, David; PARRA VILCHIS, Jose; DE LA GUARDIA GONZALEZ, Rafael |
| Systems and methods include receiving, values of one or more first external time variables from a first external node and values of one or more second external time variables from a second external node. The values of one or more local time variables of the local node are adjusted based at least upon the values of the one or more first external time variables and the values of the one or more second external time variables. | ||||||
| 30 | TIME-DATA TRANSMITTING APPARATUS AND TIME-CORRECTING SYSTEM | EP03777409.8 | 2003-12-09 | EP1573405B1 | 2014-04-02 | Sano, Takashi |
| 31 | Electronic device and timepiece | US15895506 | 2018-02-13 | US10691078B2 | 2020-06-23 | Kazumasa Yokoo; Makoto Sawada; Yuta Saito |
| An electronic device and time piece are shown. The electronic device includes: a plurality of antenna devices; a plurality of motors; and antimagnetic plates, each fully or partially covering the motors and having cutouts at positions overlapping with the antenna devices. | ||||||
| 32 | Operation of a standalone sensor device | US15186434 | 2016-06-18 | US09900966B2 | 2018-02-20 | Tanuj Mohan; Omkar Prabhu; Venkatesh Srinivasan |
| Apparatuses, methods, apparatuses and systems for standalone sensor unit are disclosed. For an embodiment, the standalone sensor unit includes a plurality of sensors and a controller. The controller is operative to detect a presence of a mobile unit, wherein detecting the presence of the mobile unit comprises the controller being operative to sense motion with a motion sensor, and sense a strobe of light, wherein the sensed motion and the sensed strobe of light occur within a predetermined time of each other, and receive a configuration setting from the mobile unit within a window of time after presence of the mobile unit has been detected. | ||||||
| 33 | Radio controlled timepiece and method for controlling radio controlled timepiece | US14947258 | 2015-11-20 | US09709961B2 | 2017-07-18 | Teruhiko Fujisawa |
| The fixed-time reception control section carries out the reception process at first time to acquire first reception time data and compares the acquired first reception time data with the internal time. When a difference in time between the first reception time data and the internal time is greater than or equal to a first threshold, the fixed-time reception control section carries out the reception process at second time different from the first time to acquire second reception time data. The time correction section compares the acquired second reception time data with the internal time and corrects the internal time based on the second reception time data when a difference in time between the second reception time data and the internal time is smaller than a second threshold. | ||||||
| 34 | Method for gaining time information and receiver for implementing the method | US11057030 | 2005-01-28 | US20050260958A1 | 2005-11-24 | Horst Haefner; Roland Polonio; Hans-Joachim Sailer |
| Time signals transmitted by a time signal transmitter and received by a receiver are processed for gaining time information and for reducing demodulation errors to increase the demodulation certainty. For this purpose the following steps are performed in a time signal receiver: a) scanning of received time signals, b) storing of scanned values of the time signal, c) detecting from the scanned and stored values an amplitude change in said time signal, d) measuring the duration of any detected amplitude changes, e) evaluating the measured time durations relative to a predetermined time duration (Δt) and f) excluding from further processing amplitude changes that have a measured duration that is shorter than the predetermined duration. Amplitude changes of longer duration than (Δt) are demodulated and further processed. The receiver circuit is equipped to perform the foregoing steps, particularly in a radio-controlled clock. | ||||||
| 35 | Electronic timepiece including rotary weight and antenna | US10397822 | 2003-03-26 | US06934222B2 | 2005-08-23 | Shigeyuki Fujimori |
| The driving portion 4 is composed of multipolar motor 43. The multipolar motor 43 includes a coil 431 for multipolar motor 43, a stator 432 for multipolar motor 43, for transmitting a magnetic field from coil 431, and a rotor 433 for multipolar motor 43 installed ratably in a stator hole of stator 432. A multipolar magnet is provided on a peripheral part of rotor 433. A plurality of teeth are formed on stator 432 toward rotor 433. Clock hands for displaying time are installed on the rotation axis of rotor 433. | ||||||
| 36 | Antenna device integrally fixed to portable electronic appliance | US549700 | 1995-11-15 | US5696518A | 1997-12-09 | Yukio Itoh; Tadashi Yasuoka; Ryoji Amemiya |
| An antenna device used for portable electronic appliances such as electronic wristwatches furnished with a reception function. Antenna device 100 is bent conforming to the side of watch case 201 and installed on the side of watch case 201. The antenna device is composed of an antenna 110 and an antenna case 150 in which the antenna 110 is housed. The antenna case is made of or coated with a non-metallic material and formed separately from a watch case made of a metallic material. In addition, the antenna case is fixed to watch case 201 with screws 152 at positions apart from the extended line P of antenna core 111. | ||||||
| 37 | Radio wave-standardized electronic timepiece | US24493 | 1993-03-01 | US5297120A | 1994-03-22 | Toshiyuki Yuzuki; Yuichi Inoue; Kazumi Sakumoto |
| A radio wave-standardized electronic timepiece which stores the time at which the timepiece succeeds in reception in conformity with the pattern of living of the user, and on the following days, the timepiece begins to receive from the stored times.A reception success comparison circuit compares the output signal from a reception success time storage circuit with the output signal from a time information calculation circuit. A reception time comparison circuit compares the output signal from a reception time addition circuit with the output signal from the time information calculation circuit. A reception operation discrimination circuit controls a receiver means according to its input signal. A transfer circuit modifies a time counter and the contents of the reception success time storage circuit according to the output signal from a received data acceptance decision circuit. A display means displays the contents according to the output signal from the time information calculation means. | ||||||
| 38 | AUTONOMOUS RADIO TIMEPIECE | US69469091 | 1991-05-02 | US5105396B1 | 1993-11-30 | |
| 39 | Autonomous radio controlled timepiece | US598830 | 1990-10-18 | US5083123A | 1992-01-21 | Wolfgang Ganter; Wolfram Hodapp |
| An autonomous radio controlled timepiece having a display for displaying information relative to receiving conditions to provide the consumer with increased assurance regarding the accuracy of the instantaneous time display. For this purpose, an analog or digital, optionally multidigit display element is provided, which displays supplemental information concerning the quality of reception, expressed as an indication of the period of time elapsed since the most recent monitoring and possible correction of the time display, the correction based on the information received by radio and decoded. The display element offers the lowest possible display value if the radio reception conditions are good enough that each actuation of the receiver leads to the acquisition of usable time information. The degree of certainty in the accuracy of the time display predisposes the timepiece to be used as an alarm clock in particular, in which case the alarm clock need only be equipped with setting elements for preselecting the time of alarm, for an alarm interruption or deactivation, and optionally for the switching of a supplemental display between displaying the preselected time of alarm and date information obtained from the radio information. | ||||||
| 40 | 자동 시간 교정장치 | KR1020120036587 | 2012-04-09 | KR1020130005213A | 2013-01-15 | 김용광 |
| PURPOSE: An automatic time correction device is provided to always display accurate time despites presence of frequency disturbance or noise by judging a current time using the most stable time information. CONSTITUTION: A main controller(17) outputs time information transmitted for comparison of the range of an error and current time information a second comparison part. The main controller receives information according to the range of an error from the second comparison part. A time adjustment part(26) outputs a clock signal for time adjustment so that multiple clocks may perform time adjustment simultaneously. [Reference numerals] (1) AM antenna; (10) GPS detector part; (11) Long wave receiving part; (12) Long wave detector part; (13) First comparator; (14) Detector; (15) First operation/standby selection timer; (16) First clock generator; (17) Main controller; (18) Second comparator; (19) Wireless transmitting part; (2) AM detector part; (20,20a,20n) Clock; (21) Wireless receiving part; (22) Second operation/standby selection timer; (23) Third comparator; (24) Sub controller; (25) Second clock generator; (26) Time adjustment part; (3) FM antenna; (4) FM detector part; (5) TV medium wave antenna; (6) TV medium wave detector part; (7) Short wave antenna; (8) Short wave detector part; (9) GPS receiving part | ||||||
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