公开(公告)号：KR100836640B1

公开(公告)日：2008-06-10

申请号：KR1020080014696

申请日：2008-02-19

Applicant: 이경주

Inventor： 이경주

IPC: G01C3/18 ,  G01S5/14 ,  G01B21/32 ,  G01C3/10

CPC classification number: G01C3/18 ,  G01B21/32 ,  G01C15/00 ,  G01C25/00 ,  G01S5/14 ,  G08C17/02 ,  G08C2201/00

Abstract: A surveying system is provided to allow laser beam of a laser survey unit to transmit through a transparent window without obstruction by washing the transparent window with a washer. A surveying system includes a pile(10), a main survey unit(20), a detector(30), a washer, and a wireless terminal. The pile is fixed down to a hard foundation exposing the upper part thereof over the ground. The main survey unit is installed on the pile and generates laser beams for survey. The detector is installed on the upper part of a reference point(3) and receives the laser beam from the main survey unit for calculating a received position of the laser beam. The washer is installed on the main survey unit and the detector and washes transparent windows of the main survey unit and the detector. The wireless terminal communicates with the main survey unit.

Abstract translation: 提供了一种测量系统，允许激光测量单元的激光束通过透明窗口传输，而无需通过用洗衣机清洗透明窗口而阻塞。 测量系统包括桩（10），主测量单元（20），检测器（30），洗衣机和无线终端。 将桩固定到坚硬的基础上，将其上部暴露在地面上。 主要测量单元安装在桩上，生成激光束进行测量。 检测器安装在参考点（3）的上部，并接收来自主测量单元的激光束，用于计算激光束的接收位置。 洗衣机安装在主检测单元和检测器上，并清洗主检测单元和检测器的透明窗口。 无线终端与主测量单元进行通信。

公开(公告)号：KR1020000033818A

公开(公告)日：2000-06-15

申请号：KR1019980050851

申请日：1998-11-23

Applicant: 한국전기연구원

Inventor： 배정효 ,  김대경 ,  하태현 ,  이현구

IPC: G08C17/02

CPC classification number: G08C17/02 ,  G08C2201/00

Abstract: PURPOSE: A remote corrosion monitoring and corrosion-proof control system is provided to remotely monitor the corrosion state of the buried metallic structure in electrolytes like underground or underwater by a wireless communication. CONSTITUTION: A terminal device for a remote corrosion monitoring is installed in several places of the metallic structure and detected values are transmitted to a server by a wireless communication. The server displays all kinds of monitoring screen and graphic screen to make a database for the corrosion potential and to let an operator know the corrosive or corrosion-proof state, and then calls the operator by a wireless terminal. It is designed to remotely control a corrosion-proof current output from a corrosion-proof eliminator and to easily monitor the metallic structure state in the main control office by wireless.

Abstract translation: 目的：提供远程腐蚀监测和防腐控制系统，通过无线通信远程监测地下或水下电解质中埋藏金属结构的腐蚀状态。 构成：用于远程腐蚀监测的终端设备安装在金属结构的几个位置，检测值通过无线通信传输到服务器。 服务器显示各种监控画面和图形画面，形成腐蚀潜力数据库，让操作员知道腐蚀性或防腐蚀状态，然后通过无线终端呼叫操作员。 它设计用于远程控制防腐蚀消除器的防腐电流输出，并通过无线方式轻松监控主控室的金属结构状态。

公开(公告)号：KR1020140060926A

公开(公告)日：2014-05-21

申请号：KR1020120127889

申请日：2012-11-13

Applicant: 에스제이포토닉스 주식회사

Inventor： 백세종

IPC: G01C9/06 ,  G01C9/12 ,  G01B21/22

CPC classification number: G01C9/06 ,  G01B21/22 ,  G01C9/12 ,  G01C15/00 ,  G08C2201/00

Abstract: The present invention relates to an apparatus for measuring the gradient of an electrical facility, which comprises: a housing which is mounted in an electrical facility and has an internal space; a flexible supporting bar whose top is extended downward by being supported by the housing inside the internal space of the housing, and which is formed of an elastic material capable of freely bending according to the changes in the gradient of the housing; a weight pendulum which is combined with the bottom of the flexible supporting bar in order to induce the bending of the flexible supporting bar according to the changes in the gradient of the housing due to self-weight; a first optical fiber grid which is combined with one side surface along the longitudinal direction of the flexible supporting bar; a second optical fiber grid which is combined with the other side surface along the longitudinal direction of the flexible supporting bar, and is connected with the first optical fiber grid in series; a light source; a light circulator which receives light radiated from the light source in order to transmit the light to a light transmission line ranging from the first optical fiber grid and the second optical fiber grid through a first output terminal, and outputs the received light, reflected from the first and second optical fiber grids, through a second output terminal; a light detecting unit which detects the light outputted through the second output terminal of the light circulator; and a gradient calculating unit which calculates the changes in the gradient of the housing from the light detected by the light detecting unit. Therefore, multiple apparatuses for measuring the gradient of an electrical facility can be installed in series in an electrical facility such as a steel tower in order to receive gradient information through a communications network and to continuously monitor the safety state of the electrical facility in a remote place.

Abstract translation: 本发明涉及一种用于测量电气设备梯度的装置，其包括：壳体，其安装在电气设施中并具有内部空间; 柔性支撑杆，其顶部通过由壳体内部空间内的壳体支撑而向下延伸，并且由弹性材料形成，该弹性材料能够根据壳体的梯度的变化而自由弯曲; 与柔性支撑杆的底部结合的重量摆锤，以便根据由于自重而使壳体的坡度变化而引起柔性支撑杆的弯曲; 第一光纤格栅，其与柔性支撑杆的纵向方向的一个侧面结合; 第二光纤格栅，其沿着柔性支撑杆的长度方向与另一侧面结合，并与第一光纤格栅串联连接; 光源; 光循环器，其接收从光源照射的光，以便通过第一输出端将光传输到从第一光纤格栅和第二光纤格栅的范围内的光传输线，并且输出从 第一和第二光纤网格，通过第二输出端子; 光检测单元，其检测通过所述光循环器的第二输出端子输出的光; 以及梯度计算单元，其根据由光检测单元检测到的光来计算外壳的倾斜度的变化。 因此，用于测量电气设备的梯度的多个装置可以串联安装在诸如钢塔的电气设施中，以便通过通信网络接收梯度信息，并且连续地监视远程设备中的电气设施的安全状态 地点。

公开(公告)号：KR100841464B1

公开(公告)日：2008-06-30

申请号：KR1020070102671

申请日：2007-10-11

Applicant: 한국종합설계 주식회사

Inventor： 김충기

IPC: G01C15/00 ,  G01S5/02

CPC classification number: G01C15/00 ,  G01S5/02 ,  G08B25/10 ,  G08C2201/00 ,  H04W88/02

Abstract: A surveying system is provided to continuously check subsidence of the ground where a reference point is installed by using a wireless transceiver buried under the ground and a plurality of receivers installed on the ground. A surveying system includes a wireless transceiver(10), at least three receivers(20), a control unit, a wireless transmitting unit, and an output unit. The wireless transceiver is fixed to the hard ground(1) around an installation position of a reference point(3) and wirelessly transmits a previously recorded identification code when receiving a control signal. Each of the receivers has an antenna to receive the identification code transmitted from the wireless transceiver. The receivers are dispersedly installed on the ground around the installation position of the reference point. The control unit controls the receivers and calculates a relative position between a triangular plane of the three receivers and the wireless transceiver from distances between the wireless transceiver and the receivers. The wireless transmitting unit outputs the control signal to control the wireless transceiver according to a signal of the control unit. The output unit is connected to the control unit to output relative position data calculated by the control unit.

Abstract translation: 提供测量系统，通过使用埋在地下的无线收发器和安装在地面上的多个接收器来连续检查安装参考点的地面沉降。 测量系统包括无线收发器（10），至少三个接收器（20），控制单元，无线发射单元和输出单元。 无线收发器在接收控制信号时，围绕参考点（3）的安装位置固定在硬接地（1）上，并且无线地发送先前记录的识别码。 每个接收器具有用于接收从无线收发器发送的识别码的天线。 接收器分散安装在围绕参考点安装位置的地面上。 控制单元控制接收器并根据无线收发器和接收器之间的距离计算三个接收器的三角形平面与无线收发器之间的相对位置。 无线发送单元根据控制单元的信号输出控制信号以控制无线收发信机。 输出单元连接到控制单元以输出由控制单元计算的相对位置数据。

公开(公告)号：KR1020000034246A

公开(公告)日：2000-06-15

申请号：KR1019980051525

申请日：1998-11-28

Applicant: 서창전기통신 주식회사

Inventor： 윤석모

IPC: G08C17/02

CPC classification number: G08C17/02 ,  G06F3/0482 ,  G08C2201/00

Abstract: PURPOSE: A meter reading method in a hand terminal is provided to read the used data (electricity) detected by each meter of the wireless communicating method and also to inform the total using amount by reading the previous data and the current used data together. CONSTITUTION: A meter reading method comprises the steps of: inputting identified data (ID) of the meter wanted to read; storing and displaying the controlled number key corresponded to ID; checking the existence of the stored ID up after controlling the transmission key by the user; transmitting the stored ID by the wireless; displaying the ID of the meter wanted to read by the response to the transmitted data, and the received current and previous data; and setting the power-down mode of the hand terminal when the transmission or cancel key is not controlled after some times.

Abstract translation: 目的：提供手持终端中的抄表方法来读取由无线通信方法的每一米检测到的使用数据（电），并且通过一起读取先前数据和当前使用的数据来通知总使用量。 构成：抄表方法包括以下步骤：输入要读取的仪表的识别数据（ID）; 存储和显示对应于ID的受控号码密钥; 在用户控制传输密钥之后检查存储的ID的存在; 通过无线传输存储的ID; 通过对所发送的数据的响应显示想要读取的计量器的ID以及所接收的当前和先前数据; 并且在发送或取消键不被控制一段时间之后，设置手持终端的掉电模式。

公开(公告)号：TW201806815A

公开(公告)日：2018-03-01

申请号：TW106125897

申请日：2017-08-01

Applicant: 美商速聯有限責任公司 ,  SRAM, LLC

Inventor： 喬丹 布萊恩 ,  JORDAN, BRIAN ,  史奎爾斯 陶德 ,  SQUIRES, TODD ,  普露瑪 曼森 ,  PLUIMER, MASON ,  韓恩 塞吉 ,  HAHN, SAGE ,  何 幹毅 ,  HO, ALEXANDER KON-I

IPC: B62K23/02 ,  B62M25/08 ,  B62M9/132

CPC classification number: B62M25/08 ,  B62J99/00 ,  G08C17/00 ,  G08C2201/00

Abstract: 本發明揭示一種用於一腳踏車之無線控制系統，其包含用於一腳踏車之一組件之一第一換擋控制單元，該第一控制單元包含：一無線電，其經組配以接收由該腳踏車之一第二控制單元以無線方式傳輸的控制信號；該無線電可操作以僅在該無線電在一收聽模式下操作時接收該等控制信號；以及一處理器，其經組配以：啟動該無線電之該收聽模式歷時一第一時間長度；藉由該無線電偵測該第一時間長度期間之一噪音位準；以及在該噪音位準達到一噪音位準臨限值時，使該收聽模式之該啟動延長歷時一第一延長時間段。

Abstract in simplified Chinese: 本发明揭示一种用于一單車之无线控制系统，其包含用于一單車之一组件之一第一换挡控制单元，该第一控制单元包含：一无线电，其经组配以接收由该單車之一第二控制单元以无线方式传输的控制信号；该无线电可操作以仅在该无线电在一收听模式下操作时接收该等控制信号；以及一处理器，其经组配以：启动该无线电之该收听模式历时一第一时间长度；借由该无线电侦测该第一时间长度期间之一噪音位准；以及在该噪音位准达到一噪音位准临限值时，使该收听模式之该启动延长历时一第一延长时间段。

公开(公告)号：KR1020130011828A

公开(公告)日：2013-01-30

申请号：KR1020110073251

申请日：2011-07-22

Applicant: 에스케이브로드밴드주식회사

Inventor： 안호순 ,  임종국 ,  김정욱

IPC: G05B23/02 ,  G05B19/418 ,  H04L12/26

CPC classification number: G05B23/02 ,  G01R31/02 ,  G05B19/4185 ,  G05B2219/23297 ,  G06Q50/10 ,  G08C2201/00 ,  Y02P90/18

Abstract: PURPOSE: A remote control system in a communication system is provided to control a communication company without monitoring by reporting a control command performance result or the condition of a monitoring device in a text message type. CONSTITUTION: An intrinsic telephone number is granted to a wireless communication unit(430) of a communication company. A communication company control unit(410) receives measurement data, condition data, or control command performance result data. The communication company control unit controls the whole of devices in a communication company. A communication company storage unit(412) stores a serial number, the measurement data, the condition data, and the control command performance result data as a predetermined code. A communication company text message generating unit(411) generates the serial number and one of the measurement data, the condition data, and the control command performance result as a text message. [Reference numerals] (411) Text message generating unit; (440) Equipment console access; (460) Communication line monitoring; (AA) Light; (BB) Managing equipment power; (CC) Monitoring a temperature state; (DD) Monitoring a door state; (EE) Monitoring a fire state; (FF) Monitoring a flooding state; (GG) Monitoring camera; (HH) Monitoring an input power state; (II) Monitoring an output power state; (JJ) Monitoring a usage current state; (KK) Monitoring a leakage current state

Abstract translation: 目的：提供通信系统中的远程控制系统，通过报告控制命令性能结果或文本消息类型中的监视设备的状况来控制通信公司而不进行监控。 规定：内部电话号码被授予通信公司的无线通信单元（430）。 通信公司控制单元（410）接收测量数据，条件数据或控制命令性能结果数据。 通信公司控制单元控制通信公司的整个设备。 通信公司存储单元（412）将序列号，测量数据，条件数据和控制命令演奏结果数据存储为预定码。 通信公司文本消息生成单元（411）生成作为文本消息的序列号和测量数据，条件数据以及控制命令执行结果中的一个。 （附图标记）（411）文本消息生成单元; （440）设备控制台访问; （460）通信线路监控; （AA）光; （BB）管理设备电源; （CC）监测温度状态; （DD）监控门状态; （EE）监测火灾状态; （FF）监测淹水状态; （GG）监控摄像机; （HH）监视输入电源状态; （二）监测输出功率状态; （JJ）监视使用状态; （KK）监测泄漏电流状态

公开(公告)号：KR1020100008109A

公开(公告)日：2010-01-25

申请号：KR1020080068518

申请日：2008-07-15

Applicant: (주)미라클산업

Inventor： 김궁철

IPC: G08C17/00 ,  G08C17/02 ,  G08G1/07 ,  G08G1/01

CPC classification number: G08C17/02 ,  G08C2201/00

Abstract: PURPOSE: A method of providing road weather information and system thereof are provided to prevent traffic accident in advance by grasping road surface state. CONSTITUTION: The road surface sensor(300) measures the state of the road. The fog sensor(200) measures the visible distance and density of mist in a regular interval section. The wind direction & speed sensor(110) measures direction of the wind direction and speed of the road. The temperature & humidity sensor(130) measures temperature and humidity of the road. The data processor(500) receives a message the information outputted from sensor. The database outputs control signal connected to data processor.

Abstract translation: 目的：提供一种提供道路天气信息的方法及其系统，以通过掌握路面状态提前预防交通事故。 规定：路面传感器（300）测量道路的状态。 雾传感器（200）测量常规间隔部分中雾的可见距离和密度。 风向和速度传感器（110）测量风向和道路速度的方向。 温度和湿度传感器（130）测量道路的温度和湿度。 数据处理器（500）从传感器接收信息。 数据库输出连接到数据处理器的控制信号。

公开(公告)号：KR100837264B1

公开(公告)日：2008-06-11

申请号：KR1020080014686

申请日：2008-02-19

Applicant: 주식회사 미래지중정보

Inventor： 최정규

IPC: G01C3/18 ,  G01S5/14 ,  G01B21/32 ,  G01C3/10

CPC classification number: G01C3/18 ,  G01B21/32 ,  G01C15/00 ,  G01C25/00 ,  G01S5/14 ,  G08C17/02 ,  G08C2201/00

Abstract: A geographic information deviation check system using a reference point is provided to monitor a deviation and its amount in geographic information in real time using a laser where a transparent window is kept clean not to interrupt the laser beam. A geographic information deviation check system using a reference point includes a pile(10), a main survey unit(20), a detector(30), a washer, and a wireless terminal. The pile is fixed down to a hard foundation exposing the upper part thereof over the ground. The main survey unit is installed on the pile and generates laser beams for survey. The detector is installed on the upper part of a reference point(3), receives the laser beam from the main survey unit and checks position change of the reference point based on a received position of the laser beam in order to correct the reference point. The washer is installed on the main survey unit and the detector and washes transparent windows of the main survey unit and the detector. The wireless terminal communicates with the main survey unit.

Abstract translation: 提供使用参考点的地理信息偏差检查系统，以使用保持透明窗口的激光器实时地监视地理信息中的偏差及其量，不会中断激光束。 使用参考点的地理信息偏差检查系统包括桩（10），主测量单元（20），检测器（30），洗衣机和无线终端。 将桩固定到坚硬的基础上，将其上部暴露在地面上。 主要测量单元安装在桩上，并生成激光束进行测量。 检测器安装在参考点（3）的上部，从主测量单元接收激光束，并根据激光束的接收位置检查参考点的位置变化，以校正参考点。 洗衣机安装在主检测单元和检测器上，并清洗主检测单元和检测器的透明窗口。 无线终端与主测量单元进行通信。

公开(公告)号：KR100787157B1

公开(公告)日：2007-12-21

申请号：KR1020070102683

申请日：2007-10-11

Applicant: 이경주

Inventor： 이경주

IPC: G01C15/00 ,  G01S5/02 ,  G01C5/00

CPC classification number: G01C15/00 ,  G01S5/02 ,  G01S19/01 ,  G08B25/10 ,  G08C2201/00

Abstract: A grounding sinking sensing system of a leveled triangulation point and a benchmark by using a satellite position system is provided to quickly confirm the state of ground subsidence caused by the ground subsidence by wireless transmitting measured data. A grounding sinking sensing system of a leveled triangulation point and a benchmark by using a satellite position system includes a body(10), a measuring unit(20), and a wireless receiver. The body has a support(11), a protecting case(12), a first tube(13), a fluid injection pump(14), a storage tank(15), a GPS unit, a control unit, and a wireless transmitting part. The measuring unit has a slide guide(21) erected on a ground, an outer case(22), a second tube, a fixing unit(24), a control unit, a wireless transmitting part, and a water level measurement instrument which measures a water level of the fluid flowing to the second tube.

Abstract translation: 提供了一种通过使用卫星定位系统实现三角测量点和基准测试的接地沉降感测系统，通过无线传输测量数据快速确认地面沉降引起的地面沉降状态。 通过使用卫星定位系统的平坦化三角测量点和基准测试的接地沉没感测系统包括一个主体（10），一个测量单元（20）和一个无线接收器。 主体具有支撑件（11），保护壳体（12），第一管件（13），流体注射泵（14），储存箱（15），GPS单元，控制单元和无线传输 部分。 测量单元具有竖立在地面上的滑动引导件（21），外壳（22），第二管，定影单元（24），控制单元，无线传输部分和水位测量仪器 流体流向第二管的水位。