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    • 1. 发明公开
    • 임의의 통신방식을 갖는 센서와 통신하기 위한 방법 및 이를 이용하는 제어장치
    • 与具有某种通信协议的传感器和使用相同方法的控制设备的通信方法
    • KR1020130121062A
    • 2013-11-05
    • KR1020130093359
    • 2013-08-06
    • 주식회사 하이드로넷
    • 박준기임우석
    • H04L29/12H04L29/10
    • H04L67/125H04L49/253
    • According to the example of the present inventive concept, disclosed in a controller for communicating with a sensor having a random communication protocol is the controller for comprising a plurality of interface circuits capable of processing the signal of a communication protocol corresponding to each different communication protocol and a switching circuit capable of selecting the corresponding interface circuit to the communication protocol of the sensor which is currently installed in the plurality of the interface circuits based on a control signal for setting the communication protocol between the controller and the sensor and capable of receiving the control signal. [Reference numerals] (10) Communication unit;(120) Sensor;(200) Remote server;(30) Memory;(40) Signal processing unit;(51) IR circuit;(52) RS 232 circuit;(53) RS 485 circuit;(60) Switch;(70) Port
    • 根据本发明构思的示例,在与具有随机通信协议的传感器进行通信的控制器中公开的是包括能够处理对应于每个不同通信协议的通信协议的信号的多个接口电路的控制器,以及 一种切换电路,其能够基于用于设置控制器和传感器之间的通信协议的控制信号,并且能够接收控制信号而选择当前安装在多个接口电路中的传感器的通信协议的对应接口电路 信号。 (10)通信单元;(120)传感器;(200)远程服务器;(30)存储器;(40)信号处理单元;(51)红外线电路;(52)RS 232电路;(53)RS 485电路;(60)开关;(70)端口
    • 3. 发明公开
    • 싱크홀 탐지 기능을 갖는 지하수 관측 시스템
    • 用于检测地下水的功能的系统
    • KR1020160095293A
    • 2016-08-11
    • KR1020150016233
    • 2015-02-02
    • 주식회사 하이드로넷
    • 박준기봉태근권성원
    • G01V1/44G01V1/52G01D21/02G01K13/00G01N27/06G01F23/00G01C9/00
    • G01V1/44G01C9/00G01D21/02G01F23/00G01K13/00G01N27/06
    • 본발명의일 실시예에따르면, 싱크홀탐지기능을갖는지하수관측시스템에있어서, 지하수관정의상부에배치되고, 상기관정내에삽입되는케이블을감거나푸는윈치; 및상기케이블의단부에부착되며, 탄성파를발생시키는제1 탄성파발신기및 탄성파를수신하는제1 탄성파수신기를포함하는제1 센서어셈블리;를포함하고, 상기제1 센서어셈블리가상기윈치에의해상기관정내에서상승또는하강할때 케이블의소정길이간격마다정지하고, 이정지상태에서, 상기제1 탄성파발신기가탄성파를발신하고상기제1 탄성파수신기가이 발신된탄성파의반사파및/또는굴절파를수신하는것을특징으로하는, 싱크홀탐지기능을갖는지하수관측시스템을제공한다.
    • 根据本发明的实施例,在具有沉孔检测功能的地下水监测系统中, 提供了具有沉孔检测功能的地下水监测系统,其包括:布置在地下水管井的上部的绞盘,缠绕或放开插入管井的电缆; 以及附接到电缆端部的第一传感器组件,包括产生声波的第一声波发射器和接收声波的声波接收器。 当第一传感器组件通过绞盘在管井中上升或下降时,第一传感器组件在电缆的每个固定间隔处停止。 在其停止状态下,第一声波发送器发送声波,第一声波接收器接收声波的反射波和/或折射波。
    • 5. 发明公开
    • 유량 정보 예측 시스템 및 방법
    • 流量信息期望系统及其方法
    • KR1020150061290A
    • 2015-06-04
    • KR1020130145223
    • 2013-11-27
    • 주식회사 하이드로넷
    • 박준기류두산
    • E03B11/16
    • E03B5/04E03B11/02Y02B70/00
    • 지하관정에설치한심정펌프를가동하여물탱크로파이프를통해물을공급하며, 상기물탱크에수위를물탱크제어기로부터수신하는유량정보예측시스템및 그의유량정보예측방법이개시된다. 물사용이없는시간에제어부가심정펌프를구동하고, 상기제어부가상기물탱크제어기로부터물탱크의수위정보를수신한다. 그리고나서, 상기제어부가상기심정펌프구동시간에대응되는물탱크수위변화의정보를생성한다. 이렇게물을펌핑하고물탱크의수위를측정하여시간에대응하는유량정보를취득할수 있다. 또한, 본발명의실시예에서는물사용이없을때의물탱크의수위변화를측정하여물사용량을취득할수 있다. 또한, 본발명의실시예에서는양정수위정보와유량변화정보를이용하여펌프의최적운전정보를계산할수 있다.
    • 公开了一种流量信息预测系统及其方法,其通过操作安装在地下管井中的深井泵并通过水箱控制器接收水箱的水位而通过管道向水箱供水。 当不使用水时,深井泵由控制单元操作,控制单元从水箱控制器接收水箱的水位信息。 因此,控制单元生成与深井泵的运转时间对应的水箱的水位变化的信息。 可以通过泵送水和测量水箱的水位来获取与时间相对应的流量信息。 此外,根据本发明的实施方式,可以通过在不使用水时测量水箱的水位的变化来获得使用的水量。 此外,根据本发明的实施例,可以通过使用关于流体头和流量变化信息的信息来计算泵的最佳驾驶信息。
    • 6. 发明授权
    • 소형 풍력발전 충전이 가능한 지하수 수질 원격관측 장치
    • 用于充电电池的小风力发电的地面水质远程观测装置
    • KR101343932B1
    • 2013-12-20
    • KR1020130054370
    • 2013-05-14
    • 주식회사 하이드로넷
    • 임우석현민호김상훈이준형
    • G01N33/18F03D9/00
    • Y02E10/72G01N33/18F03D9/007
    • The present invention relates to a remote observation apparatus for ground water quality capable of charging with a small wind power generation, and the said apparatus comprises: an outer casing wherein a plurality of vents are formed at uniform intervals on the wall surface; an inspection body which is accommodated inside the outer casing and is in contact with a sensor to inspect the water quality of groundwater; solar radiation generating unit containing a solar radiation absorbing plate that generates first power necessary for operating the sensor and inspection body; a wind power generation unit which is placed on the upper part of the inspection body and generates second power necessary for operating the inspection body using rotating wings that rotate by incoming wind via the vent; a supporting shaft that supports the solar radiation absorbing plate about the inspection body; a rotating shaft which supports rotating wings to be rotatable about the inspection body; and a double bearing which is placed along the axis line of the supporting shaft and rotating shaft to support the supporting shaft to be fixed and support the rotating shaft to be rotatable.
    • 本发明涉及一种能够以小风力发电充电的地下水质量的远程观测装置,所述装置包括:外壳,其中在壁表面上以均匀的间隔形成多个通风口; 检查体容纳在外壳内并与传感器接触以检查地下水的水质; 太阳辐射发生单元包含产生用于操作传感器和检查体所需的第一功率的太阳辐射吸收板; 风力发电单元,其放置在检查体的上部,并且产生使用经由通风口由进入的风旋转的旋转翼来操作检查体所需的第二电力; 支撑轴,其围绕检查体支撑太阳辐射吸收板; 旋转轴,其支撑旋转翼部以围绕检查体旋转; 以及沿着支撑轴和旋转轴的轴线布置的双轴承,以支撑支撑轴固定并支撑旋转轴可旋转。
    • 7. 发明授权
    • 임의의 통신방식을 갖는 센서와 통신하기 위한 방법 및 이를 이용하는 제어장치
    • 与具有某种通信协议的传感器和使用相同方法的控制设备的通信方法
    • KR101309650B1
    • 2013-09-17
    • KR1020120043689
    • 2012-04-26
    • 주식회사 하이드로넷
    • 박준기임우석
    • H04L29/12H04L29/10
    • H04L12/12G08C17/02H04Q9/00
    • PURPOSE: A method of communicating with a sensor having an arbitrary communication method and a control device using the same are provided to communicate with a sensor having an arbitrary communication method without disassemble or change. CONSTITUTION: A CPU (20) reads configuration information data which is stored in a memory (30), confirms a communication method which communicates with a sensor (120) and produces a control signal for setting up the corresponding communication method based on the communication method which communicates with the sensor. An interface circuit (50) comprises multiple interface circuits (51,52,53) in which each different communication method processes the signal of a correspondence method. A signal processor (40) receives a sensing signal outputted from the interface circuit and performs a received signal processing according to need. A switch (60) selects an interface circuit corresponding to a communication method of an installed sensor among multiple interface circuits, connects the interface circuit with the sensor and interrupts the rest interface circuits. [Reference numerals] (10) Communication unit; (120) Sensor; (200) Remote server; (30) Memory; (40) Signal processing unit; (51) IR circuit; (52) RS232 circuit; (53) RS485 circuit; (60) Switch; (70) Port
    • 目的:提供一种与具有任意通信方式的传感器进行通信的方法和使用该通信方法的控制装置,与具有任意通信方式的传感器进行通信而无需拆卸或改变。 构成:CPU(20)读取存储在存储器(30)中的配置信息数据,确认与传感器(120)进行通信的通信方法,并且基于通信方法产生用于建立对应的通信方法的控制信号 其与传感器通信。 接口电路(50)包括多个接口电路(51,52,53),每个不同的通信方法处理对应方法的信号。 信号处理器(40)接收从接口电路输出的感测信号,并根据需要进行接收信号处理。 开关(60)在多个接口电路之中选择与安装的传感器的通信方式相对应的接口电路,将接口电路与传感器连接,并中断其余的接口电路。 (附图标记)(10)通信单元; (120)传感器; (200)远程服务器; (30)记忆; (40)信号处理单元; (51)红外电路; (52)RS232电路; (53)RS485电路; (60)开关; (70)港
    • 8. 发明公开
    • 관정 내장형 지하수 수질 관측 장치, 시스템 및 방법
    • 用于观察地下水质量的装置,系统和方法
    • KR1020090120203A
    • 2009-11-24
    • KR1020080046124
    • 2008-05-19
    • 한국농어촌공사주식회사 하이드로넷
    • 송성호박준기
    • G01N33/18
    • G01N33/18G06Q50/06
    • PURPOSE: A system for observing groundwater quality is provided to minimize power consumption of mobile communication modem. CONSTITUTION: A system for observing water quality comprises: a communication part which is possible to communicate with a mobile communication network; a sensing part which senses required parameter for measuring quality; and a controller which transfer the result of water quality to the communication part and control. A method for observing groundwater quality comprises: a step of measuring water quality; a step of discerning whether the water quality is out of standard; and a step of transferring quality result to manager if the water quality is out of the standard.
    • 目的:提供用于观察地下水质量的系统,以最小化移动通信调制解调器的功耗。 构成:用于观察水质的系统包括:可以与移动通信网络通信的通信部分; 感测部件,其感测测量质量所需的参数; 以及将水质的结果传送到通信部分并进行控制的控制器。 观测地下水质量的方法包括:测量水质的步骤; 确定水质是否脱水的一个步骤; 如果水质不符合标准,将质量转移给经理的步骤。
    • 9. 发明公开
    • 수위 보정용 초음파센서를 구비한 다항목 지하수 수질계측기
    • 地下水质量监测装置与超声波传感器进行水位校准
    • KR1020160096768A
    • 2016-08-17
    • KR1020150018071
    • 2015-02-05
    • 주식회사 하이드로넷
    • 임우석현민호김상훈강태진
    • G01D21/02G01F23/296G01K13/00G01N27/06G05D3/00
    • G01D21/02G01F23/296G01K13/00G01N27/06G05D3/00
    • 본발명의일 실시예에따르면, 관정내투입되어관정내에존재하는물의수온, 수위, 및전도도를감지할수 있는다항목센서; 상기다항목센서에장착된초음파발생부; 상기다항목센서에장착되고상기초음파발생부에의해발생된초음파를감지할수 있는초음파센서; 및컨트롤러;를포함하며, 상기컨트롤러는, 상기다항목센서에의해감지되는전도도가변화될때 상기초음파발생부가초음파를발생하도록제어하고, 상기초음파센서가상기초음파발생부에의해발생된초음파를감지하면, 다음함수관정내의물의수위 = f(Δt, v) 에의해관정내의물의수위를산출하며, 여기서Δt = 초음파센서가초음파를수신한시각 - 초음파발생부의초음파발생시각이고, v는초음파속도인 것을특징으로하는수위보정용초음파센서를구비한다항목지하수수질계측기가개시된다.
    • 根据本发明的实施例,一种多物品地下水质量测量装置,其包括用于校正水位的超声波传感器,包括:多物品传感器,其被输入到井以感测温度,水平 ,以及井中水的导电性; 安装在多物品传感器上的超声波发生器单元; 所述超声波传感器安装在所述多物品传感器上并感测由所述超声波发生器单元产生的超声波; 和控制器。 当多物品传感器感测到的电导率改变时,控制器控制超声波发生器单元产生超声波,并且通过使用获得井中水位的功能来计算井中的水位,该功能可被描述为 当超声波传感器感测超声波发生器单元产生的超声波时,下一个功能中的水位井= f(t,v)。 在该功能中,t表示从超声波发生器单元的超声波产生时间中减去超声波接收超声波的时间。 这表示超声波的速度。