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    • 1. 发明授权
    • 유류의 비중 측정 방법
    • 用于测量油的特定重量的方法
    • KR101366621B1
    • 2014-02-25
    • KR1020120134353
    • 2012-11-26
    • 산들정보통신주식회사서무교
    • 최인섭서무교박성운
    • G01N9/36G01N33/22
    • G01N9/36G01N33/26
    • The present invention relates to a technology for conveniently and accurately detecting the specific gravity of oil stored in a storage tank using a sensor device having multiple floats when the specific gravity of the oil is measured by a magnetostrictive technology. The present invention comprises the steps of: preparing a sensor part having a magnetostrictive wire installed on a longitudinal central axis inside the storage tank, a first float, and a second float; detecting signals abandoned from the magnetostrictive wire through a pick-up coil in a state where a pulse is supplied to the magnetostrictive wire and generated by the first and second floats and converting the detected signals to square waves; recognizing a square wave corresponding to the time of the detected signals generated by the first and second floats among the converted square waves; and calculating the distance between the detected signals generated by the first and second floats using the recognized square wave and calculating the specific gravity of the oil based on the distance. [Reference numerals] (AA) START; (BB,DD,GG) YES; (CC,FF) NO; (EE) NO (Six); (HH) Calculate the distance between the recognized detected signals; (II) Calculate the specific gravity based on the distance; (JJ) End; (S1) Prepare a sensing device comprising a magnetostrictive wire and first to third floats; (S10) Is it completely recognized?; (S12) Output the calculated specific gravity of the oil; (S2) Detect signals abandoned after a pulse is supplied to the magnetostrictive wire; (S3) Convert the detected signals to square wave pulses; (S4) Count a number of the square wave pulses; (S5) Does it have three square wave pulses?; (S6) Does it have four square wave pulses?; (S7) Recognize a square wave pulse corresponding to the relevant detected signal among the three square wave pulses; (S8) Recognize a square wave pulse corresponding to the relevant detected signal among the four square wave pulses; (S9) Recognize a square wave pulse corresponding the relevant detected signal among the six square wave pulses
    • 本发明涉及一种当通过磁致伸缩技术测量油的比重时,使用具有多个浮子的传感器装置来方便和准确地检测储存在储罐中的油的比重的技术。 本发明包括以下步骤:准备具有安装在储罐内的纵向中心轴上的磁致伸缩线的传感器部分,第一浮子和第二浮子; 在脉冲被提供给磁致伸缩线并由第一和第二浮子产生并将检测到的信号转换成方波的状态下,检测从磁致伸缩线被放弃的信号通过拾取线圈; 识别对应于由转换的方波中的第一和第二浮子产生的检测信号的时间的方波; 以及使用识别的方波计算由第一和第二浮子产生的检测信号之间的距离,并基于该距离计算油的比重。 (附图标记)(AA)START; (BB,DD,GG)是; (CC,FF)NO; (EE)NO(六); (HH)计算识别出的检测信号之间的距离; (二)根据距离计算比重; (JJ)结束; (S1)准备包括磁致伸缩线和第一至第三浮子的感测装置; (S10)是否完全认可? (S12)输出油的计算比重; (S2)检测在向磁致伸缩线供给脉冲后废弃的信号; (S3)将检测到的信号转换为方波脉冲; (S4)计数多个方波脉冲; (S5)是否有三个方波脉冲? (S6)是否有四个方波脉冲? (S7)识别与三个方波脉冲中的相关检测信号相对应的方波脉冲; (S8)识别与四个方波脉冲中的相关检测信号相对应的方波脉冲; (S9)识别对应于六个方波脉冲中的相关检测信号的方波脉冲
    • 3. 发明授权
    • 자기변형을 이용한 액체의 밀도 측정 방법
    • 用于测量液体密度的方法
    • KR101415128B1
    • 2014-07-04
    • KR1020140005905
    • 2014-01-17
    • 산들정보통신주식회사서무교
    • 최인섭서무교
    • G01N9/12
    • G01N9/12G01N9/18
    • The present invention relates to a technology for accurately measuring unknown density using an inductive equation between two plotters when measuring the density of liquid using magnetostriction. The present invention can obtain the density with high accuracy by applying a relation graph between an effective subsidence distance and the density to a nonlinear graph, similar to the actual relation, at the time of measuring the density of the liquid to be measured using the reference value of a correction point after storing the reference value of the correction point based on the effective subsidence distance between a liquid level plotter and a density plotter beforehand.
    • 本发明涉及当使用磁致伸缩测量液体的密度时,使用两个绘图仪之间的感应方程精确地测量未知密度的技术。 本发明可以通过将有效下沉距离和密度之间的关系图与非线性图相关联地获得密度,类似于实际关系,在使用参考值测量待测量的液体的密度时 预先根据液位绘图仪和浓度绘图仪之间的有效沉降距离存储校正点的参考值之后的校正点的值。
    • 5. 发明公开
    • 유사 휘발유 및 유량 검출 장치 및 방법
    • 改性汽油和流动试验装置及方法
    • KR1020140067297A
    • 2014-06-05
    • KR1020120134352
    • 2012-11-26
    • 산들정보통신주식회사서무교
    • 최인섭서무교박성운
    • G01D21/02G01F23/62G01N9/00
    • G01F23/62G01D21/02G01N9/00
    • The present invention relates to a technology detecting reformulated gasoline stored in an oil storage tank using a magnetostriction technology. The present invention includes a sensor unit with a magnetostrictive wire installed on a central shaft in the longitudinal direction inside the oil storage tank; an oil amount detecting float which includes a first magnetic material and which is installed to be vertically moved along a metallic pipe of the sensor unit corresponding to the oil amount while being floating in the oil inside the oil storage tank; a water amount detecting float which includes a second magnetic material and which is installed to be vertically moved along the metallic pipe of the sensor unit corresponding to the specific gravity of water while being dipped inside the oil storage tank to be close to the bottom surface; and a reformulated gasoline detecting float which includes a third magnetic material and which is installed to be vertically moved along the metallic pipe of the sensor unit corresponding to the specific gravity of the oil while being dipped between the oil surface and water surface.
    • 本发明涉及使用磁致伸缩技术存储在储油罐中的重整汽油的技术。 本发明包括一个传感器单元,该传感器单元具有在储油箱内沿长度方向安装在中心轴上的磁致伸缩线; 油量检测浮子,其包括第一磁性材料,并且其被安装成沿着所述传感器单元的金属管对应于所述油量同时浮在所述储油罐内的油中而垂直移动; 水量检测浮子,其包括第二磁性材料,并且被安装成沿着与比重相对应的传感器单元的金属管垂直移动,同时浸入储油箱内靠近底面; 以及重新配置的汽油检测浮子,其包括第三磁性材料,并且被安装成沿着与油的比重相对应的传感器单元的金属管垂直移动,同时浸入油表面和水表面之间。