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    • 2. 发明专利
    • Temperature-measuring device, its control method, and temperature-measuring system
    • 温度测量装置,其控制方法和温度测量系统
    • JP2005207992A
    • 2005-08-04
    • JP2004017059
    • 2004-01-26
    • Tokyo Gas Co Ltd東京瓦斯株式会社
    • ABE TAKESHISHINOSAWA YASUHIKOMACHIDA TOMOHIDE
    • G01K7/36G01K1/02
    • PROBLEM TO BE SOLVED: To measure correct temperature, even if the range from measured objects to a guidance element (coil) is varied. SOLUTION: In thermometric technique which measures remotely the temperature of measured objects by utilizing eddy current, a coil 10b is placed at a far position obtained, by adding an offset range L, to the range in between the coil 10a and a metal foil 13 of the measured object. A correction range Δd is calculated from oscillating frequency f1, by measuring of oscillating frequency f1 of a resonant circuit with the coil 10b. Then, the temperature T of measured object (metal foil 13) is determined from the oscillating frequency f2 and calculated correction range Δd, by measuring of oscillating frequency f2 of a resonant circuit with the coil 10a. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:即使从测量对象到引导元件(线圈)的范围变化,也可以测量正确的温度。 解决方案:在通过利用涡电流远程测量被测物体的温度的测温技术中,将线圈10b放置在通过将偏移范围L加到线圈10a和金属之间的范围而获得的远位置处 箔13的测量对象。 通过测量谐振电路与线圈10b的振荡频率f1,从振荡频率f1计算校正范围Δd。 然后,通过测量具有线圈10a的谐振电路的振荡频率f2,从振荡频率f2和计算出的校正范围Δd确定测量对象(金属箔13)的温度T. 版权所有(C)2005,JPO&NCIPI
    • 4. 发明专利
    • Temperature measuring device
    • 温度测量装置
    • JP2003315165A
    • 2003-11-06
    • JP2002119179
    • 2002-04-22
    • Tech-Jam:KkTokyo Gas Co Ltd東京瓦斯株式会社株式会社テックジャム
    • ABE TAKESHIMACHIDA TOMOHIDEHAYAKAWA NOBORU
    • G01K7/36
    • PROBLEM TO BE SOLVED: To provide a temperature measuring device which can precisely measure temperature of an object to be measured by preventing heat radiation of the object.
      SOLUTION: The temperature measuring device 1 comprises a measuring coil 10, a spacing retainer 9, a conductive member 12 used for measurement, and a cylindrical heat insulating member 11. The conductive member 12 used for measurement is brought into contact with the object to be measured when measuring the temperature. The insulating member 11 shrinks in a shaft direction and expands outward in a radial direction. The spacing retainer 9 supports the temperature measuring device 1 by contacting with the object to be measured. The insulating member 11 covers a portion of the conductive member 12 other than the portion thereof contacting with the object to be measured and the surface of the object to be measured surrounding the conductive member 12. As a result, the heat radiation from the conductive member 12 and the surface of the object can be prevented. In addition, since the distance between the conductive member 12 and the measuring coil 10 is set as the height of the spacing retainer 9, the temperature of the object to be measured can be precisely measured according to a current of the measuring coil 10.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供一种通过防止物体的热辐射来精确地测量被测物体的温度的温度测量装置。 解决方案:温度测量装置1包括测量线圈10,间隔保持器9,用于测量的导电构件12和圆柱形绝热构件11.用于测量的导电构件12与 测量温度时要测量的物体。 绝缘构件11沿轴向收缩并沿径向向外膨胀。 间隔保持器9通过与待测量物体的接触来支撑温度测量装置1。 绝缘构件11覆盖除了与待测量物体接触的部分之外的导电构件12的一部分以及围绕导电构件12的待测量物体的表面。结果,来自导电构件的热辐射 可以防止物体的表面。 此外,由于导电构件12和测量线圈10之间的距离被设定为间隔保持件9的高度,所以可以根据测量线圈10的电流来精确地测量被测量物体的温度。 P>版权所有(C)2004,JPO
    • 6. 发明专利
    • Device for determining liquid kind in container and method of controlling the same
    • 用于确定容器中的液体的装置及其控制方法
    • JP2007003548A
    • 2007-01-11
    • JP2006279762
    • 2006-10-13
    • Tokyo Gas Co Ltd東京瓦斯株式会社
    • ABE TAKESHISHINOSAWA YASUHIKOMIYAGI YOSHINOBUYAMADA KOICHIROMACHIDA TOMOHIDE
    • G01N25/18
    • PROBLEM TO BE SOLVED: To provide a technique enabling the determination of the liquid kind in a container, to be quickly made from outside of the container regardless of the material of the container. SOLUTION: A flexible plastic film 202 is disposed at an outer wall of the container 201 of an electrically conductive material such as aluminum, so as to be in contact with the container 201, and a temperature sensor 204 and a heat source 203 made up of an electric resistance element are disposed on the plastic film 202. The temperature of the surface of the container 201 is measured with the heat source 203 turned off, and then the heat source 203 is turned on for, for example, two seconds. Next, after 0.5 seconds for example, the temperature of the surface of the container 201 is measured, so that the difference from the result of the first measurement is obtained. When the difference is smaller than a threshold value, it is determined that a liquid in the container is a liquid containing safe water as the main component, so that a blue lamp is lit. When the difference is equal to or greater than the threshold value, a red lamp indicating abnormality is lit because it is not determined that the liquid in the container is the liquid containing safe water as the main component. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够确定容器中的液体种类的技术,无论容器的材料如何,都能从容器的外部快速制成。 解决方案:柔性塑料膜202设置在诸如铝的导电材料的容器201的外壁处以与容器201接触,并且温度传感器204和热源203 由塑料膜202上设置有电阻元件构成。容器201的表面的温度在热源203关闭的状态下被测量,然后将热源203接通例如两秒钟 。 接下来,例如在0.5秒后,测量容器201的表面的温度,从而获得与第一测量结果的差。 当差小于阈值时,确定容器中的液体是含有安全水作为主要成分的液体,使得蓝色灯点亮。 当差值等于或大于阈值时,由于不确定容器中的液体是含有安全用水为主要成分的液体,因此指示异常的红灯亮起。 版权所有(C)2007,JPO&INPIT