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    • 51. 发明授权
    • Accurate pressure sensor
    • 精确的压力传感器
    • US07677108B2
    • 2010-03-16
    • US12278924
    • 2007-01-09
    • Si-Hwan Kim
    • Si-Hwan Kim
    • G01L9/10
    • G01L9/14G01L9/007
    • The invention relates to a pressure sensor capable of measuring pressure accurately, and more particularly, to a pressure sensor comprising a box-shaped magnet, optionally having an inclined upper surface with a right side portion protruding higher than a left side portion, wherein the magnet is configured to radiate linear magnetic flux density in response to a change in distance along a straight line spaced uniformly apart from an N or S pole surface, whereby the pressure sensor can accurately detect a displacement in distance (position) and thus a pressure difference based on the displacement. The pressure sensor further includes a pipe connecting negative and positive pressures, a diaphragm movable in response to a difference between negative and positive pressures, a diaphragm support attached to a side of the diaphragm, a magnet attached to the diaphragm support to radiate linear magnetic flux density, a spring supporting the magnet, and the diaphragm and upper and lower cases housing these components.
    • 本发明涉及一种能够精确地测量压力的压力传感器,更具体地说,涉及一种包括盒状磁体的压力传感器,该压力传感器可选地具有倾斜的上表面,右侧部分突出高于左侧部分,其中磁体 被配置为响应于沿着与N或S极表面均匀间隔开的直线的距离变化而辐射线性磁通密度,由此压力传感器可以精确地检测距离(位置)的位移,从而基于压力差 在流离失所 压力传感器还包括连接负压和正压力的管,响应于负压和正压之间的差异可移动的隔膜,附接到隔膜侧的隔膜支撑件,连接到隔膜支撑件以辐射线性磁通量的磁体 密度,支撑磁体的弹簧,以及隔膜和上下壳体容纳这些部件。
    • 52. 发明申请
    • MAGNETIC HAVING LINEAR MAGNETIC FLUX DENSITY
    • 具有线性磁通密度的磁性
    • US20090243775A1
    • 2009-10-01
    • US12278890
    • 2007-01-03
    • Si-Hwan Kim
    • Si-Hwan Kim
    • H01F7/02
    • H01F7/0289G01D5/145H01F13/003
    • The present invention relates to a magnet having a linear magnetic flux density, which causes the magnetic flux density thereof to vary linearly and, more particularly, to a magnet having a linear magnetic flux density, in which the shape and magnetization pattern of the magnet are changed so that displacement in proportion to linearly varying displacement from the magnet is more accurately measured using a magnetic flux sensor, thus causing the magnetic flux density to vary linearly (or rectilinearly) according to the displacement. The present invention is configured to have a rectangular shape or a trapezoid shape so that displacement in proportion to linearly varying displacement from the magnet is more accurately measured using a magnetic flux sensor, and is configured such that the value of magnetic flux density varies linearly (rectilinearly) according to the magnetization pattern of the rectangular shape or a trapezoid shape.
    • 本发明涉及一种具有线性磁通密度的磁体,其磁通密度线性变化,更具体地说,涉及具有线性磁通密度的磁体,其中磁体的形状和磁化模式为 使得使用磁通量传感器更精确地测量与磁体线性变化成比例的位移,从而使磁通密度根据位移线性地(或直线地)变化。 本发明被构造成具有矩形形状或梯形形状,使得使用磁通量传感器更精确地测量与磁体的线性变化的位移成比例的位移,并且被构造成使得磁通密度的值线性变化( 直线地),根据矩形的磁化图案或梯形形状。
    • 53. 发明申请
    • System and Control Method For Detecting an Abnormal Burning Situation Using Air Pressure Sensing and Flame Detection
    • 使用气压检测和火焰探测检测异常燃烧情况的系统和控制方法
    • US20080138750A1
    • 2008-06-12
    • US11795912
    • 2005-09-14
    • Si Hwan Kim
    • Si Hwan Kim
    • F23N1/02F23N5/18F23N5/08
    • F23N5/242F23M2900/11041F23N2029/04
    • Disclosed is a method for detecting a combustion state of a boiler, and more particularly to a boiler and a method capable of exactly detecting an abnormal combustion state of a gas boiler using an air pressure sensor and a flame detection unit, thereby improving efficiency of the boiler. The method comprises the steps of (S1) supplying air to a burner through a fan, (S2) detecting whether an optimum amount of air is supplied through step (S1) by using the air pressure sensor, (S3) continuously detecting a status of a flame through the flame detection unit if the flame is made by an ignition part, (S4) converting a size of the flame into a corresponding voltage value, inputting the voltage value into a microcomputer, and comparing the voltage value with a preset target voltage value, (S5) stopping a combustion process if the microcomputer determines that the air pressure sensor erroneously operates based on a fact that a difference value between the voltage value and the preset target voltage value exceeds a reference value, and (S6) displaying an error message indicating an abnormal combustion state if the microcomputer determines that the air pressure sensor erroneously operates.
    • 公开了一种用于检测锅炉的燃烧状态的方法,更具体地涉及一种能够使用空气压力传感器和火焰检测单元精确地检测燃气锅炉的异常燃烧状态的锅炉和方法,从而提高了 锅炉。 该方法包括以下步骤:(S1)通过风扇向燃烧器供给空气;(S 2)通过使用空气压力传感器检测是否通过步骤(S1)供应最佳量的空气,(S 3) 如果火焰是由点火部件制成的,则通过火焰检测单元检测火焰的状态;(S 4)将火焰的尺寸转换成相应的电压值,将电压值输入到微型计算机中,并将电压值 如果微型计算机基于电压值和预设目标电压值之间的差值超过参考值的事实,错误地操作空气压力传感器,则停止燃烧过程的步骤(S 5),以及 (S 6)如果微型计算机确定空气压力传感器错误地操作,则显示指示异常燃烧状态的错误消息。