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    • 51. 发明专利
    • Alarm
    • 报警
    • JP2008309713A
    • 2008-12-25
    • JP2007159155
    • 2007-06-15
    • Yazaki Corp矢崎総業株式会社
    • SASAZAKI KAZUSHIGEMORIYA KAZUYUKI
    • G01N27/26G01N27/406G01N27/416G08B21/14
    • PROBLEM TO BE SOLVED: To provide a gas alarm capable of rapidly performing self-diagnosis on the basis of the output voltage from a current/voltage conversion circuit when a gas sensor is charged and discharged. SOLUTION: A CPU 10a turns on a first switch SW1 to charge a CO sensor 1 by a current source 33. The CPU 10a turns off a second switch SW2 during the charge of the CO sensor 1 to insert a resistor Rs in the gap between the CO sensor 1 and the current/voltage conversion circuit 40 and increases the input resistance of the current/voltage conversion circuit 40. Further, the CPU 10a turns off the first switch SW1 to discharge the CO sensor 1 and turns on the second switch SW2 during the discharge of the CO sensor 1 to short-circuit the resistor Rs to reduce the input resistance of the current/voltage conversion circuit 40. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种能够在气体传感器被充放电时基于来自电流/电压转换电路的输出电压快速执行自诊断的气体警报器。 解决方案:CPU 10a接通第一开关SW1,以通过电流源33对CO传感器1充电.CPU 10a在CO传感器1的充电期间关闭第二开关SW2,以将电阻器Rs插入到 CO传感器1和电流/电压转换电路40之间的间隙,并增加电流/电压转换电路40的输入电阻。此外,CPU 10a关闭第一开关SW1以使CO传感器1放电并接通第二 在CO传感器1的放电期间开关SW2使电阻器Rs短路以减小电流/电压转换电路40的输入电阻。版权所有:(C)2009,JPO&INPIT
    • 52. 发明专利
    • Alarm
    • 报警
    • JP2008309711A
    • 2008-12-25
    • JP2007159153
    • 2007-06-15
    • Yazaki Corp矢崎総業株式会社
    • SASAZAKI KAZUSHIGEMORIYA KAZUYUKIHARADA TOSHIHIRO
    • G01N27/26G01N27/406G01N27/416G08B21/14
    • PROBLEM TO BE SOLVED: To provide an alarm capable of rapidly analyzing the trouble after the occurrence of it by judging a trouble reason. SOLUTION: A CPU 10a turns on a selector switch SW1 to charge a CO sensor 1 and subsequently turns off the selector switch SW1 to discharge the CO sensor 1. The CPU 10a detects the trouble of the CO sensor 1 on the basis of a discharge current flowing when the CO sensor 1 is discharged and, when the charge current flowing through the CO sensor 1 during the charge of the CO sensor 1 from the voltage signal from a current/voltage conversion circuit 40 is regarded as 0, disconnection or waterless trouble is judged and, when the current flowing through the input resistor of the current/voltage conversion circuit 40 is regarded as 0, short-circuit trouble is judged. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供能够通过判断故障原因来快速分析故障发生后的故障的报警器。 解决方案:CPU10a接通选择器开关SW1以对CO传感器1充电,随后关闭选择器开关SW1以使CO传感器1放电.CPU 10a基于以下方式检测CO传感器1的故障: 当CO传感器1被放电时流过的放电电流,并且当来自电流/电压转换电路40的电压信号在CO传感器1的充电期间流过CO传感器1的充电电流被认为是0时,断开或 判定无水故障,当流过电流/电压转换电路40的输入电阻器的电流被视为0时,判断短路故障。 版权所有(C)2009,JPO&INPIT
    • 53. 发明专利
    • Alarm-ready system meter
    • 报警系统仪表
    • JP2008275644A
    • 2008-11-13
    • JP2008192400
    • 2008-07-25
    • High Pressure Gas Safety Institute Of JapanPanasonic Corpパナソニック株式会社高圧ガス保安協会
    • UMEKAGE YASUHIROASANO KAZUTAKANANBA MITSUOKANEKO MITSURU
    • G01F3/22G08B21/14G08B25/04
    • PROBLEM TO BE SOLVED: To suitably cope with a cause of abnormal generation of CO.
      SOLUTION: A gas meter 21 includes an instant flow rate measuring means 18 for instantly measuring a gas flow rate, a shut-off valve 19 for shutting off supply of gas when the flow rate is abnormal, a communication means 20 receiving detection information from the outside and transmitting processing information in correspondence with the received information to the outside, and a processing selection means 32 for selecting a processing content based on received information from the communication means 20 and flow rate information from the instant flow rate measuring means 18. The processing selection means 32 determines whether a flow rate signal by the instant flow rate measuring means 18 is generated when detection information from a CO alarm 30 is identified, determines as abnormal CO generation with the usage of a gas appliance and drives the shut-off valve 19 so as to shut off supply of the gas when the flow rate signal is generated, and determines as abnormal CO generation without the usage of the gas appliance and outputs a specified notifying signal to the outside when the flow rate signal is not generated.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:适当应对CO异常发生的原因。解决方案:气量计21包括用于立即测量气体流量的瞬时流量测量装置18,截止阀 19,用于当流量异常时关闭气体供应;通信装置20,从外部接收检测信息,并将对应于接收到的信息的处理信息发送给外部;以及处理选择装置32,用于选择处理内容 来自通信装置20的接收信息和来自瞬时流量测量装置18的流量信息。处理选择装置32确定来自CO报警器30的检测信息时是否产生了通过瞬时流量测量装置18的流量信号 被识别,通过使用燃气器具确定为异常CO生成并且驱动截止阀19以便切断气体的供应 当流量信号被产生时,并且在不使用燃气器具的情况下确定为不正常的CO生成,并且当不产生流量信号时,向外部输出指定的通知信号。 版权所有(C)2009,JPO&INPIT
    • 55. 发明专利
    • Co gas detecting alarm device
    • CO气体检测报警装置
    • JP2008102571A
    • 2008-05-01
    • JP2006282240
    • 2006-10-17
    • Yazaki Corp矢崎総業株式会社
    • TAKASHIMA HIROMASASUGANOBU SATOSHI
    • G08B21/14G08B25/04G08B25/08
    • PROBLEM TO BE SOLVED: To provide a CO gas detecting alarm device capable of avoiding a CO poisoning accident or the like without depending on an alarm by a CO gas detecting alarm facility.
      SOLUTION: A gas sensor 21 detecting CO gas in surrounding environment and outputting a detection signal corresponding to the concentration of detected CO gas, and a gas concentration detecting means 22 detecting CO gas concentration based on the detection signal output from the gas sensor and outputting an alarm signal when the detected CO gas concentration is a predetermined value or more, are stored in a case 11a of a cellphone 11. Based on the alarm signal output from the gas concentration detecting means, an alarm output control means 113-1 outputs an alarm to an alarm output means composed of output means 115, 116 of the cellphone.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种能够避免CO中毒事故等而不依赖于CO气体检测报警设备的报警的CO气体检测报警装置。 解决方案:气体传感器21,检测周围环境中的CO气体,并输出与检测到的CO气体浓度相对应的检测信号;气体浓度检测装置22,根据从气体传感器输出的检测信号检测CO气体浓度 并且当检测到的CO气体浓度为预定值以上时,输出报警信号存储在手机11的壳体11a中。根据从气体浓度检测装置输出的报警信号,报警输出控制装置113-1 向由手机的输出装置115,116组成的报警输出装置输出报警。 版权所有(C)2008,JPO&INPIT
    • 56. 发明专利
    • Gas alarm and method thereof
    • 气体报警及其方法
    • JP2007328577A
    • 2007-12-20
    • JP2006159518
    • 2006-06-08
    • Tokyo Gas Co LtdYazaki Corp東京瓦斯株式会社矢崎総業株式会社
    • SASAZAKI KAZUSHIGEMORIYA KAZUYUKIHORIGOME HIRONORIFUJIMOTO TATSUO
    • G08B21/14G01N27/416
    • PROBLEM TO BE SOLVED: To provide a gas alarm and a gas alarm method easily and accurately giving a gas alarm in accordance with an influence of carbon monoxide upon human bodies. SOLUTION: For example, a relation between a CO concentration in an oxide concentration of 18% and a time required for reaching a carbon monoxide hemoglobin concentration of 10% in blood is stored in a ROM 12b beforehand. A CPU 12a subtracts a detection delay time of a gas sensor 10 from the required time in this relation to correct the required time and obtains the time integral of reciprocals of corrected required times corresponding to CO concentrations detected by the gas sensor 10 till the present time after the time when a CO concentration detected by the gas sensor 10 exceeds a prescribed concentration, in accordance with the relation. The CPU 12a generates an alarm informing that the carbon monoxide hemoglobin concentration in blood has reached a prescribed concentration, when determining it on the basis of the time integral of reciprocals of corrected required times. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:根据一氧化碳对人体的影响,提供气体报警和气体报警方法,容易准确地给出气体报警。 解决方案:例如,预先在ROM 12b中存储氧浓度为18%的CO浓度与血液中一氧化碳血红蛋白浓度为10%所需的时间之间的关系为10%。 CPU 12a从该关系中的所需时间中减去气体传感器10的检测延迟时间,以校正所需时间,并且获得对应于由气体传感器10检测到的CO浓度的校正所需时间的倒数的时间积分直到当前时间 在由气体传感器10检测到的CO浓度超过规定浓度的时间之后,根据该关系。 CPU 12a根据校正所需时间的倒数的时间积分来确定血液中的一氧化碳血红蛋白浓度达到规定浓度,生成报警。 版权所有(C)2008,JPO&INPIT
    • 58. 发明专利
    • Carbon monoxide alarm and suspension tool
    • 碳氧化合物报警和悬挂工具
    • JP2007249299A
    • 2007-09-27
    • JP2006068258
    • 2006-03-13
    • Yazaki Corp矢崎総業株式会社
    • MORIYA KAZUYUKITANABE HIDETOSHI
    • G08B21/14G01M3/00G01N27/416
    • PROBLEM TO BE SOLVED: To provide a CO alarm unit for announcing the deterioration (reduction of water) of a CO sensor, without using special circuits or suspension tools for suspending a CO alarm unit from a mounting wall. SOLUTION: This CO alarm unit 100 is provided with a CO sensor 1 which detects CO concentration by using water and a case body 22 in which the CO sensor 1 is housed. A hooking tab 23 is hooked to a hook part 30 mounted on a mounting wall, so that the case body 22 can be suspended. The case body 22 is suspended so as to be rockable with the hooking tab 23 as a center. Also, the CO sensor 1 is housed in the case body 22 so that a center of gravity G1 of the CO sensor 1 can be positioned farther on the right side in the horizontal direction Y of the hooking tab 23, in a state where the case body 22 is suspended, and components, excluding the CO sensor 1, are housed in the case body so that the center of gravity G2 obtained by combining the center of gravity of the case body 22 with the center of gravity of the components as a whole, excluding the CO sensor 1 among the components housed in the case body 22 can be positioned farther on the left side in the horizontal direction Y1 of the hooking tab 23, in a state where the case body 22 is suspended. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供用于通知CO传感器的劣化(减少水)的CO报警单元,而不使用用于将CO报警单元从安装壁悬挂的专用电路或悬挂工具。 解决方案:该CO报警单元100设置有通过使用水检测CO浓度的CO传感器1和容纳有CO传感器1的壳体22。 钩挂片23钩挂在安装在安装壁上的钩部件30上,从而能够悬挂箱体22。 壳体22被悬挂以便以挂钩片23为中心摆动。 此外,CO传感器1容纳在壳体22中,使得CO传感器1的重心G1可以在钩挂片23的水平方向Y上更靠近右侧的情况下,在壳体 主体22悬挂,除CO传感器1之外的部件容纳在壳体中,使得通过将壳体22的重心与部件的重心整体结合而获得的重心G2 除了壳体22内容纳的部件之中的CO传感器1之外,在壳体22悬挂的状态下,能够在钩挂片23的水平方向Y1的左侧位于更远的位置。 版权所有(C)2007,JPO&INPIT