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    • 1. 发明申请
    • PRESSURE SENSOR, MEASURING DEVICE, REACTION CARRIER AND MEASURING METHOD
    • 压力传感器,测量设备,应对车辆和测量方法
    • WO2014194982A9
    • 2016-11-03
    • PCT/EP2014001350
    • 2014-05-20
    • DRÄGER SAFETY AG & CO KGAA
    • HANSMANN HANS-ULLRICHROSTALSKI PHILIPP
    • G01L9/00B01J19/00G01L19/00G01M3/28G01N31/22
    • G01L9/00B01J19/0093B01J2219/00783B01J2219/00831B01J2219/00833B01J2219/00837B01J2219/0093B01J2219/00963B01J2219/0097B01J2219/00972B01J2219/00986B01J2219/00988G01L9/0001G01L9/0077G01L19/0023G01M3/2846G01N31/223G08B21/182
    • The invention relates to a pressure sensor (100) for a measuring system (10) for measuring the concentration of gaseous and/or aerosol-like component of a gas mixture by using a reaction carrier (14) which has at least one flow channel (42), wherein the flow channel (42) forms a reaction chamber (46) having a reaction material (48) which is designed to enter into an optically detectable reaction with at least one component of the gas mixture that is to be measured or a reaction product of the component to be measured, and a measuring device (12), which comprises a gas connection sub-assembly (5) for the connection of a gas feed channel (16) and a gas discharge channel (18) to the flow channel (42) of the reaction carrier, and a gas conveying device (28) for conveying the gas mixture through the flow channel (42) of the reaction carrier (14). The pressure sensor (100) is designed to measure a pressure difference of a gas mixture flowing through the gas conveying sub-assembly (5) and/or flow channel (42) of the reaction carrier (14), and has an elastic element (102) which is designed to deform as a function of the pressure difference. The invention further relates to a measuring method, a measuring device and a reaction carrier for such a measuring system.
    • 本发明涉及一种压力传感器(100),用于测量系统(10),用于测量气体混合物的气体和/或气溶胶状组分的浓度与反应载体(14)具有至少一个流动通道(42),其中所述流动通道(42) 形成的反应室(46)与反应物(48),其被设计为将气体混合物或组分的反应产物的被测量将被测量到的光学可检测的反应的至少一种组分反应,和一个测量装置(12),其中,(a气口组件 5),用于通过反应载体(14)的流路(42)输送所述气体混合物连接的气体入口通道(16)和气体流出通道(18)到该反应载体的流动通道(42)和一个气体输送装置(28)。 所述压力传感器(100)被配置为通过所述气体供给组件来测量的压力差(5)和/或形成为延伸在流动气体混合物和弹性构件(102)中流动的反应载体(14)的通道(42) 变形的压力差的函数。 本发明还涉及一种测量方法,测量装置以及用于这种测量系统中的反应载体。
    • 3. 发明申请
    • RESPIRATOR
    • 呼吸器
    • WO2014029637A3
    • 2014-11-27
    • PCT/EP2013066683
    • 2013-08-09
    • DRÄGER SAFETY AG & CO KGAA
    • FEIL DIRKBUSCH ALEXANDERNESCH VOLKER
    • A62B7/02A62B7/00A62B18/10
    • A61M16/205A61M16/0003A61M16/0063A61M16/06A61M16/0816A61M2016/0027A61M2205/3331A62B7/02A62B18/10
    • The invention relates to a respirator with a compressed air source (2), with a compressed air source valve (4), a breathing regulator (6), which is connected to the compressed air source valve and which has a pressure reducer and a demand valve, a respirator mask (10), which is connected at a first inlet attachment (11) to the demand valve, a second air source (14), which can either be connected to a second inlet attachment (12) of the respirator mask or is connected to an attachment with direct connection to the demand valve, a switch mechanism (20, 22; 21, 22) with an actuator (20; 21) for switching between compressed-air breathing from the compressed air source via the demand valve or from the second air source, an exhalation valve (30) on the respirator mask, which exhalation valve (30) is adjustable between a first and a second operating state, the internal pressure in the respirator mask being higher in the second operating state than in the first operating state, wherein the actuator (20; 21) of the switch mechanism (20, 22; 21, 22) is provided on the breathing regulator (6), the switch mechanism being designed such that, when switched to compressed-air breathing, it activates the demand valve and sets the exhalation valve (30) to the second operating state and, when switched to breathing via the second air source (14), it deactivates the demand valve and sets the exhalation valve (30) to the first operating state.
    • 与呼吸保护装置 - 一个压缩空气源(2)与压缩空气阀(4)的源; - 压缩空气源与连接到具有压力调节器和调节器调节器(6)的阀; - 一个呼吸面罩(10),其在连接到所述调节器的第一输入端子(11); - 第二空气源(14),其连接至任一呼吸面罩连接到终端或与直接连接到所述调节器的第二输入端(12); - 切换机构(20,22; 21,22)与致动器(20; 21),用于从通过调节器或从所述第二气源的压缩空气源的压缩空气呼吸之间进行切换; - 呼气阀(30),所述呼吸用面罩,其是第一和第二工作状态,与所述呼吸用面罩更高的内部压力之间调节被用作在第二操作条件下的第一操作状态的原因,其中,所述致动器(20; 21)的切换机构(20 ,22; 21,22)(在调节器6)设置,其特征在于,经由所述第二切换到呼吸当它被切换到压缩空气呼吸调节器被激活时,调整呼气阀(30)到所述第二操作状态和被形成为使得所述切换机构 空气源(14),禁用调节器,并调整呼气阀(30)到所述第一操作状态。
    • 5. 发明申请
    • BATTERY-OPERATED BLOWER FILTER SYSTEM FOR USE IN POTENTIALLY EXPLOSIVE AREAS
    • 电池供电的风扇系统用于爆炸性危险区域
    • WO2014008998A3
    • 2014-12-24
    • PCT/EP2013001989
    • 2013-07-05
    • DRÄGER SAFETY AG & CO KGAA
    • VOLMER ACHIMEHLER BJÖRNDEHMKE MATHIASSÜRIG ANDREAS
    • A62B17/00
    • F04D25/0673A62B17/006A62B18/006F04D27/001F04D27/008
    • The invention relates to a blower filter system with a blower unit (11), which has an electric motor (24) for driving a blower impeller, a control unit (27) for controlling the electric motor, contacts (22, 23) for connecting to a battery pack, and a battery pack (10), which has a plurality of secondary cells (12) with high energy density and contacts (22, 23) for connecting to the blower unit. The blower unit (11) can be detachably coupled to the battery pack (10), the battery pack thereby being electrically connected to the blower unit via the contacts. The battery pack (10) is provided with protective circuits, said protective circuits comprising electronic components (15, 16, 17, 18, 19, 20, 21, 31) which are designed to electrically switch off at least one of the plurality of secondary cells (12) of the battery pack if excessive currents and/or excessive temperatures occur. Moreover, the battery pack (10) and the blower unit (11) are each at least partially cast in a casting compound.
    • 本发明涉及一种风扇过滤系统用鼓风机单元(11)包括用于驱动的​​风扇叶轮,一个控制单元(27),用于控制所述电动马达的电动马达(24),和触点(22,23),用于连接到电池组,和(电池组 10)具有多个高能量密度二次电池(12)和触点(22,23),用于连接到鼓风机单元。 鼓风机单元(11)可以可拆卸地联接到电池组(10),由此电池组通过触点电连接到鼓风机单元。 的电池组(10)上设置有保护电路(15,16,17,18,19,20,21 31)包括所述保护电路被配置成在出现,高电流和/或形成电子元件 所述电池组的所述多个二次电池(12)中的至少一个二次电池在高温下电切断。 另外,电池组(10)和吹风机单元(11)各自至少部分地封装在灌注混合物中。
    • 6. 发明申请
    • PRESSURE SENSOR, MEASURING DEVICE, REACTION CARRIER AND MEASURING METHOD
    • 压力传感器,测量设备,应对车辆和测量方法
    • WO2014194982A3
    • 2015-03-12
    • PCT/EP2014001350
    • 2014-05-20
    • DRÄGER SAFETY AG & CO KGAA
    • HANSMANN HANS-ULLRICHROSTALSKI PHILIPP
    • G01L9/00G01L19/00G01M3/28G01N31/22
    • G01L9/00B01J19/0093B01J2219/00783B01J2219/00831B01J2219/00833B01J2219/00837B01J2219/0093B01J2219/00963B01J2219/0097B01J2219/00972B01J2219/00986B01J2219/00988G01L9/0001G01L9/0077G01L19/0023G01M3/2846G01N31/223G08B21/182
    • The invention relates to a pressure sensor (100) for a measuring system (10) for measuring the concentration of gaseous and/or aerosol-like component of a gas mixture by using a reaction carrier (14) which has at least one flow channel (42), wherein the flow channel (42) forms a reaction chamber (46) having a reaction material (48) which is designed to enter into an optically detectable reaction with at least one component of the gas mixture that is to be measured or a reaction product of the component to be measured, and a measuring device (12), which comprises a gas connection sub-assembly (5) for the connection of a gas feed channel (16) and a gas discharge channel (18) to the flow channel (42) of the reaction carrier, and a gas conveying device (28) for conveying the gas mixture through the flow channel (42) of the reaction carrier (14). The pressure sensor (100) is designed to measure a pressure difference of a gas mixture flowing through the gas conveying sub-assembly (5) and/or flow channel (42) of the reaction carrier (14), and has an elastic element (102) which is designed to deform as a function of the pressure difference. The invention further relates to a measuring method, a measuring device and a reaction carrier for such a measuring system.
    • 本发明涉及一种压力传感器(100),用于测量系统(10),用于测量气体混合物的气体和/或气溶胶状组分的浓度与反应载体(14)具有至少一个流动通道(42),其中所述流动通道(42) 形成的反应室(46)与反应物(48),其被设计为将气体混合物或组分的反应产物的被测量将被测量到的光学可检测的反应的至少一种组分反应,和一个测量装置(12),其中,(a气口组件 5),用于通过反应载体(14)的流路(42)输送所述气体混合物连接的气体入口通道(16)和气体流出通道(18)到该反应载体的流动通道(42)和一个气体输送装置(28)。 所述压力传感器(100)被配置为通过所述气体供给组件来测量的压力差(5)和/或形成为延伸在流动气体混合物和弹性构件(102)中流动的反应载体(14)的通道(42) 变形的压力差的函数。 本发明还涉及一种测量方法,测量装置以及用于这种测量系统中的反应载体。