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    • 1. 发明授权
    • Borehole tool actuating mechanism
    • 井眼工具致动机构
    • US06588542B2
    • 2003-07-08
    • US09839069
    • 2001-04-20
    • Hiroshi NakajimaTatsuki Endo
    • Hiroshi NakajimaTatsuki Endo
    • G01V140
    • G01V1/52
    • A borehole tool including a tool body having and an anchoring mechanism, the anchoring mechanism having a drive mechanism including a motor, drive shaft, and clutch; an anchor arm moveable between first and second positions relative to the tool body; a push rod connecting the anchor arm to the drive mechanism; and a spring acting to bias the arm into a first position relative to the tool body. The push rod extends through the clutch mechanism and is engaged by the spring to bias the arm into the first position, and is also driven by the drive mechanism through the clutch to move the arm between the first and second position. The push rod may be connected to the anchor arm by a link. Measurement devices may be used to determine the position of the anchor arm or the tool body.
    • 一种钻孔工具,包括具有固定机构的工具主体,所述锚固机构具有包括马达,驱动轴和离合器的驱动机构; 锚臂能够相对于工具主体在第一和第二位置之间移动; 将所述锚臂与所述驱动机构连接的推杆; 以及用于将臂偏压到相对于工具主体的第一位置的弹簧。 推杆延伸穿过离合器机构并且被弹簧接合以将臂偏置到第一位置,并且还通过离合器由驱动机构驱动以在第一和第二位置之间移动臂。 推杆可以通过连杆连接到锚臂上。 测量装置可用于确定锚臂或工具主体的位置。
    • 3. 发明申请
    • FIRE-EXTINGUISHING SPRAY NOZZLE AND FIRE-EXTINGUISHING EQUIPMENT
    • 灭火喷雾喷枪和灭火设备
    • US20100181083A1
    • 2010-07-22
    • US12733424
    • 2008-06-16
    • Akimitsu KikkawaYoshio WatanabeTakahiro IshiharaTakafumi AnezakiTatsuki Endo
    • Akimitsu KikkawaYoshio WatanabeTakahiro IshiharaTakafumi AnezakiTatsuki Endo
    • A62C37/08
    • A62C35/68A62C31/02A62C99/0072
    • Low-pressure fire-extinguishing liquid is converted into mist. A fire-extinguishing spray nozzle (10) comprises a main body (30) and an obstacle (36). The main body (30) has a port (40) for radially injecting the fire-extinguishing liquid. The obstacle (36) is arranged within a radial injection region (102) of the fire-extinguishing liquid radially injected from the port (40). The obstacle (36) has an outer peripheral surface formed in the shape of a truncated-conical inclined surface (62). This enables the fire-extinguishing liquid (70) radially injected from the port (40) and passing around the obstacle (36) to collide with the fire-extinguishing liquid (72) radially injected from the port (40) and reflected from the inclined surface (62) so as to produce mist (74) of fire-extinguishing liquid. When producing the mist (74) by such an action, the fire-extinguishing liquid radially injected from the port (40) may have a low pressure. As a result, it is possible to provide a fire-extinguishing spray nozzle (10) which converts the low-pressure fire-extinguishing liquid into mist.
    • 低压灭火液转化成雾。 灭火喷嘴(10)包括主体(30)和障碍物(36)。 主体(30)具有用于径向喷射灭火液体的端口(40)。 障碍物(36)布置在从端口(40)径向喷射的灭火液体的径向喷射区域(102)内。 障碍物(36)具有形成为截锥形倾斜面(62)形状的外周面。 这使得能够从端口(40)径向注入并绕过障碍物(36)的灭火液体(70)与从端口(40)径向喷射并从倾斜的(反射))反射的灭火液体 表面(62),以产生灭火液体(74)。 当通过这种动作产生雾(74)时,从端口(40)径向注入的灭火液可能具有低压。 结果,可以提供将低压灭火液转化为雾的灭火喷嘴(10)。
    • 5. 发明申请
    • FIRE-EXTINGUSHING SPRAY NOZZLE AND FIRE-EXTINGUISHING EQUIPMENT
    • 灭火喷雾喷枪和灭火设备
    • US20100224377A1
    • 2010-09-09
    • US12733423
    • 2008-06-16
    • Akimitsu KikkawaYoshio WatanabeTakahiro IshiharaTakafumi AnezakiTatsuki Endo
    • Akimitsu KikkawaYoshio WatanabeTakahiro IshiharaTakafumi AnezakiTatsuki Endo
    • A62C37/08
    • A62C31/02A62C35/68A62C99/0072
    • Low-pressure fire-extinguishing liquid is converted into mist. A fire-extinguishing spray nozzle (10) comprises a main body (30) and an obstacle (36). The main body (30) has a port (40) for radially injecting the fire-extinguishing liquid. The obstacle (36) has an opposing surface (60) and is opposite to the port (40). The opposing surface (60) is arranged within a radial-injection region (102) of the fire-extinguishing liquid radially injected from the port (40). One part of the fire-extinguishing liquid radially injected from the port (40) collides with the opposing surface (60) and is reflected therefrom. The other part of the fire-extinguishing liquid radially injected from the port (40) passes around the opposing surface (60). The one part of the fire-extinguishing liquid is reflected from the opposing surface (60) and the other part passes around the opposing surface (60). In consequence, the fire-extinguishing liquid (72) reflected from the opposing surface (60) collides with the fire-extinguishing liquid (70) passing around the supposing surface (60). The collision between the fire-extinguishing liquids produces mist (74).
    • 低压灭火液转化成雾。 灭火喷嘴(10)包括主体(30)和障碍物(36)。 主体(30)具有用于径向喷射灭火液体的端口(40)。 障碍物(36)具有相对的表面(60)并与端口(40)相对。 相对表面(60)布置在从端口(40)径向喷射的灭火液体的径向喷射区域(102)内。 从端口(40)径向喷射的一部分灭火液体与相对表面(60)碰撞并从其反射。 从端口(40)径向喷射的灭火液体的另一部分通过相对表面(60)。 灭火液的一部分从相对面(60)反射,另一部分通过相对面(60)。 因此,从对置面(60)反射的灭火液体(72)与通过假想面(60)的灭火液(70)碰撞。 灭火液之间的碰撞会产生雾气(74)。
    • 6. 发明授权
    • Methods, systems and tools for borehole logging
    • 井眼测井方法,系统和工具
    • US06630890B1
    • 2003-10-07
    • US09668793
    • 2000-09-22
    • Tatsuki EndoDavid MathisonJiro Takeda
    • Tatsuki EndoDavid MathisonJiro Takeda
    • G01V300
    • G01V1/52E21B47/12G01V1/22
    • A borehole logging tool system includes a surface system, a logging array, and a logging cable providing power supply and data paths connecting the logging array to the surface system, wherein the logging array includes a series of discrete sondes connected together. The sondes in the logging array, for example a borehole seismic logging array, are connected to their neighbours by means of lengths of logging cable. Such cable can be the same as that connecting the logging array to the surface system. The logging array can also include a master controller module which communicates with the surface system and which includes a first controller module which connects to the surface system and a second controller which controls operation of the sondes in the logging array independently of any other borehole logging tools connected to the surface system. The master controller can include a data buffer for handling data from the array and a clock which can be synchronised with a clock at the surface and which can be used in the control of the sondes in the array. Adopting such an arrangement with a borehole seismic logging array allows the sondes to continue acquiring data continuously under control of the master controller module irrespective of the transmission of data to the surface by the telemetry system.
    • 钻孔测井工具系统包括表面系统,测井阵列和测井电缆,其提供将测井阵列连接到表面系统的电源和数据路径,其中测井阵列包括连接在一起的一系列离散的声子。 测井阵列中的探测器,例如井眼地震测井阵列,通过测井电缆的长度连接到它们的邻居。 这种电缆可以与将测井阵列连接到地面系统上相同。 记录阵列还可以包括与表面系统通信的主控制器模块,其包括连接到表面系统的第一控制器模块和第二控制器,其独立于任何其它钻孔测井工具来控制测井阵列中的探测器的操作 连接到地面系统。 主控制器可以包括用于处理来自阵列的数据的数据缓冲器和可以与表面上的时钟同步的时钟,并且可以用于控制阵列中的声子。 采用井眼地震记录阵列的这种布置允许索道在主控制器模块的控制下连续地采集数据,而不管由遥测系统将数据传输到地面。