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    • 1. 发明申请
    • Blast Movement Monitor
    • 爆破运动监视器
    • US20070151345A1
    • 2007-07-05
    • US11556846
    • 2006-11-06
    • Darren Thornton
    • Darren Thornton
    • G01H11/00
    • E21B47/02E21C39/00E21C41/26
    • A blast movement monitor for measuring the movement of material within a body of material as a result of a blasting operation, the monitor including: a housing having an interior chamber defining an inner surface; and an internal communication device that is received immediately within the interior chamber of the housing, the internal communication device including: a body portion; an electric coil wound around the body portion; a circuit board electrically connected to the coil; a battery electrically connected to the circuit board; an end portion associated with one end of the body portion; and a cap associated with an opposing end of the body portion that encapsulates the body portion and sealingly houses the body portion; wherein the internal communication device is biased to facilitate self-righting of the internal communication device to a desired orientation within the interior chamber independent of the orientation of the monitor.
    • 爆破运动监测器,用于测量作为爆破操作的结果的材料体内的材料的运动,所述监测器包括:壳体,其具有限定内表面的内室; 以及内部通信装置,其被立即接收在所述壳体的内部室内,所述内部通信装置包括:主体部分; 卷绕在主体部分上的电线圈; 电连接到所述线圈的电路板; 电连接到电路板的电池; 与所述主体部分的一端相关联的端部; 以及与所述主体部分的相对端相关联的帽,其封装所述主体部分并且密封地容纳所述主体部分; 其中所述内部通信装置被偏置以便于独立于所述监视器的方向,促进所述内部通信装置的内部自动对准所述内部腔室内的期望取向。
    • 2. 发明申请
    • BLAST MOVEMENT MONITOR
    • BLAST运动监视器
    • US20070169542A1
    • 2007-07-26
    • US11556807
    • 2006-11-06
    • Darren ThorntonGraham Sheridan
    • Darren ThorntonGraham Sheridan
    • G01N33/24G01B7/00
    • E21B47/02E21C39/00E21C41/26
    • A blast movement monitor for measuring the movement of material within a body of material as a result of a blasting operation, the monitor including: a housing having an interior chamber defining an inner surface; and an internal communication device that is received immediately within the interior chamber of the housing and which is adapted to transmit a signal to an external communication device and/or to detect a signal transmitted by the external communication device; wherein the internal communication device includes a body portion and opposing end portions, the end portions being configured such that they are complementary with the inner surface of the interior chamber and the internal communication device being biased to facilitate self-righting of the internal communication device to a desired orientation within the interior chamber independent of the orientation of the monitor.
    • 爆破运动监测器,用于测量作为爆破操作的结果的材料体内的材料的运动,所述监测器包括:壳体,其具有限定内表面的内室; 以及内部通信装置,其被立即接收在所述壳体的内部腔室内,并且适于将信号发送到外部通信装置和/或检测由所述外部通信装置发送的信号; 其中,所述内部通信装置包括主体部分和相对的端部部分,所述端部部分被构造成使得它们与所述内部室的内表面互补,并且所述内部通信装置被偏置以促进所述内部通信装置的自动定位 独立于监视器的取向的内部腔室内的所需取向。
    • 3. 发明申请
    • Method for determining the movement of a blast movement monitor and associated rock as a result of blasting operations
    • 用于确定爆破运动监测器和相关岩石作为爆破作业结果的运动的方法
    • US20070151471A1
    • 2007-07-05
    • US11601283
    • 2006-11-17
    • David La RosaDarren ThorntonMichael Wortley
    • David La RosaDarren ThorntonMichael Wortley
    • F42B3/00
    • E21B47/02E21C39/00E21C41/26
    • A method for measuring the movement of boundaries between different portions of a heterogeneous rock body is disclosed. The method comprises placing a plurality of blast movement monitors 109 in a rock body prior to blasting and noting the position of each blast movement monitor. The rock body is then blasted to break it up into a plurality of pieces. Thereafter the position of the blast movement monitors 109 is located and based on this the boundaries of rock portions can be adjusted to account for the blast. This leads to a more accurate reporting of different ore bodies to the appropriate processor in a heterogeneous rock body. An apparatus for carrying out the method is also disclosed. The apparatus comprises broadly a said monitor 109 and a receiver. The monitor 1 comprises a transmitter 109 received within a casing 111 that in turn is received within a housing 126. Further the casing 111 can move within the housing 126 and self right so that it always transmits its signal in an upright direction.
    • 公开了一种用于测量异质岩体的不同部分之间的边界运动的方法。 该方法包括在喷砂之前将多个爆破运动监视器109放置在岩体中并注意每个爆破运动监视器的位置。 然后将岩体爆破,将其分解成多个碎片。 此后,定位爆破运动监视器109的位置,并且基于此,可以调整岩石部分的边界以考虑爆炸。 这导致在异质岩体中将不同矿体更准确地报告给适当的处理器。 还公开了一种用于执行该方法的装置。 该装置广泛地包括所述监视器109和接收器。 监视器1包括容纳在壳体111内的发射器109,壳体111又被容纳在壳体126内。 此外,壳体111可以在壳体126内自主移动并且自己右移,使得其总是沿直立方向传递其信号。
    • 4. 发明申请
    • Blast movement monitor and method for determining the movement of a blast movement monitor and associated rock as a result of blasting operations
    • 爆破运动监视器和用于确定爆破运动监视器和相关岩石由于爆破操作而运动的方法
    • US20050012499A1
    • 2005-01-20
    • US10854905
    • 2004-05-27
    • David La RosaDarren ThorntonMichael Wortley
    • David La RosaDarren ThorntonMichael Wortley
    • E21B47/02E21C39/00E21C41/26G01B7/14
    • E21B47/02E21C39/00E21C41/26
    • A method for measuring the movement of boundaries between different portions of a heterogeneous rock body is disclosed. The method comprises placing a plurality of blast movement monitors 109 in a rock body prior to blasting and noting the position of each blast movement monitor. The rock body is then blasted to break it up into a plurality of pieces. Thereafter the position of the blast movement monitors 109 is located and based on this the boundaries of rock portions can be adjusted to account for the blast. This leads to a more accurate reporting of different ore bodies to the appropriate processor in a heterogeneous rock body. An apparatus for carrying out the method is also disclosed. The apparatus comprises broadly a said monitor 109 and a receiver. The monitor 1 comprises a transmitter 109 received within a casing 111 that in turn is received within a housing 126. Further the casing 111 can move within the housing 126 and self right so that it always transmits its signal in an upright direction.
    • 公开了一种用于测量异质岩体的不同部分之间的边界运动的方法。 该方法包括在喷砂之前将多个爆破运动监视器109放置在岩体中并注意每个爆破运动监视器的位置。 然后将岩体爆破,将其分解成多个碎片。 此后,定位爆破运动监视器109的位置,并且基于此,可以调整岩石部分的边界以考虑爆炸。 这导致在异质岩体中将不同矿体更准确地报告给适当的处理器。 还公开了一种用于执行该方法的装置。 该装置广泛地包括所述监视器109和接收器。 监视器1包括容纳在壳体111内的发射器109,壳体111又被容纳在壳体126内。另外,壳体111可以在壳体126内自主移动,从而总是沿直立方向传递信号。