会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • METHOD AND DEVICE FOR DETONATING AN EXPLOSIVE CHARGE
    • 爆炸充电的方法和装置
    • WO2007078205A1
    • 2007-07-12
    • PCT/NO2007/000003
    • 2007-01-03
    • TCO ASBJØRGUM, Stig, Ove
    • BJØRGUM, Stig, Ove
    • F42C5/00
    • F42C5/00
    • A method for detonation of a plug device in a fluid environment is described, which is in contact with a body, such as an ignition pellet, and it is characterised in that a number of pressure increases are exerted against the plug device, whereby each pressure increase causes a movement of a piston (10) which is radially arranged in a casing (12), which causes the casing (12) to move a fixed distance inward in the plug device with each pressure increase, up until the displacement of the casing (12) causes the piston to be displaced into a cavity (38), and the fluid environment enters the plug device via an inlet. Also described is a plug device which is in contact with a body, such as an ignition pellet, where the plug device is arranged to detonate after a number of pressure increases that are exerted against the plug device. The plug device/ignition pellet can be applied to initiate a detonation process which leads to perforation of a pipe wall or to perforate or remove/explode plugs in oil wells or gas wells, thereby starting production from a reservoir through a pipe.
    • 描述了一种用于在流体环境中引爆塞子装置的方法,其与诸如点火芯的主体接触,并且其特征在于,对塞装置施加多个压力增加,由此每个压力 增加导致径向布置在壳体(12)中的活塞(10)的运动,这使得壳体(12)在每个压力增加时在塞子装置内部固定的距离移动直到套管 (12)使活塞移动到空腔(38)中,并且流体环境通过入口进入塞子装置。 还描述了一种与身体(例如点火芯片)接触的插头装置,其中插头装置布置成在对插头装置施加的多个压力增加之后引爆。 插塞装置/点火芯片可用于引发引爆过程,导致管壁穿孔或穿孔或除去/爆炸油井或气井中的塞子,从而通过管道从储存器开始生产。
    • 4. 发明申请
    • COMMAND AND ARM FUZE ASSEMBLY HAVING SMALL PISTON ACTUATOR
    • 具有小型活塞致动器的指令和ARM FUZE组件
    • WO2009002601A3
    • 2009-02-19
    • PCT/US2008061148
    • 2008-04-22
    • DSE INCTAYLOR NORMAN C
    • TAYLOR NORMAN C
    • F42C5/00
    • F42C15/188
    • A command and arm apparatus includes a housing having a hollow interior. A pivotally-mounted rotor is disposed in the hollow interior. The rotor has a first, safe position of rotational adjustment that prevents detonation of an explosive and a second, armed position of rotational adjustment that enables detonation of an explosive. A locking cam is pivotally mounted to the rotor and has a rotor-locking position of repose. The rotor is free to rotate from its safe position to its armed position when the locking cam is rotated out of the rotor-locking position by a piston that extends from a piston actuator. The rotor abuts a flat formed in a sidewall of the housing and can rotate no further when the device is in the armed configuration.
    • 指令和手臂装置包括具有中空内部的壳体。 枢轴安装的转子设置在中空内部。 转子具有旋转调节的第一安全位置,其防止爆炸物的爆炸和能够引爆爆炸物的旋转调节的第二武装位置。 锁定凸轮枢转地安装在转子上并且具有静止的转子锁定位置。 当锁定凸轮通过从活塞致动器延伸的活塞旋转离开转子锁定位置时,转子可以从其安全位置自由旋转到其布置位置。 转子抵靠形成在壳体的侧壁中的平面,并且当装置处于装备构型时可以不再旋转。
    • 7. 发明申请
    • METHOD AND DEVICE FOR ACTIVATION OF A DETONATOR
    • 用于激活爆震器的方法和装置
    • WO2004104512A3
    • 2005-02-10
    • PCT/NO0300390
    • 2003-11-20
    • TOTAL CATCHER OFFSHORE ASREIMERS NILS
    • REIMERS NILS
    • F42C5/00E21B43/1185
    • F42C5/00
    • A method is described for detonation of a blasting charge in a fluid environment and which is placed inside a hollow body, such as in an ignition pellet. The method is characterised in that an ignition pellet is used, which is arranged to be deformed under the influence of a number of alterations or pulsations between high and low pressure in the surrounding fluid environment, with the detonation triggering unit inside the body being activated at the subsequent contact with the fluid environment as a consequence of the pellet being deformed. In rupturing, external fluid at overpressure is released into the cylinder and drives a firing pin against a detonating cartridge. A device for an ignition pellet is also described.
    • 描述了一种用于在流体环境中爆炸装料的爆炸的方法,并且放置在中空体内,例如点火颗粒中。 该方法的特征在于,使用点火芯片,其在周围的流体环境中在高压和低压之间的多个变化或脉动的影响下被布置成变形,其中身体内的引爆触发单元被激活 由于颗粒变形而随后与流体环境的接触。 在破裂过程中,过压的外部流体被释放到气缸中,并将撞针驱动到引爆筒上。 还描述了用于点火芯的装置。