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    • 1. 发明申请
    • DEVICE FOR TRANSFER OF ELECTRICAL SIGNALS AND/OR ELECTRICAL ENERGY
    • 用于传输电子信号和/或电能的装置
    • WO2012091575A1
    • 2012-07-05
    • PCT/NO2011/000356
    • 2011-12-28
    • TECHNI ASBORGEN, Harald
    • BORGEN, Harald
    • H01F38/14H04B5/00
    • H02J50/12E21B47/122H01F38/14H01F38/18H04B5/0031H04B5/0037
    • The present invention relates to a system for transmitting electrical signals and/or electrical energy via an electrically conductive medium (7). An eddy current is created when a time-variable current is applied to an electric wound coil (1, 3), in the form of a band with conductor paths extending parallel to the surface of the electrically current-carrying medium, thereby creating a magnetic field which penetrates the surface of the electrically conductive medium (7). Since the magnetic field varies with time, an electric field will be generated which is oriented at 90 degrees to the magnetic field. This electric field will generate a potential difference between an upper and lower part of the electric wound coil (1, 3). The electric field will cause a movement of electrons, thereby creating a flow between the upper and lower part of the electric wound coil (1, 3). This time-variable flow of electrons will attempt to equalize the potential difference by electrons flowing back on the opposite side of the electrically conductive medium (7), thereby creating a circulating flow between an external and an internal surface of the electrically conductive medium (7). Since a flow is created on the opposite side of the generating electric wound coil (1, 3), this flow will form a magnetic field which in turn induces a voltage in the adjacent electric wound coil (1, 3). The system is omnidirectional and acts in both directions.
    • 本发明涉及一种用于经由导电介质(7)传输电信号和/或电能的系统。 当时间变化的电流被施加到电缠绕线圈(1,3)上时,产生涡流,该带状导体具有平行于电流载体的表面延伸的导体路径,从而产生磁性 穿透导电介质(7)的表面。 由于磁场随时间而变化,将产生与磁场成90度定向的电场。 该电场将产生电缠绕线圈(1,3)的上部和下部之间的电位差。 电场将引起电子的移动,从而在电缠绕线圈(1,3)的上部和下部之间产生流动。 电子的这种时间变化的流动将试图通过在导电介质(7)的相反侧流回的电子来均衡电位差,从而在导电介质(7)的外表面和内表面之间产生循环流 )。 由于在发电电线圈(1,3)的相反侧产生流动,因此该流动将形成磁场,该磁场又在相邻的电缠绕线圈(1,3)中感应电压。 该系统是全向的,并且在两个方向上起作用。
    • 3. 发明申请
    • VOLTAGE-FREE CONNECTOR INTEGRATED IN A WEAPON RAIL
    • 无电压连接器集成在一个武器轨道上
    • WO2010107324A1
    • 2010-09-23
    • PCT/NO2010/000108
    • 2010-03-19
    • TECHNI ASBERNTSEN, MagnusGHOSE, RahulMENZIES, StevenNIHEI, Michael, M.PETERSEN, Christian
    • BERNTSEN, MagnusGHOSE, RahulMENZIES, StevenNIHEI, Michael, M.PETERSEN, Christian
    • F41C23/16F41G11/00
    • F41G11/003F41C23/16
    • The present invention relates to a universal rail (1), wherein the universal rail (1), along its length, is configured with a plurality of through holes (2) and attachment points (4) for ancillary equipment, and wherein the universal rail (1), by means of suitable fastening means, can be fastened to a firearm. At least one attachment point (4) comprises a power and/or signal connection point (5), the power and/or signal connection point (5) consisting of two contact pins (6) surrounded by a seal (8), a spring device (7) and inner contact points (9). In that the spring device (7) exerts pressure on the contact pins (6), the contact pins (6) will be brought out of engagement with the inner contact points (9) when ancillary equipment is not fastened to the attachment point (4). The inner contact faces (9) are further connected to current conductors which extend in the longitudinal direction of the universal rail (1).
    • 通用轨道(1)本发明涉及一种通用轨道(1),其中通用轨道(1)沿其长度配置有用于辅助设备的多个通孔(2)和附接点(4),并且其中通用轨道 (1)通过适当的紧固装置可以固定在枪支上。 至少一个连接点(4)包括电源和/或信号连接点(5),由密封件(8)包围的两个接触销(6)组成的电源和/或信号连接点(5) 装置(7)和内部接触点(9)。 因为弹簧装置(7)对接触销(6)施加压力,当辅助设备未固定到附接点(4)时,接触销(6)将与内接触点(9)脱离接合 )。 内接触面(9)进一步连接到沿通用导轨(1)的纵向方向延伸的电流导体。
    • 4. 发明申请
    • SYSTEM FOR MEASURING PRESSURE AND TEMPERATURE
    • 压力和温度测量系统
    • WO2012110588A1
    • 2012-08-23
    • PCT/EP2012/052665
    • 2012-02-16
    • TECHNI ASBORGEN, HaraldPETERSEN, David, ChristianSCHMEDLING, Petter, F.BORNSTEIN, MariusSJULSTAD, TrondKARLSEN, Morten, RollTARANRØD, Andreas, BjerknesBENDIKSEN, Jan, MartinBRANDSÆTER, Tor, Helge
    • BORGEN, HaraldPETERSEN, David, ChristianSCHMEDLING, Petter, F.BORNSTEIN, MariusSJULSTAD, TrondKARLSEN, Morten, RollTARANRØD, Andreas, BjerknesBENDIKSEN, Jan, MartinBRANDSÆTER, Tor, Helge
    • G01N29/024G01N29/036G01N29/32G01K11/22
    • G01N29/024G01K11/22G01L11/06G01L19/0092G01N29/036G01N29/323G01N29/326G01N2291/02872G01N2291/02881
    • The present invention relates to system for measuring pressure and temperature based on change in the characteristic properties of a medium for ultrasound under the effect of pressure and temperature. The invention is based on two waveguides where geometry is adapted to the medium's characteristic properties for ultrasound such that only planar pressure waves are generated in the waveguides. The first of the waveguides is arranged for measuring temperature due to thermal expansion of the medium, where the medium is pressure-compensated by means of an internal compensator to prevent thermal pressure accumulation, and where measuring temperature is based on the medium's specific known characteristic data for ultrasound under the effect of temperature under constant pressure. The second waveguide is arranged for measuring pressure, based on waveguide and the medium's known characteristic properties for thermal expansion and pressure, and where the thermal effect is corrected analytically based on measurement of temperature in the first channel. The physical principle of the invention is based on the properties of a medium (oil) where the stability for high temperature and pressure is crucial for long-term properties. Long-term properties of ultrasound sensors are not physically linked to the medium's properties, such that change in characteristic properties of ultrasound sensors does not impair the accuracy of the medium unless the function of the ultrasound sensors ceases. The physical principle of the invention allows an arrangement where ultrasound sensors can be separated from measuring channels by a pressure barrier, such that the integrity of the pressure barrier is not broken.
    • 本发明涉及一种在压力和温度的作用下,根据超声波介质特性的变化来测量压力和温度的系统。 本发明基于两个波导,其中几何适应于介质的超声特性,使得仅在波导中产生平面压力波。 波导中的第一个布置用于通过介质的热膨胀来测量温度,其中介质通过内部补偿器进行压力补偿以防止热压积聚,并且其中测量温度基于介质的特定已知特征数据 用于超声波在恒压下的温度影响。 第二波导布置用于基于波导和介质已知的热膨胀和压力特性来测量压力,并且其中基于第一通道中的温度测量分析校正热效应。 本发明的物理原理基于介质(油)的性质,其中高温和高压的稳定性对于长期性能是至关重要的。 超声波传感器的长期性能与物理性质无关,因此超声波传感器的特性变化不会影响介质的精度,除非超声波传感器的功能停止。 本发明的物理原理允许超声波传感器可以通过压力屏障从测量通道分离的布置,使得压力屏障的完整性不会破裂。
    • 7. 发明申请
    • SHOCK AND VIBRATION DAMPER
    • 震动和振动阻尼器
    • WO2009113868A1
    • 2009-09-17
    • PCT/NO2009/000086
    • 2009-03-10
    • TECHNI ASBORGEN, Harald
    • BORGEN, Harald
    • F16F7/14
    • F16F7/14F16F3/02
    • The invention relates to a type of shock and vibration isolator which has almost identical rigidity and damping properties in any translatory direction, wherein the device is disposed between a reference object (A) which is subjected to vibrations and shocks, and a means (B) which is only to be subjected to translatory damped vibrations and shocks in all directions, where a centre bar (2) and wire rope holders (3) are designed for attachment to any one of the reference objects (A) or (B), characterised in that the centre bar (2) and the wire rope holders (3) are rigidly interconnected to three or more independent wire rope series (4), each of which is formed of two or more wire rope loops where the configuration of a wire rope series (4) is based on essentially as many wire rope loops with opposite geometrical angles of inclination (A1 and A2), each wire rope series forming a symmetry along a centre axis relative to an unloaded neutral position for the isolator and where the three or more wire rope series (4) are symmetrically arranged about the centre axis in an about-axis symmetry principle relative to the radial neutral position of an unloaded isolator, such that the two symmetry principles together give almost identical translatory properties in all directions for damping of shock and vibration between the reference objects (A) and (B).
    • 本发明涉及一种在任何平移方向具有几乎相同的刚性和阻尼性能的冲击和隔振器,其中该装置设置在经受振动和冲击的参考物体(A)和装置(B)之间, 其仅在所有方向上经受平移阻尼振动和冲击,其中中心杆(2)和钢丝绳保持器(3)被设计用于附接到参考物体(A)或(B)中的任何一个,其特征在于 因为中心杆(2)和钢丝绳保持器(3)刚性地连接到三个或更多个独立的钢丝绳系列(4),每个绳索系列(4)由两个或更多个钢丝绳环形成,其中钢丝绳 系列(4)基于基本上同样多的具有相反几何倾斜角(A1和A2)的钢丝绳环,每个钢丝绳系列相对于隔离器的空载中立位置沿着中心轴线形成对称,并且其中三个或 米 矿石钢丝绳系列(4)围绕中心轴线以相对于无负载隔离器的径向中性位置的约轴对称原理对称布置,使得两个对称性原理一起给出了在所有方向上几乎相同的平移特性以阻尼 参考物体(A)和(B)之间的冲击和振动。