Fluid Or Fluent Inertial Mass (e.g., Electrons, Ions, Plasma) Patents (Class 73/514.03)
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Patent number: 11300585Abstract: An apparatus and method for measuring a structural angular acceleration based on dynamic centrifugal force measurement belong to the technical field of angular acceleration measurement. The apparatus has a solid ball. The solid ball can move freely along the radial direction of the outer wall packaging hood. The elastic block is used as a stress base. A rod for lateral limit and connection is used for connecting the rigid block and a pulley and limiting the displacement of solid ball so that the solid ball can only move longitudinally along the apparatus. The rigid block can move freely due to the pulley. Measurement of a transient angular acceleration is converted into dynamic measurement of the centrifugal force of the solid ball. Through the above design, the dynamic angular acceleration of the structure caused by dynamic load can be relatively accurately calculated.Type: GrantFiled: July 5, 2018Date of Patent: April 12, 2022Assignee: DALIAN UNIVERSITY OF TECHNOLOGYInventors: Jianbo Li, Kai Yang, Shiyun Xiao, Runyu Mei, Zhiqiang Hu, Lei Zhou, Jun Liu, Zhiyuan Li
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Patent number: 10563982Abstract: A hybrid MEMS microfluidic gyroscope is disclosed. The hybrid MEMS microfluidic gyroscope may include a micro-machined base enclosure having a top fluid enclosure, a fluid sensing enclosure and a bottom fluid enclosure. The hybrid MEMS microfluidic gyroscope may include a plurality of cantilevers disposed within the bottom semi-circular portion of the micro-machined base enclosure or a single membrane disposed within the bottom semi-circular portion of the micro-machined base enclosure.Type: GrantFiled: August 28, 2017Date of Patent: February 18, 2020Assignee: The University of CyprusInventors: Julius Georgiou, Charalambos Michael Andreou
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Patent number: 9759562Abstract: A hybrid MEMS microfluidic gyroscope is disclosed. The hybrid MEMS microfluidic gyroscope may include a micro-machined base enclosure having a top fluid enclosure, a fluid sensing enclosure and a bottom fluid enclosure. The hybrid MEMS microfluidic gyroscope may include a plurality of cantilevers disposed within the bottom semi-circular portion of the micro-machined base enclosure or a single membrane disposed within the bottom semi-circular portion of the micro-machined base enclosure.Type: GrantFiled: September 4, 2013Date of Patent: September 12, 2017Assignee: University of CyprusInventors: Julius Georgiou, Charalambos Michael Andreou
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Publication number: 20110100123Abstract: An RFID, Bluetooth as well as zigbee based thermal bubble type angular accelerometer includes a flexible substrate, a base layer, at least one cavity, and at least one sensing assembly. The base layer is formed on the flexible substrate. The at least one cavity is formed on the base layer. The at least one sensing assembly is suspended over the at least one cavity. The sensing assembly comprises a heater and two temperature sensing elements, wherein the two temperature sensing elements are substantially symmetrically disposed on opposite sides of the heater, and the heaters and the two temperature sensing elements extend in a radial direction.Type: ApplicationFiled: October 18, 2010Publication date: May 5, 2011Applicant: Chung Hua UniversityInventor: Jium Ming Lin
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Patent number: 7865311Abstract: The present technical solution provided allows it to determine true meridian of any movable object. This solution is based on determining true meridian by zero value of linear acceleration induced created by changing the projection of the vector of linear velocity, caused by rotating any heavenly body, in particular, the terrestrial globe. The determination is implemented in compact variant only by the devices located on the movable object without any necessity of using induced radiations, quickly and accurately without any necessity of knowing the coordinates of location and the speed of movement irrespective of weather conditions, transverse accelerations, temperature changes and external magnetic fields influence.Type: GrantFiled: October 22, 2007Date of Patent: January 4, 2011Inventors: Michael Naumov, George Naumov
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Patent number: 7464592Abstract: The angular velocity sensor includes a container, a sensing element in the container and a viscous fluid between the container and the sensing element. The sensing element is supported by the viscous fluid such as an ER fluid or an MR fluid. The angular velocity sensor detects acceleration of the body in which the angular velocity sensor is installed. The angular velocity sensor controls the viscosity of the viscous fluid depending on the acceleration of a body, by changing a voltage applied to the viscous fluid.Type: GrantFiled: November 15, 2005Date of Patent: December 16, 2008Assignee: DENSO CORPORATIONInventor: Tameharu Ohta
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Patent number: 7171853Abstract: An MHD sensor/actuator is provided for generating torque as well as sensing angular displacements around a sense/torque axis. A column of conductive liquid which rotates within a circumferential channel having an inner circumferential surface and outer circumferential surface provides an inertial proof mass, the relative motion of which within the channel generates a torque or represents a sensed displacement about the common axis of the circumferential channel. According to certain embodiments, a cylindrical column of magnets are located coaxially with the circumferential channel to produce a radially oriented magnetic field which is perpendicular to the common axis. According to other embodiments, a magnetic ring is provided coaxially with the circumferential channel to produce a magnetic field in the direction of the common axis.Type: GrantFiled: September 30, 2005Date of Patent: February 6, 2007Assignee: Applied Technology AssociatesInventor: Darren R. Laughlin
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Patent number: 6382025Abstract: A rate sensor for angular/rotational acceleration includes a housing defining a fluid cavity essentially completely filled with an electrolyte fluid. Within the housing, such as a toroid, ions in the fluid are swept during movement from an excitation electrode toward one of two output electrodes to provide a signal for directional rotation. One or more ground electrodes within the housing serve to neutralize ions, thus preventing any effect at the other output electrode.Type: GrantFiled: October 15, 1999Date of Patent: May 7, 2002Assignee: The Regents of the University of CaliforniaInventor: Steven L. Hunter