Abstract: A magnetometer includes a sensor housing having an internal bore formed therethrough and a magnetic field sensor disposed within the internal bore of the sensor housing. The magnetic field sensor is fixedly mounted within the internal bore of the sensor housing. A magnetic flux concentrating block is disposed proximate to an end of the at least one magnetic field sensor. An electronics unit is disposed within the internal bore of the sensor housing and is operatively and communicatively connected to the magnetic field sensor. The electronics unit is configured to receive a signal from the magnetic field sensor.

Abstract: A magnetically damped inclinometer has a shaft with attached pendulum that rotates. The rotation causes an index member to rotate past one or a set of magnets or electromagnets that are connected to the load. The magnet or electromagnet may be mounted directly to the load or it may be in the form of an off center ring. Another embodiment uses a spring to bias two magnets apart. A cam is attached to the shaft such that, as the pendulum and shaft rotate, a roller connected with the load or spreader bar allows the spring to push the magnets farther apart. The damped inclinometers are used to determine and provide information to respond to the initial sway of a load prior to bringing the load to a stop.

Abstract: Taught herein is a portable digital horizontal inclinometer which utilizes magnetic field to dampen the free swing of the pendulum. The inclinometer features simple structure, small size, high sensitivity, good linearity, high precision, and strong anti-jamming capability. It is also easy to manufacture and provide fast and accurate reading over a wide range of inclination angles of up to 360° .

Abstract: A magnetically damped inclinometer has a shaft with attached pendulum that rotates. The rotation causes an index member to rotate past one or a set of magnets or electromagnets that are connected to the load. The magnet or electromagnet may be mounted directly to the load or it may be in the form of an off center ring. Another embodiment uses a spring to bias two magnets apart. A cam is attached to the shaft such that, as the pendulum and shaft rotate, a roller connected with the load or spreader bar allows the spring to push the magnets farther apart. The damped inclinometers are used to determine and provide information to respond to the initial sway of a load prior to bringing the load to a stop.

Abstract: A magnetically damped inclinometer has a shaft with attached pendulum that rotates. The rotation causes an index member to rotate past one or a set of magnets or electromagnets that are connected to the load. The magnet or electromagnet may be mounted directly the load or it may be in the form of an off center ring. Another embodiment uses a spring to bias two magnets apart. A cam is attached to the shaft such that, as the pendulum and shaft rotate, a roller connected with the load or spreader bar allows the spring to push the magnets farther apart. The damped inclinometers are used to determine and provide information to respond to the initial sway of a load prior to bringing the load to a stop.

Abstract: Taught herein are portable digital horizontal inclinometers which utilize magnetic field to dampen the free swing of the pendulum. The inclinometers feature simple structure, small size, high sensitivity, good linearity, high precision, and strong anti-jamming capability. They are also easy to manufacture and provide fast and accurate reading over a wide range of inclination angles of up to 360°.

Abstract: A magnetically damped inclinometer has a shaft with attached pendulum that rotates. The rotation causes an index member to rotate past one or a set of magnets or electromagnets that are connected to the load. The magnet or electromagnet may be mounted directly the load or it may be in the form of an off center ring. Another embodiment uses a spring to bias two magnets apart. A cam is attached to the shaft such that, as the pendulum and shaft rotate, a roller connected with the load or spreader bar allows the spring to push the magnets farther apart. The damped inclinometers are used to determine and provide information to respond to the initial sway of a load prior to bringing the load to a stop.

Abstract: A magnetically damped fork level indicating device comprises a housing having a gauge section; an elongate indicator arm pivotally coupled to the housing, the arm having first and second sections disposed on opposite sides of the axis; a weight coupled to the indicator arm so as to cause the first section to assume a predetermined orientation with respect to level ground; wherein the indicator arm at least partially overlies the gauge section and wherein the relative position of the indicator arm and the gauge section indicate the relative angular relationship between the orientation of the forks and level ground; a dampening means comprising a first magnet associated with the arm and moveable therewith and a second magnet associated with the housing and spaced from the first magnet, the second magnet magnetically coupled to the first magnet so as to dampen oscillations of the arm.

Abstract: An apparatus for demonstrating, investigating and observing Brownian motion and temperature of a medium, such as gas or liquid, uses a small particle which is diamagnetically suspended in the medium. The tiny magnetized particle having a known mass is levitated using a diamagnetic technique, and the displacement of the particle over time is observable, which can be used to determine a temperature of the medium. Optionally, a second particle is suspended in a vacuum but mechanically connected to the same apparatus as the first enclosure with the first particle, thereby allowing observation and measurement of non-Brownian movement of the structure, and allowing more precise observation of Brownian movement effects on the first suspended particle.

Abstract: An extremely sensitive accelerometer suitable for use in extreme temperatures such as those encountered during space travel is formed by levitating a magnet in a box or sphere composed of diamagnetic material such as pyrolytic carbon, and a means for measuring the position of the magnet within the enclosure is provided so that over time, the position of the magnet can be monitored. Knowing the mass of the suspended magnet, the displacement over time of the magnetic can be used to calculate acceleration, which can then be used to determine position of a space vehicle.

Abstract: A mass is levitated with respect to a base, at least one of which is comprised of a diamagnetic material, with the levitated mass also having a permanent magnetic property. A second permanent magnet is optionally configured such that it attracts the levitation mass away from the base to overcome gravitational force on the mass, thereby suspending the mass over the surface of the base. The mass is contained in a nonmagnetic, non-shielding and optionally optically-transparent housing so as to limit its excursion within a range of levitation positions. A position measurement means such as a laser interferometer, capacitance detector, or pickup coil is configured to measure positional deviations of the mass in response to incident pressure wave, the output of which being an electronic signal representing the pressure wave.

Abstract: A mass is levitated with respect to a base at least one of which is comprised of a diamagnetic material, and the levitation mass also having a permanent magnetic property. A second permanent magnet is configured such that it attracts the levitation mass away from said base surface with sufficient magnetic force to overcome gravitational force on the mass, thereby suspending the mass over the surface of the base. The mass is levitated at room temperature, eliminating need for cryogenic mechanisms and materials, and is contained in a nonmagnetic, non-shielding optically-transparent housing so as to limit its excursion within a range of levitation positions. A non-intrusive position or distance measurement means may be optionally configured with the system, such as a laser interferometer, thereby allowing the levitated mass to act as a gravimetric device.

Abstract: An Improvement to enhance the usability of magnetic compasses by eliminating acceleration and turning errors, especially in aviation applications, without compromising simplicity and reliability. The improvement includes the addition of a weightless mass to the bar magnet of a conventional magnetic compass to counteract undesirable inertial forces on the bar magnet.

Abstract: A laser line beam emitting apparatus provided hereto has accommodations of rough handling or quick operations, preferable for construction sites in use, having a gimbals mechanism, and a laser unit holder swingy held by the mechanism and having at least one laser unit provided thereto, wherein a mechanism for performing automatic relocation of the tilted holder to its desired position is provided. The mechanism for automatic location can perform from detection of the tilting to relocation of the tilted holder to its desired position at instant. It comprises a level sensor provided to the holder for detection of the tilting to output resultant signals, and a device for generation of thrust, which is constructed by a magnet and at least one coil circuit for generation of thrust going to a direction of elimination of tilting of the holder, wherein the signals from the sensor control conduction to the coils.

Abstract: A manually operated angle pickup or detector has a rotatably mounted and manually movable transmitter element, a sensor that scans the transmitter element and a detent coupling that operates magnetically and in a contactless manner to maintain the transmitter element in defined angular positions which can change from one to another by manual operation. The detent coupling includes at least one permanent magnet with poles disposed in the axial direction and two toothed disks provided on the side of at least one pole of the permanent magnet. The two toothed disks are radially spaced and have a corresponding number of teeth. The disks are interconnected by the magnetic flux and are of a material with good conductivity.

Abstract: A means for damping a low-friction azimuth resolver by use of an array of small magnets acting on a metallic pendulum attached to the resolver shaft. The magnetic field acts on the pendulum motion to induce a motional electromotive force and associated currents, which produce forces opposed to the motion, thereby acting as a non-contact damper on the resolver shaft. When the resolver shaft is at rest, no "eddy currents" are produced in the static magnetic field and no damping force exists. If the shaft moves, the attached pendulum cuts the magnetic flux lines and produces a drag force proportional to the shaft angular speed. The pendulum is typically made of diamagnetic material, such as lead or copper, thereby assuring that the induced forces arise solely from the motion. The magnetic field is produced by an array of small, but intense, samarium-cobalt magnets contained in a compact package providing for uniform damping throughout 360.degree. of resolver motion.

Abstract: An attitude sensing apparatus for detecting a tilt angle and an azimuth angle of the tilt of a structure includes a pair of detecting devices disposed on the structure at right angles to each other. Each of the detecting devices consists of a rotary shaft rotatably supported from a structure to be measured, a sensor support integrally held by the rotary shaft and biased in the vertical direction by gravity, a tilt angle sensor supported by the sensor support for detecting a tilt angle of the sensor support within a plane containing the axis of the rotary shaft, and a controller for controlling rotation of the rotary shaft with respect to the structure. The apparatus also includes a calculator which calculates a maximum tilt angle and an azimuth angle thereof of the structure on the basis of tilt angles detected by the two tilt angle sensors. This calculation is simply and rapidly effected according to approximating formulae, and yet at a good precision.

Abstract: A compass which is self-compensating for dip of its pointer arms irrespective of variances in the earth's magnetic forces at different geographical locations includes a magnet disposed beneath respective proximal portions of the pointer arms so that the pointer arms are parallel to the magnetic field of the magnet, with the magnet constructed to be counterbalancing with regard to the earth's magnetic fields. In a preferred embodiment, the magnet comprises a plastic disk with magnetic particles embedded therein, the disk having a chordal portion removed therefrom immediately beneath one pointer arm, and a damper pan assembly is controlled by a lift arm to selectively dampen the movement of the pointer arms.

Abstract: An inclinometer comprises a casing, a pendulum mounted in the casing and having a pendulum swing axis, a mass in the form of a flywheel mounted in the casing and which tends to remain stationary when the casing is rotated about the pendulum swing axis, and a damping means coupling the pendulum to the flywheel.

Abstract: The angular deflection or tilt angle from vertical is determined by an inclinometer wherein a weight is offset and hung from a rotatable shaft to which a needle pointer is affixed. When the inclinometer is oriented such that the shaft is vertically aligned, the gravitational force on the weight is in a direction parallel to the shaft's axis and no torque results. When so oriented, a magnetic spring system holds the shaft in a reference position and the needle points to the center of a graduated scale, thereby indicating a zero tilt angle. If the inclinometer, and consequently the shaft, are tilted in a tilt plane, defined by the shaft and the center of the scale, the weight exerts a torque on the shaft and causes pivoting of the needle away from the center of the scale to indicate the direction of tilt and the magnitude of the tilt angle.

Abstract: Angular displacements are measured relative to either an external magnetic field as in a compass or relative to a vertical reference as in inclinometers or the like by selective orientation of the device. A bistable weight balancing apparatus and a dual bearing support arrangement cooperate to provide two discrete balancing positions. Horizontal positioning of the device results in relatively even weight distribution around a needle bearing support which permits alignment with the polar line of an external magnetic field. Vertical orientation of the device permits an offset redistribution of the weight in the bistable balance to define a vertical reference. Digitally coded apparatus such as a disc permits circuitry to detect instantaneous orientation of the frame relative to a magnetic field or vertical reference. Circuitry logically cooperates with data read from specially coded tracks to insure accurate strobing of the output data free of ambiguities.