Patent application number | Description | Published |
20100140463 | ENCODER AND METHOD FOR PRECISELY INDICATING POSITIONS - An encoder and method for precisely indicating the position of a first member with respect to a second member by utilizing a pattern of machine-sensible elements carried on a track of the first member; the machine-sensible elements being located at successive incremental rotations on the track of the first member and each representing one of the binary values “0” and “1”; and a plurality of “n” sensors, wherein “n” is greater than “3”, carried by the second member at a plurality of spaced locations thereon in proximity to the track of the first member and alignable with the machine-sensible elements of the first member. Each sensor thus senses the binary value of each machine-sensible element with which it is aligned to produce an output corresponding to the binary value of the machine-sensible element with which it is aligned, whereby the outputs of all the sensors constitute a binary code, preferably a Gray code, of “n” bits identifying the position of the first member with respect to the second member. | 06-10-2010 |
20100163716 | OPTICAL ENCODER - An optical encoder for measuring the rotary angle of a rotating shaft comprising an electronic board with light emitter and light sensor means disposed between a pair of overlying light guides having a common symmetry axis that coincides with the shaft rotation axis, the light guides receiving light from a light emitter means on the electronic board and returning light to a light sensor means the electronic board; an optical pattern of two concentric annular sections attached to the rotating shaft and an optical pattern of two concentric annular sections on a stationary device. A method for measuring the rotary angle of the rotating shaft by emitting light from the electronic board into the light guides and processing the signals received on the electronic board from light rays returning through the light guides after interacting with the said optical patterns. | 07-01-2010 |
20100253327 | APPARATUS AND METHOD FOR MEASURING DISPLACEMENTS OF DISPLACEABLE MEMBERS - Apparatus and method for measuring displacements of a rotary or linearly-displaceable member by counting periods of displacement thereof along a predetermined displacement path, including a pulse generator located at a pulse-generation station proximate to the displacement path; and an electrical circuit controlled by the pulse generator to actuate a first sensor to sense the status of the displaceable member at the particular instant one of said second machine-sensible elements passes through the pulse-generation station, and to increment a counter in accordance with said status determination. In the described preferred embodiments, the second machine-sensible elements are magnetic elements; and the pulse generator includes a coil, a magnetic core magnetically coupled to the coil, and a spring-mounting for the magnetic core causing the core to move from an initial position in one direction with respect to the coil when aligned with one of the second machine-sensible elements, and to be returned in the opposite direction by the spring to its initial position, whereby the coil generates pulses during such movements of the magnetic core. | 10-07-2010 |
20120205992 | TRANSVERSE FLUX ELECTRICAL MOTOR - A transverse flux electrical motor to produce motion from an input electric current, the electrical motor comprising: a static element having a plurality of magnets arranged in at least two rows and defining a path of movement; a magnetizable movable element having at least two openings, each opening being sized and shaped to receive a magnet from one of the rows of magnets, the movable element being movable along the path of movement such that the magnets of each row pass through one of the openings; and a plurality of windings positioned adjacent to the movable element, to receive the electric current and produce a magnetic flux circuit in the movable element and a force on the movable element in the direction of the path of movement; wherein the magnetic flux circuit in the movable element is transverse to the direction of force on the movable element. | 08-16-2012 |
20120327219 | SOLAR TRACKER DEVICE AND SYSTEM - A solar tracker device continuously captures sun rays to be redirected towards a target The device includes a mirror defining a center point and fixedly mounted to a heliostat, an imaging device having an optical axis passing through the mirror center point, an electronic board, and a partly transparent dome extending between the imaging device and the target When sun rays penetrate said dome, the mirror reflects rays toward the dome and a portion are reflected back by the dome to the imaging device to form an image of the mirror center point An image of the fixed target is formed on the imaging device through the dome and defines an image of the target Whenever the images of the mirror and the target center are not in coincidence, the electronic board is activated to rotate the heliostat reflecting surface toward an orientation for which coincidence is obtained | 12-27-2012 |
20150070001 | HIGH RESOLUTION ABSOLUTE ENCODER - The device to measure the absolute rotation angle of a rotating shaft includes a rotating disc, fixed to the shaft. A group of permanent magnets of different sizes and polarities is disposed on a circular track. Further, a group of Hall sensors, fixed to a static part of the device, are disposed on a circular path, in proximity of the rotating disc magnets tracks, and generate electric signals proportional to the strength of the magnetic field produced by the magnets in proximity. The signs of these electric signals are used to calculate a code characteristic of a low resolution absolute angular position. Two analog signals are associated to the obtained code, according to a pre-defined table. The associated analog signal having the closest value to zero is used as an entry to a pre-recorded table containing the correspondent angular position of the shaft. | 03-12-2015 |