Windgassen
James Windgassen, Chester, MD US
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20110163603 | SMART-GRID COMBINATION POWER SYSTEM - The embodiments shown and described herein relate to a portable clean power generation and aggregation system. The system comprises a plurality of power generation units operable to generate DC electrical power, a power storage device, an inverter unit, and a main controller. The plurality of power generation units may include a solar power generation unit, a wind power generation unit, a hydro power generation unit, and a fuel-based power generation unit. The main controller is electrically coupled to the plurality of power generation units, the inverter controller, and the power storage device, and monitors DC electrical power generation by the plurality of power generation units, monitors DC electrical power received by the inverter, measures charge of the power storage device, and directs DC electrical power from the power storage device to the inverter. The nature of the system and its applications allows the effective use of wireless communications systems and the like where they would otherwise not be possible. | 07-07-2011 |
James R. Windgassen, Chester, MD US
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20090114572 | Process for separation of phosphatic materials coastal beach sand - A process for separating phosphatic materials from coastal beach sand and sand deposits used for beach renourishment. The steps include (a) suspending a mixture of beach sand and phosphatic material in water, (b) introducing compressed gas, preferably air, into the mixture or sparging to produce a bubble froth on the surface of the water, and (c) skimming or separating the bubble froth from the surface of or within the water to effect separation of the phosphatic material in the froth from the beach sand left in the water. The bubbles of the bubble froth attract and carry the phosphatic material on the surface of the bubbles during upward movement through the mixture. A conditioner added to the water which improves the tendency of the phosphatic material to “float” is preferred. | 05-07-2009 |
Richard Windgassen, Venice, FL US
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20090114572 | Process for separation of phosphatic materials coastal beach sand - A process for separating phosphatic materials from coastal beach sand and sand deposits used for beach renourishment. The steps include (a) suspending a mixture of beach sand and phosphatic material in water, (b) introducing compressed gas, preferably air, into the mixture or sparging to produce a bubble froth on the surface of the water, and (c) skimming or separating the bubble froth from the surface of or within the water to effect separation of the phosphatic material in the froth from the beach sand left in the water. The bubbles of the bubble froth attract and carry the phosphatic material on the surface of the bubbles during upward movement through the mixture. A conditioner added to the water which improves the tendency of the phosphatic material to “float” is preferred. | 05-07-2009 |
Ryan Windgassen, Nowthen, MN US
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20140276795 | COMBINATION ELECTROSURGICAL DEVICE - An electrosurgical device comprising: (a) forceps including: (i) a first working arm and (ii) a second working arm; (b) a blade electrode; wherein the electrosurgical device is capable of being switched between a first electrical configuration so that the electrosurgical device delivers a first therapy current through the first working arm, the second working arm, or both, and a second electrical configuration so that the electrosurgical device delivers a second therapy current through the blade electrode: and wherein the first working arm and the second working arm of the forceps are immobilized in the second electrical configuration so that both the forceps and the first therapy current are disabled. | 09-18-2014 |
20140276796 | COMBINATION ELECTROSURGICAL DEVICE - An electrosurgical system comprising: a handpiece including: (a) a first working arm, (b) a second working arm, and (c) a blade electrode; and an activation circuit having a first switch state and a second switch state, wherein a therapy current is conducted between the first working arm and the second working arm when the activation circuit is in the second switch state and the handpiece is in a first position; wherein the therapy current is conducted between the blade electrode, the first working arm, the second working arm, or a combination thereof and an adjacent handpiece component when the activation circuit is in the second switch state and the handpiece is in a second position; and wherein the therapy current is not conducted when the activation circuit is in the first switch state. | 09-18-2014 |
20140276799 | COMBINATION ELECTROSURGICAL DEVICE - An electrosurgical device: forceps having: a first working arm, a second working arm, wherein the electrosurgical device has a first electrosurgical configuration where the first working arm and the second working arm are in an opposed position so that the forceps deliver a first therapy current that flows between the first working arm and the second working arm; and wherein the electrosurgical device has a second electrosurgical configuration when the first working arm, the second working arm, or both are repositionable relative to each other so that the first working arm is extended with respect to the second working arm or vice versa and a second therapy current is delivered from the first working arm to a remote electrode. | 09-18-2014 |
20140276800 | COMBINATION ELECTROSURGICAL DEVICE - An electrosurgical system comprising: a handpiece including: a first working arm, a second working arm, and an activation circuit having a first switch state and a second switch state, wherein a therapy current is conducted between the first working arm and the second working arm when the activation circuit is in the second switch state and the handpiece is in a first position; wherein the therapy current is conducted between the first working arm or the second working arm, and an adjacent handpiece component when the activation circuit is in the second switch state and the handpiece is in a second position; and wherein the therapy current is not conducted when the activation circuit is in the first switch state. | 09-18-2014 |
Ryan J. Windgassen, Nowthen, MN US
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20140135805 | FORCEPS WITH A ROTATION ASSEMBLY - A forceps comprising: (a) a stylet comprising; (i) a hollow tube having a longitudinal axis; (ii) assemblies, that are extendable through the hollow tube, comprising; (1) support rods; (2) functional attachments at the end of the support rods; (b) a hand piece comprising; (i) housing structures defining a cavity that houses the stylet; (ii) actuating mechanisms, in communication with the stylet, comprising; (1) a bearing fitting located on the stylet; (2) a shuttle in communication with the bearing fitting, and constrained by a plurality of guide ridges so that the shuttle is movable along a longitudinal axis and restricted from rotational movement around the longitudinal axis; (3) a socket housed by the shuttle, the socket receiving the bearing fitting and being rotatable relative to the shuttle; and (4) levers in communication with the stylet that causes movement of the hollow tube and the assemblies are relative to each other. | 05-15-2014 |
William P. Windgassen, South Beloit, IL US
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20110140015 | Valve Actuator with Lock Mechanism - A valve actuator with manual lock is provided. The valve actuator with manual lock includes a locking button arrangement that is operably coupled to a shaft extending along an axis of rotation of a drive train. The locking button arrangement is selectively engageable with a housing of the valve actuator to lock the drive train in a selected orientation. | 06-16-2011 |
20110240893 | Valve Actuator Having Synchronous Motor Having Plastic Bushings - A synchronous motor and a valve having a valve actuator and valve assembly is provided. The valve actuator includes the synchronous motor. The synchronous motor utilizes a magnetic coil, a stator and a rotor to generate rotational movement to drive the valve member for the valve assembly. The valve has a normal state in which the valve is maintained when power is not supplied to the motor. The valve has a non-normal actuated state when power is supplied to the motor. The motor is stalled in the non-normal state to maintain the valve in that state. The rotor includes a rotor shaft that passes through a magnetic hub of the stator. The rotor shaft is supported by a plurality of plastic and/or nylon bearings to prevent corrosion therebetween when the rotor shaft and bearings remain in a substantially fixed orientation for an extended period of time. | 10-06-2011 |
20120161562 | Over Shaft Rotary Actuator with Internal Clamp - An over shaft rotary actuator with an internal clamp arrangement is provided. The actuator includes an internal clamp arrangement carried within a housing. A drive train and a motor also carried within the housing and mechanically coupled to the internal clamp arrangement. The internal clamp arrangement is centered on the plane that a driving torque is applied to the internal clamp arrangement to rotate a shaft. | 06-28-2012 |