Sipp
Amy R. Sipp, Beavercreek, OH US
Patent application number | Description | Published |
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20090240170 | SYSTEMS AND METHODS FOR DETERMINING PRE-FALL CONDITIONS BASED ON THE ANGULAR ORIENTATION OF A PATIENT - A system for collecting data related to the angular orientation of a patient for use in determining the presence of pre-fall conditions may include a wireless sensor and a base unit. The wireless sensor may be attached to the patient and include a first microprocessor operatively coupled to a gyroscope and a transmitter. The base unit may include a second microprocessor operatively coupled to a receiver and a data storage unit. The gyroscope may output a signal related to the angular orientation of the patient to the first microprocessor. The first microprocessor processes the signal received from the gyroscope and transmits data related to the angular orientation of the patient via the transmitter. The receiver in the base unit receives the data from the wireless sensor and passes the data to a second microprocessor. The second microprocessor stores formats the data and stores the data in the data storage unit for analysis. | 09-24-2009 |
Corey Sipp, Macon, GA US
Patent application number | Description | Published |
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20150157585 | PHARMACEUTICAL COMPOSITIONS - Implementations of a pharmaceutical composition used to help treat pain, reduce inflammation and fatigue, provide vital nutrients, and increase alertness in humans are provided. In some implementations, the pharmaceutical composition can be comprised of an effective amount of a non-steroidal anti-inflammatory drug (NSAID), a multivitamin supplement, and an effective amount of caffeine sufficient to increase alertness, metabolic activity, and/or stave off drowsiness. The pharmaceutical composition can be formulated with any suitable nontoxic pharmaceutically acceptable inert carry material known to those skilled in the art and administered orally. | 06-11-2015 |
Richard Leon Sipp, Crestwood, KY US
Patent application number | Description | Published |
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20120055189 | BEVERAGE DISPENSER FOR PARTIALLY FROZEN BEVERAGES WITH AN IMPROVED DRIVE AND SEALING SYSTEM - A beverage dispenser for partially frozen beverages includes at least one bowl for storing a beverage product, with a freezing cylinder positioned in the bowl and housing evaporator coils. The beverage dispenser further includes a cooling system for supplying a cooling medium through the evaporator coils to cool the beverage product when stored in the bowl. The beverage dispenser further includes a dispenser assembly for dispensing the beverage product from the bowl. Finally, the beverage dispenser includes an auger which rotates about the freezing cylinder, the auger including a first end positioned near a front of the beverage dispenser and a second end positioned near a rear of the beverage dispenser. The auger has a ring gear positioned at its second end, and a drive system that includes a belt and pulley arrangement rotates the auger by driving the ring gear. | 03-08-2012 |
20130327080 | BEVERAGE DISPENSER FOR PARTIALLY FROZEN BEVERAGES WITH AN IMPROVED DRIVE AND SEALING SYSTEM - A beverage dispenser for partially frozen beverages includes at least one bowl for storing a beverage product, with a freezing cylinder positioned in the bowl. The beverage dispenser further includes a cooling system for supplying a cooling medium to the freezing cylinder to cool the beverage product when stored in the bowl, along with a dispenser assembly for dispensing the beverage product from the bowl. The beverage dispenser includes an auger which rotates about the freezing cylinder. A driven hub is positioned on and rotates with respect to the freezing cylinder, and the driven hub engages a rear end portion of the auger. A driver hub is positioned inside of the freezing cylinder and is magnetically coupled to the driven hub, such that rotation of the driver hub causes a corresponding rotation of the driven hub, and thus, rotation of the auger. | 12-12-2013 |
20140332560 | BEVERAGE DISPENSER FOR PARTIALLY FROZEN BEVERAGES WITH AN IMPROVED DRIVE AND SEALING SYSTEM - A beverage dispenser for partially frozen beverages includes at least one bowl for storing a beverage product, with a freezing cylinder positioned in the bowl and housing an evaporator. The beverage dispenser further includes a cooling system for supplying a cooling medium to the evaporator to cool the beverage product when stored in the bowl. The beverage dispenser further includes a dispenser assembly for dispensing the beverage product from the bowl. Finally, the beverage dispenser includes an auger which rotates about the freezing cylinder, the auger including a first end positioned near a front of the beverage dispenser and a second end positioned near a rear of the beverage dispenser. The auger has a ring gear positioned at its second end, and a drive system that rotates the auger by driving the ring gear. | 11-13-2014 |
20150230496 | BEVERAGE DISPENSER FOR PARTIALLY FROZEN BEVERAGES WITH AN IMPROVED DRIVE AND SEALING SYSTEM - A beverage dispenser for partially frozen beverages includes at least one bowl for storing a beverage product, with a freezing cylinder positioned in the bowl. The beverage dispenser further includes a cooling system for supplying a cooling medium to the freezing cylinder to cool the beverage product when stored in the bowl, along with a dispenser assembly for dispensing the beverage product from the bowl. The beverage dispenser includes an auger which rotates about the freezing cylinder. A driven hub is positioned on and rotates with respect to the freezing cylinder, and the driven hub engages a rear end portion of the auger. A driver hub is positioned inside of the freezing cylinder and is magnetically coupled to the driven hub, such that rotation of the driver hub causes a corresponding rotation of the driven hub, and thus, rotation of the auger. | 08-20-2015 |
Timothy James Sipp, Albuquerque, NM US
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20150076963 | Generator of electricity and refrigeration using induced vibrational and acoustic potential energy reclamation via tuned piezoelectric resonant cavity systems - A plurality of pressurized sequentially perpendicularly coupled and tuned piezoelectric resonators mechanically amplifies ambient and induced Sound Pressure Levels via Standing Wave Resonance such that the anti-node of the Natural Resonant Frequency in each resonator occurs in a plane consistent with the coupling port of the subsequent resonator thereby acting as a mechanically amplified acoustic driver for the proceeding resonator until acoustically driving mechanically coupled and tuned Piezoelectric Helmholtz resonators with physical parameters such that Standing Wave Resonance occurs within the Piezoelectric Helmholtz Resonant Cavities and Acoustic Refrigeration Units comprising cylindrical resonant cavities with axial regenerating stacks acted upon by tuned frequencies such that the hot heat exchangers are in the center of said cavities while the cold heat exchangers comprise the termination of the second ends of said cavities. The latent heat generates steam in a pressurized vessel. This invention generates electricity, heating and cooling without moving parts. | 03-19-2015 |
Timothy James Sipp, Penasco, NM US
Patent application number | Description | Published |
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20150358739 | Self-Sustaining System of Extensible Acoustically-Driven Mechanically-Coupled Tuned-Closed-Column-Resonator-Tuned-Helmholtz-Resonator-Passive-Radiator-- Electromagnetic-Induction-Circuit Vibrational and Acoustic Piezoelectric Resonators that Generate Electricity - A plurality of acoustically-driven mechanically-coupled tuned-closed-column-resonator-tuned-Helmholtz-resonator-piezo-poly-passive-radiator-electromagnetic-induction-circuit vibrational and acoustic piezoelectric resonator systems constitute an acoustic energy harvesting device that mechanically amplifies induced sound pressure levels via standing wave resonance such that the anti-node/s of the natural resonant frequency/ies in the tuned-closed-column-resonator/s occur/s in the plane/s consistent with the coupling port/s of the attached tuned-Helmholtz resonator/s and subsystems, acoustically driving the tuned-Helmholtz resonator/s of physical parameters such that standing wave resonance occurs within the tuned-Helmholtz resonators one wall of which comprises a sympathetically oscillating poled-piezo-polymer-surround-mounted-non-poled-piezo-polymer tympanic membrane the face/s of which is/are mounted with thin film ferromagnetic solenoids that derive electric fields from the oscillating poled-piezo-polymer surround to self-induce magnetic fields oscillating through stationary inductor coil/s housed in the throat connecting the tuned-Helmholtz resonator-piezo-poly-passive-radiator-electromagnetic-induction-circuit to the subsequent mechanically-coupled tuned-closed-column-resonator-tuned-Helmholtz-resonator-piezo-poly-passive-radiator-electromagnetic-induction-circuit and mechanically-coupled tuned-closed-column piezo-ceramic-resonator/s and tuned-piezo-ceramic-Helmholtz-resonator/s and subsystems generates electricity, magnetic fields, and is self-sustaining. | 12-10-2015 |