Blew
Amy Blew, Cranberry Twp., PA US
Patent application number | Description | Published |
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20120253509 | STORAGE DEVICES, SYSTEMS, AND METHODS FOR DISPENSING MEDICATIONS - Storage devices, systems, methods, and computer program products are provided for dispensing medication. The storage devices include a container dispensing device for providing users with containers that can be used to securely transport (i.e., in a closed, identifiable container) medications dispensed from the storage device for a single selected patient. In this way, a single user may be able to dispense medications for multiple patients during a single user interaction with a storage device, while keeping medications for different patients separate and easily identifiable so as to provide secure transport between the storage device and the different patients' bedsides. Thus, a printing device may be provided for printing a summary of details, such as in the form of a label and/or a receipt. A sensor may also be provided for detecting the receipt of medications into the container as a check that the correct medications were dispensed by the user. | 10-04-2012 |
20130079924 | SYSTEMS, METHODS AND COMPUTER PROGRAM PRODUCT FOR STREAMLINED MEDICATION DISPENSING - Methods, apparatuses and computer program products are provided for facilitating the expedited dispensing of medications from an automated medication storage device. In this regard, a method may cooperate with the first device to facilitate the presentation of various displays that include features to reduce number of user interactions to dispense medications safely and effectively. | 03-28-2013 |
Austin Blew, Lehighton, PA US
Patent application number | Description | Published |
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20090295407 | DEVICE AND HANDLING SYSTEM FOR MEASUREMENT OF MOBILITY AND SHEET CHARGE DENSITY - An apparatus ( | 12-03-2009 |
20140103917 | SHEET CONDUCTANCE/RESISTANCE MEASUREMENT SYSTEM - An apparatus for testing of electrical or physical properties of a material include a single coil sensor mounted adjacent to a sample of the material. Sheet conductance of a wide variety of materials may be measured using the single coil to determine if the material conforms to generally accepted standards for the use to which the material will be put. In some examples, the material is a semiconductor wafer or flat panel. In other examples, the material is the body tissue of a patient. A non-invasive technique using the apparatus is also disclosed for monitoring the health of patient tissue such as musculature, and/or to determine whether healthy circulation is present, by measuring the conductance of the patient tissue in response to a magnetic field applied by the single coil. The single coil may be hand held, or it may be movable using an automated positioning system under computer control. | 04-17-2014 |
Douglas Blew, Mooresville, NC US
Patent application number | Description | Published |
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20130078856 | Coaxial Connectors Including Conductive Anti-Friction Bearing Mechanisms and/or Locking Mechanisms and Related Methods - Coaxial connectors are provided that include a body assembly, an internally-threaded nut, and a conductive anti-friction bearing mechanism disposed between the body assembly and the nut. In some embodiments, the conductive anti-friction bearing mechanism may comprise a plurality of ball bearings that are configured to maintain an electrical connection between the body assembly and the internally-threaded nut. | 03-28-2013 |
20130336623 | Composite Communications Cables Having a Fiber Optic Component Located Adjacent an Outer Surface of the Central Conductor of a Coaxial Cable Component and Related Methods - Composite communications cable are provided that include a central conductor, a dielectric spacer that substantially surrounds the central conductor, an outer conductor that substantially surrounds the dielectric spacer, a jacket that surrounds the outer conductor and a non-buffered optical fiber positioned between the central conductor and the dielectric spacer. An outer surface of the non-buffered optical fiber is within 50 microns of the outer surface of the central conductor. The positioning of the optical fiber adjacent an outer surface of the central conductor may protect the optical fiber from damage. | 12-19-2013 |
20140023330 | FIBER OPTIC CABLE WITH CELLULOSIC FILLER ELEMENTS - A fiber optic cable includes: a plurality of optical fibers, the fibers divided into a plurality of fiber optic subunits, each of the subunits defining generally a circle having a first diameter; at least one elongate filler element, the filler element comprising a cellulosic material, wherein in end view the filler element defines generally a circle having a second diameter that is substantially the same as the first diameter; and an outer jacket surrounding the optical fiber subunits and the filler element, wherein the total number of fiber optic subunits and fillers elements is at least four. In this configuration, the cable can pass typical flame testing while being manufactured at a lower cost than current cable. | 01-23-2014 |
Douglas John Blew, Mooresville, NC US
Patent application number | Description | Published |
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20090163075 | Reuseable Coaxial Connectors and Related Methods - Coaxial connectors include a connector body and an inner contact post. A compression sleeve is also provided that is configured to impart a generally circumferential compressive force to secure one or more elements of a coaxial cable between the connector body and the inner contact post when the compression sleeve is in a seated position. The compression sleeve or the connector body includes a first disengagement mechanism that is configured to assist moving the compression sleeve from the seated position to an unseated position in which at least some of the circumferential compressive force is eliminated. | 06-25-2009 |
20100175253 | Reuseable Coaxial Connectors and Related Methods - Coaxial connectors include a connector body and an inner contact post. A compression sleeve is also provided that is configured to impart a generally circumferential compressive force to secure one or more elements of a coaxial cable between the connector body and the inner contact post when the compression sleeve is in a seated position. The compression sleeve or the connector body includes a first disengagement mechanism that is configured to assist moving the compression sleeve from the seated position to an unseated position in which at least some of the circumferential compressive force is eliminated. | 07-15-2010 |
Robert Blew, Bridgeton, NJ US
Patent application number | Description | Published |
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20090222962 | GAZANIA PLANT NAMED 'TANGERINE FROST' - A new and distinct | 09-03-2009 |