Patent application number | Description | Published |
20080228154 | DEVICE, SYSTEM, KIT OR METHOD FOR COLLECTING EFFLUENT FROM AN INDIVIDUAL - The present invention relates to a device, method, system and kit for receiving effluent from an individual. In an alternative embodiment, the present invention is directed to a device, method, system and kit for collecting effluent from an individual during a medical or diagnostic procedure including but not limited to, imaging or viewing one or more sections of an individual's gastrointestinal tract. In another alternative embodiment, the effluent is collected in a hollow area in order to prevent the effluent form contaminating a component, device or apparatus used in connection with the medical or diagnostic procedure. | 09-18-2008 |
20120078081 | DEVICE, SYSTEM, KIT OR METHOD FOR COLLECTING EFFLUENT FROM AN INDIVIDUAL - The present invention relates to a device, method, system and kit for receiving effluent from an individual. In an alternative embodiment, the present invention is directed to a device, method, system and kit for collecting effluent from an individual during a medical or diagnostic procedure including but not limited to, imaging or viewing one or more sections of an individual's gastrointestinal tract. In another alternative embodiment, the effluent is collected in a hollow area in order to prevent the effluent form contaminating a component, device or apparatus used in connection with the medical or diagnostic procedure. | 03-29-2012 |
20140296806 | DEVICE, SYSTEM, KIT OR METHOD FOR COLLECTING EFFLUENT FROM AN INDIVIDUAL - The present invention relates to a device, method, system and kit for receiving effluent from an individual. In an alternative embodiment, the present invention is directed to a device, method, system and kit for collecting effluent from an individual during a medical or diagnostic procedure including but not limited to, imaging or viewing one or more sections of an individual's gastrointestinal tract. In another alternative embodiment, the effluent is collected in a hollow area in order to prevent the effluent form contaminating a component, device or apparatus used in connection with the medical or diagnostic procedure. | 10-02-2014 |
Patent application number | Description | Published |
20110289972 | Post-Manufacture Glass Container Thermal Strengthening on a Conveyor - A method of manufacturing of strengthened glass containers, and more particularly a method of thermally strengthening glass containers in a glass container manufacturing line while they are on a conveyor intermediate the hot end and the cold end. Glass containers formed at an I. S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers while being transported on a conveyor are subjected to a unique rapid thermal strengthening cooling process in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers. | 12-01-2011 |
20110289974 | Cooling Tube Nozzle for a Post-Manufacture Glass Container Thermal Strengthening Station - An apparatus for manufacturing strengthened glass containers, and more particularly the construction and operation of a cooling tube nozzle in an apparatus for thermally strengthening glass containers in a glass container manufacturing line at a location intermediate the hot end and the cold end. Glass containers formed at an I. S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers are rapidly thermally strengthened in a cooling station in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers, with the cooling tube nozzles being used to cool the inner surfaces of the glass containers. | 12-01-2011 |
20110289975 | Cooling Shroud for a Post-Manufacture Glass Container Thermal Strengthening Station - An apparatus for manufacturing strengthened glass containers, and more particularly the construction and operation of a cooling shroud in an apparatus for thermally strengthening glass containers in a glass container manufacturing line at a location intermediate the hot end and the cold end. Glass containers formed at an I. S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers are rapidly thermally strengthened in a cooling station in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers, with the cooling shrouds being used to cool the outer surfaces of the glass containers. | 12-01-2011 |
20110289977 | Post-Manufacture Glass Container Thermal Strengthening Station - An apparatus for manufacturing strengthened glass containers, and more particularly an apparatus for thermally strengthening glass containers in a glass container manufacturing line at a location intermediate the hot end and the cold end. Glass containers formed at an I. S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers are rapidly thermally strengthened in a cooling station in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers. | 12-01-2011 |
20110289978 | Cooling Tube Mechanism Operation in a Post-Manufacture Glass Container Thermal Strengthening Station - An apparatus for manufacturing strengthened glass containers, and more particularly the construction and operation of a cooling tube mechanism in an apparatus for thermally strengthening glass containers in a glass container manufacturing line at a location intermediate the hot end and the cold end. Glass containers formed at an I. S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers are rapidly thermally strengthened in a cooling station in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers, with the cooling tube mechanism being used to cool the inner surfaces of the glass containers. | 12-01-2011 |
20140090420 | Vertical I.S. Machine - A vertical individual section (I.S.) machine for manufacturing glass containers is disclosed in which parisons made in parison molds are lowered into blow molds located under the parison molds without being inverted, where they are blown into glass containers. Optionally, reheat shrouds may be located vertically intermediate the blank molds and the blow molds to reheat the parisons prior to them being blown. The vertical I.S. machine may have multiple sections that are located close adjacent each other, with each section potentially having multiple blank and blow molds. | 04-03-2014 |
Patent application number | Description | Published |
20120216293 | MEDIA SERVICE DELIVERY SYSTEM PROVIDING CONDITIONAL ACCESS TO MEDIA CONTENT FROM VARIOUS CLIENT DEVICES - A system for protecting the digital rights of content owners allows digital media to be delivered to only those media rendering client devices that have been approved for the media content. Before delivering requested media, the media service provider may determine whether the media rendering client device that requested the media is the type of device that is authorized to receive the request media. If it is, the media service provider may transmit the media to a middleman server over a network (such as the Internet). A middleman server may then serve the media to the client device over a local network. By allowing the media content to be distributed to approved devices only, the media service provider can prevent a user from using the media in a way that is not authorized by the content owner. | 08-23-2012 |
20140115179 | MEDIA SERVICE DELIVERY SYSTEM PROVIDING CONDITIONAL ACCESS TO MEDIA CONTENT FROM VARIOUS CLIENT DEVICES - A system for protecting the digital rights of content owners allows digital media to be delivered to only those media rendering client devices that have been approved for the media content. Before delivering requested media, the media service provider may determine whether the media rendering client device that requested the media is the type of device that is authorized to receive the request media. If it is, the media service provider may transmit the media to a middleman server over a network (such as the Internet). A middleman server may then serve the media to the client device over a local network. By allowing the media content to be distributed to approved devices only, the media service provider can prevent a user from using the media in a way that is not authorized by the content owner. | 04-24-2014 |
20140283137 | MEDIA SERVICE DELIVERY SYSTEM PROVIDING CONDITIONAL ACCESS TO MEDIA CONTENT FROM VARIOUS CLIENT DEVICES - A system for protecting the digital rights of content owners allows digital media to be delivered to only those media rendering client devices that have been approved for the media content. Before delivering requested media, the media service provider may determines whether the media rendering client device that requested the media is the type of device that is authorized to receive the request media. If it is, the media service provider may transmit the media to a middleman server over a network (such as the Internet). A middleman server may then serves the media to the client device over a local network. By allowing the media content to be distributed to approved devices only, the media service provider can prevent a user from using the media in a way that is not authorized by the content owner. | 09-18-2014 |
20160088556 | Delivering Media Data To Portable Computing Devices - Power consumption in a portable computing device's receive-transmit subsystem is reduced when this subsystem receives streaming media data. The portable computing device receives a first portion of the media data via a first communication channel and a second portion of the media data via a second channel. The portable computing device may obtain the first portion well in advance of receiving the second portion and may use a wireless connection to receive the second portion. The portable computing device may terminate the wireless connection once the second portion has been received, thus reducing overall power consumption in wireless device. A client application on the portable computing device reassembles the media file from the first and second portions. | 03-24-2016 |
20160095054 | Delivering Media Data To Portable Computing Devices - Power consumption in a portable computing device's receive-transmit subsystem is reduced when this subsystem receives streaming media data. The portable computing device receives a first portion of the media data via a first communication channel and a second portion of the media data via a second channel. The portable computing device may obtain the first portion well in advance of receiving the second portion and may use a wireless connection to receive the second portion. The portable computing device may terminate the wireless connection once the second portion has been received, thus reducing overall power consumption in wireless device. A client application on the portable computing device reassembles the media file from the first and second portions. | 03-31-2016 |
Patent application number | Description | Published |
20090210160 | ESTIMATING HORIZONTAL STRESS FROM THREE-DIMENSIONAL ANISOTROPY - A method for determining properties of a subterranean formation. The method includes determining at least one characterization parameter based on wave velocity measurement data, determining a plurality of elastic coefficients based on the at least one characterization parameter using a plurality of equations, determining an anisotropic stress profile of the subterranean formations based on the stiffness matrix of the subterranean formation comprising the plurality of elastic coefficients wherein the elastic coefficients are approximated using the plurality of equations, and displaying the anisotropic stress profile of the subterranean formations. | 08-20-2009 |
20090266548 | Rock Stress Modification Technique - A technique involves facilitating fracturing operations along a wellbore extending through a subterranean formation. A stress device is deployed in a wellbore and activated to engage a surrounding wall. The stress device can then be manipulated to create a reduced stress region in the formation at a desired location along the wellbore. The reduced stress region facilitates the controlled formation of a fracture in the formation at the desired location. Furthermore, the stress device can be moved and the process repeated at multiple locations along the wellbore. | 10-29-2009 |
20110042080 | DETERMINING FRACTURE ORIENTATION USING WELLBORE ACOUSTIC RADIAL PROFILES - A method for performing field operations including obtaining a first set of acoustic radial profiles of a subterranean formation prior to induction of a fracture disposed about the wellbore, obtaining a second set of acoustic radial profiles of the subterranean formation subsequent to the induction of the fracture, comparing the first set of acoustic radial profiles and the second set of acoustic radial profiles based on a pre-determined criterion to generate a comparison result, determining, based on the comparison result, an orientation of one or more portions of the fracture, and adjusting the operations of the oilfield based on the orientation. | 02-24-2011 |
20110134720 | METHOD OF USING DIPOLE COMPRESSIONAL DATA TO DETERMINE PROPERTIES OF A SUBTERRANEAN STRUCTURE - To determine properties of a subterranean structure, information relating to dipole compressional data is collected based on measurements by a logging tool in a borehole. The information relating to the dipole compressional data is analyzed in multiple dimensions (e.g., multiple borehole axial planes) to determine the properties of the subterranean structure through which the borehole extends. | 06-09-2011 |
20120173216 | DETERMINING DIFFERENTIAL STRESS BASED ON FORMATION CURVATURE AND MECHANICAL UNITS USING BOREHOL LOGS - A method for performing wellbore operations of a field having a subterranean formation. The method includes determining, based on an image log of a wellbore penetrating the subterranean formation, a plurality of interpreted geological surfaces, identifying a plurality of estimated slickensides from the plurality of interpreted geological surfaces based on at least one pre-determined criterion, calculating, using a processor, a differential stress using a curvature model representing at least one mechanical unit defined by the plurality of estimated slickensides, generating a stress model using the differential stress, identifying a modeled wellbore stress-induced failure in response to a total stress value in the stress model exceeding a strength property of the subterranean formation, determining a difference between the modeled wellbore stress-induced failure and an observed stress-induced failure in the subterranean formation, and updating the stress model by adjusting the plurality of estimated slickensides to, in turn, adjust the difference. | 07-05-2012 |