Patent application number | Description | Published |
20100110101 | USER INTERFACE COLOR SCHEME CUSTOMIZATION SYSTEMS AND METHODS - In certain exemplary embodiments, data representative of a color scheme including a plurality of colors is maintained, a parameter for each of the colors is shifted by a same offset to generate another color scheme, and the other color scheme is associated with a graphical user interface. In certain embodiments, the shifting preserves at least one of a hue relationship and a contrast relationship between the colors in the color scheme. In certain embodiments, at least one user interface tool configured to facilitate a user selection of one of the colors included in the color scheme and a change to be applied to the color, and the same offset is determined based on the user selection. | 05-06-2010 |
20140123011 | MEDIA PLAYER USER INTERFACE SYSTEMS AND METHODS - An exemplary method includes a media player user interface system 1) displaying a GUI on a display screen associated with a computing device, the GUI including a user-scrollable media content menu that contains a display area associated with a media feed accessible by the computing device, 2) selecting menu display content for the display area based at least in part on a scroll status of the user-scrollable media content menu, 2) and populating the display area with the selected menu display content. Corresponding methods and systems are also disclosed. | 05-01-2014 |
20150193138 | Systems and Methods for Touch-Screen-Based Remote Interaction with a Graphical User Interface - In an exemplary method, a user interface system receives touch screen input data representative of a touch screen input provided by a user on a touch screen of a remote control device configured to communicate wirelessly with an electronic device that provides a graphical user interface (“GUI”) for display on a display screen, converts the touch screen input to GUI input associated with the GUI provided by the electronic device for display on the display screen, and applies the GUI input to the GUI displayed on the display screen. In certain examples the user interface system converts the touch screen input to GUI input in accordance with a touch-screen-based directional-hop movement mode or a touch-screen-based free-cursor directional movement mode. | 07-09-2015 |
Patent application number | Description | Published |
20090202037 | Self-Contained Mobile Inspection System and Method - The inspection methods and systems of the present invention are mobile, rapidly deployable, and capable of scanning a wide variety of receptacles cost-effectively and accurately on uneven surfaces. The present invention is directed toward a portable inspection system for generating an image representation of target objects using a radiation source, comprising a mobile vehicle, a detector array physically attached to a movable boom having a proximal end and a distal end. The proximal end is physically attached to the vehicle. The invention also comprises at least one source of radiation. The radiation source is fixedly attached to the distal end of the boom, wherein the image is generated by introducing the target objects in between the radiation source and the detector array, exposing the objects to radiation, and detecting radiation. | 08-13-2009 |
20110033027 | Self-Contained Mobile Inspection System and Method - The inspection methods and systems of the present invention are mobile, rapidly deployable, and capable of scanning a wide variety of receptacles cost-effectively and accurately on uneven surfaces. The present invention is directed toward a portable inspection system for generating an image representation of target objects using a radiation source, comprising a mobile vehicle, a detector array physically attached to a movable boom having a proximal end and a distal end. The proximal end is physically attached to the vehicle. The invention also comprises at least one source of radiation. The radiation source is fixedly attached to the distal end of the boom, wherein the image is generated by introducing the target objects in between the radiation source and the detector array, exposing the objects to radiation, and detecting radiation. | 02-10-2011 |
20120027172 | Self Contained Mobile Inspection System and Method - The inspection methods and systems of the present invention are mobile, rapidly deployable, and capable of scanning a wide variety of receptacles cost-effectively and accurately on uneven surfaces. The present invention is directed toward a portable inspection system for generating an image representation of target objects using a radiation source, comprising a mobile vehicle, a detector array physically attached to a movable boom having a proximal end and a distal end. The proximal end is physically attached to the vehicle. The invention also comprises at least one source of radiation. The radiation source is fixedly attached to the distal end of the boom, wherein the image is generated by introducing the target objects in between the radiation source and the detector array, exposing the objects to radiation, and detecting radiation. | 02-02-2012 |
20140140475 | Self Contained Mobile Inspection System and Method - The inspection methods and systems of the present invention are mobile, rapidly deployable, and capable of scanning a wide variety of receptacles cost-effectively and accurately on uneven surfaces. The present invention is directed toward a portable inspection system for generating an image representation of target objects using a radiation source, comprising a mobile vehicle, a detector array physically attached to a movable boom having a proximal end and a distal end. The proximal end is physically attached to the vehicle. The invention also comprises at least one source of radiation. The radiation source is fixedly attached to the distal end of the boom, wherein the image is generated by introducing the target objects in between the radiation source and the detector array, exposing the objects to radiation, and detecting radiation. | 05-22-2014 |
20160033674 | Self Contained Mobile Inspection System and Method - The inspection methods and systems of the present invention are mobile, rapidly deployable, and capable of scanning a wide variety of receptacles cost-effectively and accurately on uneven surfaces. The present invention is directed toward a portable inspection system for generating an image representation of target objects using a radiation source, comprising a mobile vehicle, a detector array physically attached to a movable boom having a proximal end and a distal end. The proximal end is physically attached to the vehicle. The invention also comprises at least one source of radiation. The radiation source is fixedly attached to the distal end of the boom, wherein the image is generated by introducing the target objects in between the radiation source and the detector array, exposing the objects to radiation, and detecting radiation. | 02-04-2016 |
Patent application number | Description | Published |
20150217488 | METHOD AND APPARATUS FOR RAPID MOLDING A COMPOSITE STRUCTURE - A method for molding a composite structure includes the steps of infusing a fabric with a resin to form a ply of composite material, transferring the ply of composite material to a preheat station, and preheating the ply of composite material to a temperature that renders the composite material more drapable, but is less than a temperature that causes the resin in the material to initiate polymerization. The ply of composite material is then transferred to a press station where it is heated to a temperature that causes the resin to initiate polymerization, whereby the curing time for the composite material is substantially less than the curing time of a fabric that is infused with an epoxy resin. | 08-06-2015 |
20150292677 | METHOD OF MANUFACTURING A COMPRESSED GAS CYLINDER - A method of forming a reinforced pressure vessel includes the steps of providing a thin wall cylinder, wrapping the cylinder with at least one layer of prepreg reinforcing fiber, wrapping the cylinder with at least one layer of perforated shrink tape, applying heat to the shrink wrapped cylinder to squeeze the at least one prepreg fiber layer to force resin to weep through the perforated shrink tape and cure the resin, and allowing the resin to remain on the outer surface of the shrink tape to form a protective layer on the pressure vessel. | 10-15-2015 |
20150336337 | PROCESS FOR MOLDING A 3-DIMENSIONAL PART - A process uses predictive modeling software for selectively applying relief cuts and tension to the fibers in a 2-dimensional panel prior to shaping the panel into a 3-dimensional part. The predictive modeling software identifies areas of fiber tension in the final molded product, and relief cuts are made in those areas. The plies are loaded into grippers attached to a supporting frame and predictive modeling software is used to identify areas of fiber compression in the final molded product. Tension is applied to the identified areas of fiber compression. The panel is molded in a form and cure press, and the tension is maintained on the material while closing the mold halves. The molded part is able to conform to the final mold shape without tearing in areas of tension and without material buildup in areas of compression in the final molded part or post mold distortion. | 11-26-2015 |
Patent application number | Description | Published |
20110263917 | Process for Producing Propylene and Aromatics from Butenes by Metathesis and Aromatization - The invention is for a process for producing propylene and hexene (along with ethylene, pentenes, product butenes, heptenes and octenes) by metathesis from butenes (iso-, 1- and cis and trans 2-) and pentenes and then aromatizing the hexenes (along with higher olefins, such as heptenes and octenes) to benzene (along with toluene, xylenes, ethylbenzene and styrene). Since the desired products of the metathesis reaction are propylene and hexene, the feed to the metathesis reaction has a molar ratio for 1-butene:2-butene which favors production of propylene and 3-hexene with the concentration of hexenes and higher olefins in the metathesis product being up to 30 mole %. An isomerization reactor may be used to obtain the desired molar ratio of 1-butene:2-butene for the feed composition into the metathesis reactor. After the metathesis reaction, of hexene and higher olefins are separated for aromatization to benzene and other aromatics. | 10-27-2011 |
20120209042 | Liquid Phase Hydrogenation of Alkynes - The invention provides a process for selective hydrogenation of alkynes and other unsaturated hydrocarbons, such as acetylene and diolefins, with a catalyst comprising Pd and, optionally, at least one metal from the IA, IB, IIIA, IIIB, VB, or VIIIB Groups, where the metals are supported on a porous material, such as titania. If the process is in the absence of carbon monoxide (CO) in the feed, at least one metal from the IA, IB or IIIA Groups should be present in the catalyst, e.g., potassium, boron or silver. If the carbon monoxide (CO) is present in the feed, the catalyst consists essentially of Pd supported on a porous material, such as titania. | 08-16-2012 |
20140148629 | PROCESS FOR PRODUCING PROPYLENE AND AROMATICS FROM BUTENES BY METATHESIS AND AROMATIZATION - The disclosure is for a process for producing propylene and hexene (along with ethylene, pentenes, product butenes, heptenes and octenes) by metathesis from butenes (iso-, 1- and cis and trans 2-) and pentenes and then aromatizing the hexenes (along with higher olefins, such as heptenes and octenes) to benzene (along with toluene, xylenes, ethylbenzene and styrene). Since the desired products of the metathesis reaction are propylene and hexene, the feed to the metathesis reaction has a molar ratio for 1-butene:2-butene which favors production of propylene and 3-hexene with the concentration of hexenes and higher olefins in the metathesis product being up to 30 mole %. An isomerization reactor may be used to obtain the desired molar ratio of 1-butene:2-butene for the feed composition into the metathesis reactor. After the metathesis reaction, of hexene and higher olefins are separated for aromatization to benzene and other aromatics. | 05-29-2014 |
Patent application number | Description | Published |
20100223732 | UNITARY COMPOSITE/HYBRID CUSHIONING STRUCTURE(S) AND PROFILE(S) COMPRISED OF A THERMOPLASTIC FOAM(S) AND A THERMOSET MATERIAL(S) - Embodiments disclosed in the detailed description include a unitary or monolithic composite or hybrid cushioning structure(s) and profile(s) comprised of a cellular thermoplastic foam and a thermoset material. The thermoset material may also be provided as cellular foam as well. In one embodiment disclosed herein, the unitary composite cushioning structure is formed from a cellular thermoplastic foam and a thermoset material. The cellular thermoplastic foam provides support characteristics to the unitary composite cushioning structure. The thermoset material provides a resilient structure with cushioning characteristics to the cushioning structure. A stratum is disposed between at least a portion of the cellular thermoplastic foam and at least a portion of the thermoset material to secure the at least a portion of the thermoset material to the at least a portion of the cellular thermoplastic foam to provide a unitary composite cushioning structure. | 09-09-2010 |
20120272457 | UNITARY COMPOSITE/HYBRID CUSHIONING STRUCTURE(S) AND PROFILE(S) COMPRISED OF A THERMOPLASTIC FOAM(S) AND A THERMOSET MATERIAL(S) AND RELATED METHODS - Related methods to produce unitary or monolithic composite or hybrid cushioning structure(s) and profile(s) comprised of a thermoplastic foam and a thermoset material are also disclosed. As non-limiting examples, the thermoset material may also be provided as cellular foam. The unitary composite cushioning structure may be formed from the thermoplastic material and the thermoset material. The thermoplastic material provides support characteristics to the unitary composite cushioning structure. The thermoset material provides a resilient structure with cushioning characteristics to the cushioning structure. A stratum, which may be continuously produced, is formed between at least a portion of the cellular thermoplastic foam and at least a portion of the thermoset material as the thermoset material transforms from a non-solid to a solid phase to secure the at least a portion of the thermoset material to the at least a portion of the thermoplastic material to provide a unitary composite cushioning structure. | 11-01-2012 |
20130081209 | CELLULAR MATTRESS ASSEMBLIES AND RELATED METHODS - Embodiments disclosed herein include cellular mattress assemblies and related methods. The cellular mattresses assemblies may comprise thermoplastic material and/or thermoset material to achieve appropriate comfort and support characteristics. The cellular mattress assemblies may also comprise one or more components including a cellular thermoplastic foam profile to achieve appropriate comfort and support characteristics. The cellular mattress may include a support layer, a comfort layer, and a transition layer between the support layer and the comfort layer. | 04-04-2013 |
20130119574 | UNITARY COMPOSITE/HYBRID CUSHIONING STRUCTURE(S) AND PROFILE(S) COMPRISED OF A THERMOPLASTIC FOAM(S) AND A THERMOSET MATERIAL(S) - Embodiments disclosed in the detailed description include a unitary or monolithic composite or hybrid cushioning structure(s) and profile(s) comprised of a cellular thermoplastic foam and a thermoset material. The thermoset material may also be provided as cellular foam as well. In one embodiment disclosed herein, the unitary composite cushioning structure is formed from a cellular thermoplastic foam and a thermoset material. The cellular thermoplastic foam provides support characteristics to the unitary composite cushioning structure. The thermoset material provides a resilient structure with cushioning characteristics to the cushioning structure. A stratum is disposed between at least a portion of the cellular thermoplastic foam and at least a portion of the thermoset material to secure the at least a portion of the thermoset material to the at least a portion of the cellular thermoplastic foam to provide a unitary composite cushioning structure. | 05-16-2013 |
20130174350 | MATTRESS ASSEMBLIES AND METHODS EMPLOYING CLOTH MEMBER(S) THERMALLY BONDED TO FOAM SIDE SUPPORT MEMBER(S) TO FORM MATTRESS ENCASEMENTS - Mattress assemblies and methods employing foam side support members and cloth members to enclose mattress cores are disclosed. A mattress may include a mattress assembly enclosing a mattress core. The foam side supports of the mattress assembly may be disposed adjacent to a periphery portion of the mattress core to provide additional support, for example, when a user mounts and dismounts from the mattress. The side support members may be thermally bonded to the cloth members to secure the side supports adjacent the periphery portion of the mattress core. In this manner, the side support members may be precisely positioned relative to the mattress core without the need for adhesives or expensive manufacturing equipment to thermally weld the side support members directly to a foam base. | 07-11-2013 |
20130283538 | MATTRESS ASSEMBLIES AND COMPONENTS EMPLOYING PASSAGEWAYS FOR VENTILATION AND AIRFLOW - Embodiments disclosed herein include mattress assemblies and components employing passageways for ventilation and airflow. A mattress may contain a mattress core to provide cushioning and support. For example, the mattress core may comprise an innerspring, air bladder(s), and/or foam layer(s). A mattress assembly may include a foam base and/or at least one foam side support member to at least partially surround a mattress core to provide cushioning and structure. The foam base and/or at least one foam side support member may include at least one passageway for facilitating diffusion and air exchange between an exterior environment and an interior space of the enclosure containing the mattress core. In this manner, as stagnant air and humidity developing in the mattress core may be avoided or reduced from the mattress core, which may otherwise cause unhealthy conditions or unpleasant odors for users. | 10-31-2013 |
20140130265 | ALL-FOAM MATTRESS ASSEMBLIES WITH FOAM ENGINEERED CORES HAVING THERMOPLASTIC AND THERMOSET MATERIALS, AND RELATED ASSEMBLIES AND METHODS - All-foam mattress assemblies with foam engineered cores having thermoplastic and thermoset materials, and related assemblies and methods are disclosed. All-foam mattress assemblies use foam-based materials, such as thermoplastic and thermoset, to provide cushioning and support characteristics for a user in the sleeping area of a mattress during sleep or rest. The all-foam mattress assemblies may include foam comfort layer(s), foam transitional layer(s), and a foam engineered core. The all-foam engineered core may lessen a density of a mattress assembly by comprising thermoset member(s), and engineered geometric thermoplastic material profile(s) adjacent to the thermoset member(s). The engineered geometric thermoplastic material profile(s) may be disposed in a parallel or substantially parallel arrangement. In this manner, the all-foam engineering core may provide cushioning and support characteristics with reduced density compared to a foam mattress providing similar cushioning and support through solid thermoset layers. | 05-15-2014 |
20140317856 | CUSHIONING ASSEMBLIES WITH THERMOPLASTIC ELEMENTS ENCAPSULATED IN THERMOSET PROVIDING CUSTOMIZABLE SUPPORT AND AIRFLOW, AND RELATED METHODS - Embodiments disclosed herein include cushioning assemblies with thermoplastic elements encapsulated in thermoset providing customizable support and airflow. A cushioning assembly for a cushion provides cushioning and support for a user. Thermoplastic elements are encapsulated within a thermoset matrix to provide additional support at specific sections of the cushion. The shape and location of the thermoplastic elements may be configured to provide the support and cushioning characteristics desired by a user. The thermoplastic elements may include air passageways in communication with the outside. In this manner, support is provided precisely where needed for the user, the weight and expense of the cushion is reduced by eliminating expensive redundant support, and the heat and humidity that can cause user discomfort is reduced. | 10-30-2014 |
Patent application number | Description | Published |
20090071098 | REINFORCED COMPOSITE PANEL - A reinforced panel, made of a composite material, includes a single base layer. A first plurality of mutually parallel ridges is affixed to the surface of the base layer. A second plurality of mutually parallel ridges is also affixed to the surface of the base layer, but oriented transverse to the first plurality. Structurally, the ridges and the base layer are co-cured to create an integral, continuous structure that provides stiffness and rigidity to the panel. | 03-19-2009 |
20090072088 | FLYAWAY KABOBS - An aircraft wing made of a composite material, and its method of manufacture, require a plurality of kabobs (i.e. substantially rectangular shaped hollow tubes having an open end and a closed end). Of these kabobs, several are aligned end-to-end, to create a section. Several sections are then positioned side-by-side and covered by a layer of composite material to define an aerodynamic surface for the wing. The juxtaposed sections also establish spar webs for the wing, and the closed ends of the juxtaposed sections establish transverse ribs for the wing. Thus, the kabobs form the main load-bearing member of the wing. The sections of composite material are co-cured with the composite material of the aerodynamic surface. | 03-19-2009 |
20090072429 | METHOD FOR MANUFACTURING A REINFORCED PANEL OF COMPOSITE MATERIAL - A method for manufacturing rigid panels made of a composite material requires a caul sheet having a smooth surface that is formed with a plurality of grooves. A first layer of the composite material is laid on the caul sheet, and is cut to create flaps that extend into the respective grooves. Strips of composite material are then placed along the edges of the groove to extend and overlap each other in the groove. Next, a unidirectional ply is placed along the length of the groove, and this combination is then covered with a second layer of the composite material. Together, the combination of the first and second layers, the strips and the unidirectional ply are co-cured to create a rigid panel with integral stiffening members. | 03-19-2009 |
20090194637 | AIRCRAFT DOOR - A cabin door assembly is provided for use with a pressurized aircraft. The assembly includes two door halves for engaging the fuselage of the aircraft. Structurally, each door half includes a waist section integral with an adjoining tapered section. Further, the assembly includes an activator that is mounted on the fuselage and attached to the door halves. Specifically, the activator is attached to each door half to concertedly move each door half between a closed configuration and an open configuration. In the closed configuration, the door halves are sealed to the fuselage and to each other for pressurization of the aircraft. In the open configuration, the door halves extend outwardly from the fuselage to allow for aircraft ingress and egress. | 08-06-2009 |
20140138873 | Method for Manufacturing a Reinforced Panel of Composite Material - A method for manufacturing rigid panels made of a composite material requires a caul sheet having a smooth surface that is formed with a plurality of grooves. A first layer of the composite material is laid on the caul sheet, and is cut to create flaps that extend into the respective grooves. Strips of composite material are then placed along the edges of the groove to extend and overlap each other in the groove. Next, a unidirectional ply is placed along the length of the groove, and this combination is then covered with a second layer of the composite material. Together, the combination of the first and second layers, the strips and the unidirectional ply are co-cured to create a rigid panel with integral stiffening members. | 05-22-2014 |