Patent application number | Description | Published |
20100127606 | SLOW OPEN SLOW CLOSE APPLIANCE HINGE ASSEMBLY - A slow open slow close hinge assembly for an appliance includes a first hinge assembly including a base; a tab projecting outwardly from the base in a first direction; a support projecting outwardly from the base in a second direction; a hinge arm pivotably connected to the tab via a first pivot point; a tail portion extending through an opening in the base; a slow open slow close dampener operably connected between the support at a second pivot point and the tail portion at a third pivot point; wherein a neutral position for the dampener occurs when the first, second and third pivot points are aligned substantially in a straight line. | 05-27-2010 |
20110017191 | SLOW OPEN AND/OR SLOW CLOSE HINGE ASSEMBLY AND HINGE SYSTEM - A damped hinge assembly includes a hinge arm adapted to be connected to an associated appliance body. A channel is pivotally connected to the hinge arm and is adapted to be connected to an associated appliance door. A damper is operatively connected between the channel and the hinge arm. The damper includes a body defining a bore and a piston slidably received in the bore. A rod is connected to the piston and projects outward from the bore. A damper fluid is contained in the bore and acts on the piston to dampen sliding movement of the piston in at least one direction in the bore. A spring is located in the bore and acts on the piston to bias the piston toward one end of the bore. An oven or other appliance includes at least one damped hinge assembly. The appliance can include two damped hinge assemblies, each with or without the spring, arranged such that one hinge assembly provides damping primarily during opening of the appliance door and the other hinge assembly provides damping primarily during closing of the appliance door. | 01-27-2011 |
20110316401 | Front Frame Hinge For Appliance Door - A hinge assembly includes a base and a lever pivotally connected to the base. The lever includes an outer end adapted for being connected to an associated appliance door and an inner end. A cam is pivotally connected to the inner end of the lever and includes a contoured lobe edge. A cam control member is connected to the base. A spring includes a first end connected to the cam. The spring exerts a biasing force on the cam in a first direction such that said lever is urged toward a first position and said contoured lobe edge of said cam is urged into abutment with the cam control member. The lever is selectively movable from its first position against the biasing force of the spring to a second position. The cam control member contacts a first portion of the contoured lobe edge when the lever is located in its first position, and the cam control member contacts a second portion of the contoured lobe edge when the lever is located in its second position. | 12-29-2011 |
20140145576 | DOOR CLOSURE MECHANISM FOR REFRIGERATOR OR OTHER APPLIANCE - A door closure device includes a pivot pin adapted to engage an associated appliance hinge, and a channel rotatably connected to the pivot pin and adapted to be connected to an associated appliance door. A cam is non-rotatably engaged with the pivot pin. The cam comprises a lobed edge including a closing portion. A spring rod is slidably engaged with the channel, and a cam follower is operably engaged with the spring rod. A spring is engaged between the spring rod and the channel and biases the cam follower into engagement with the lobed edge of the cam. The follower moves along the lobed edge of the cam when the channel is rotated relative to the cam and the spring induces a door-closing torque on the channel when the follower is engaged with the closing portion of the cam lobed edge. | 05-29-2014 |
20140208542 | BREAKAWAY HINGE RECEPTACLE - A receptacle for an associated appliance hinge includes a receptacle base and a breakaway lever movably connected to the receptacle base. The breakaway lever includes a cam edge. A first mounting structure is connected to the receptacle base and adapted to be engaged by an associated hinge arm. A second mounting structure connected to the breakaway lever such that the second mounting structure is movable relative to the receptacle base. The second mounting structure is adapted to be engaged by the associated hinge arm. A breakaway latch is connected to the base and includes a cam follower engaged with the cam edge. The breakaway latch further includes a spring that biases the cam follower into abutment with the cam edge. The breakaway lever is selectively movable from a first position where the cam follower is engaged with a first location on the cam edge to a second position where the cam follower is engaged with a second location on the cam edge. | 07-31-2014 |
20140345082 | APPLIANCE HINGE COUNTERBALANCE ASSEMBLY WITH SNUBBER - A counterbalance assembly for an appliance hinge has a base including first and second spaced-apart side walls and a transverse face wall. A channel is located between the first and second side walls. First and second notch portions are respectively located in the first and second side walls. A rotating cam is supported on the base and has a camshaft that extends between the side walls and that is adapted for rotation about an axis of rotation, a first end located in the first notch portion and a second end located in the second notch portion. A biasing spring has an inner end engaged with the base and an outer end spaced from the base. A spring rod includes an outer end operatively coupled to the spring and an inner end operatively coupled to the lever. The lever also pivotally connects to the lobe of the cam. A damper assembly is connected to the base and having a piston which is moved between a first position and a second position by the lever contacting the piston. The piston in turn compresses fluid in the damper assembly thus dampening movement of the lid hinge. | 11-27-2014 |
Patent application number | Description | Published |
20090042455 | Electrically and Thermally Non-Metallic Conductive Nanostructure-Based Adapters - A conductive adapter for carrying relatively high current from a source to an external circuit without degradation is provided. The adapter includes a conducting member made from a conductive nanostructure-based material and having opposing ends. The adapter can also include a connector portion positioned on one end of the conducting member for maximizing a number of conductive nanostructures within the conducting member in contact with connector portion, so as to enable efficient conduction between a nanoscale environment and a traditional electrical and/or thermal circuit system. The adapter can further include a coupling mechanism situated between the conducting member and the connector portion, to provide a substantially uniform contact between the conductive nanostructure-based material in the conducting member and the connector portion. A method for making such a conductive adapter is also provided. | 02-12-2009 |
20090044848 | Nanostructured Material-Based Thermoelectric Generators - A thermoelectric device that can exhibit substantially high specific power density is provided. The device includes core having a p-type element made from carbon nanotube and an n-type element. The device also includes a heat plate in and a cool plate, between which the core can be positioned. The design of the thermoelectric device allows the device to operate at substantially high temperature and to generate substantially high power output, despite being light weight. A method for making the thermoelectric device is also provided. | 02-19-2009 |
20100000754 | CARBON NANOTUBE-BASED COAXIAL ELECTRICAL CABLES AND WIRING HARNESS - A cable having a conducting member made from a nanostructure-based material, and a shielding layer made of nanostructure-based material. The shielding layer can be circumferentially situated about the conducting member so as to enhance conductivity along the conducting member. A coupling mechanism may be situated between the shielding layer and the conducting member so as to secure the shielding layer in its position on the conducting member. A method of making the cable is also disclosed. | 01-07-2010 |
20110005808 | Hybrid Conductors and Method of Making Same - Hybrid conductors capable of achieving enhanced conductivity and current capacity over a wide range of frequencies are disclosed. The hybrid conductors may be used in electrical or thermal applications, or combinations of both. One method of fabricating such hybrid conductors includes complexing conductive metal elements (e.g., silver, gold, copper), transition metal elements, alloys, wires, or combinations thereof, with carbon nanotube materials. In the alternative, the hybrid conductors may be formed by doping the carbon nanotube materials in salt solutions. | 01-13-2011 |
20120118552 | SYSTEMS AND METHODS FOR THERMAL MANAGEMENT OF ELECTRONIC COMPONENTS - The device for extracting heat from carbon nanotubes wires or cables used under high power applications is provided. The device can include a thermally conductive member for placement against a heat source and for directing heat away from the heat source to a heat dissipating medium. The device can further include an electrically conductive member positioned on the thermally conductive member and made from a layer of carbon nanotubes, to reduce electrical resistance along the electrically conductive member. A geometric pattern can be imparted to the electrically conductive member to enhance dissipation of heat away from the thermally conductive member and the heat source. | 05-17-2012 |
20120177926 | NANOSTRUCTURE COMPOSITE SHEETS AND METHODS OF USE - A nanostructured sheet that can include a substantially planar body, a plurality of nanotubes defining a matrix within the body, and a protonation agent that can be dispersed throughout the matrix of nanotubes for enhancing proximity of adjacent nanotubes to one another. A method of making such a nanostructured sheet is also disclosed. | 07-12-2012 |
Patent application number | Description | Published |
20120007808 | Interactive game pieces using touch screen devices for toy play - There is provided a system and method for facilitating an interaction using first and second peripheral devices and related structures. Each of the first and second peripheral devices have a plurality of touch points for touching a touch surface of a touch-sensitive system. According to an exemplary embodiment, a method comprises detecting a plurality of contemporaneous touches on the touch surface of the touch-sensitive system. One of the first and second peripheral devices is identified based on the plurality of contemporaneous touches as compared to the plurality of touch points of one of the first and second peripheral devices. In some embodiments, orientation of the one of the first and second peripheral devices can be determined based on the plurality of contemporaneous touches as compared to the plurality of touch points of the one of the first and second peripheral devices. | 01-12-2012 |
20120007817 | Physical pieces for interactive applications using touch screen devices - There are provided systems and methods for facilitating an interaction with a first peripheral device using a touch-sensitive system having a processor and a touch surface. An example method includes detecting, using the processor, the first peripheral device touching the touch surface of the touch-sensitive system, identifying, using the processor, the first peripheral device touching the touch surface of the touch-sensitive system, and determining, using the processor, that the first peripheral device has an accessory attached thereto. A method may include determining, using the processor, transformation of the first peripheral device. Another method may include determining, using the processor, a position of the first peripheral device with respect to digital elements displayed on the touch surface, and interacting with the first peripheral device based on the position of the first peripheral device with respect to the digital elements displayed on the touch surface. | 01-12-2012 |
20120062490 | Game Pieces for Use with Touch Screen Devices and Related Methods - There is provided a system and method for communicating with a first peripheral device, of a plurality of peripheral devices, using a touch-sensitive system that has a processor and a touch surface. According to an exemplary embodiment, a method includes detecting, using the processor, a plurality of touches on the touch surface of the touch-sensitive system that are made by the first peripheral device. The method further includes identifying, using the processor, the first peripheral device based on the plurality of touches on the touch surface of the touch-sensitive system that are made by the first peripheral device. The method additionally includes communicating data, using the processor, to a receptive circuit of the first peripheral device in response to the identifying of the first peripheral device. | 03-15-2012 |