Patent application number | Description | Published |
20100078985 | Engineered Molded Fiberboard Panels. Methods of Making the Panels, and Products Fabricated From the Panels - A honeycomb-shaped panel is formed from a plurality of generally sinusoidally shaped strips of molded fiberboard material each having spaced, oppositely directed flat peaks, the peaks of adjacent strips being secured together to form a plurality of hexagonally shaped cells extending perpendicular to the surfaces of the sheet. The strips may be cut from a single sheet of corrugated fiberboard sheet material and then secured together to form the honeycomb panel, or a plurality of such panels may be secured together face to face with their ribs aligned to form a stack, and selected cuts may be made through the secured, stacked panels to form a plurality of honeycomb panels of desired surface shape and height dimensions. The strips forming the cells are substantially rigid and resistant to collapse of the cells, and form a substantially rigid core when assembled between two flexible fiberboard skins, while the panel is bendable to adopt a desired panel curvature. | 04-01-2010 |
20130264856 | ENGINEERED MOLDED FIBERBOARD PANELS AND PRODUCTS FABRICATED FROM THE PANELS - A honeycomb-shaped panel is formed from a plurality of generally sinusoidally shaped strips of molded fiberboard material each having spaced, oppositely directed flat peaks, the peaks of adjacent strips being secured together to form a plurality of hexagonally shaped cells extending perpendicular to the surfaces of the sheet. The strips may be cut from a single sheet of corrugated fiberboard sheet material and then secured together to form the honeycomb panel, or a plurality of such panels may be secured together face to face with their ribs aligned to form a stack, and selected cuts may be made through the secured, stacked panels to form a plurality of honeycomb panels of desired surface shape and height dimensions. The strips forming the cells are substantially rigid and resistant to collapse of the cells, and form a substantially rigid core when assembled between two flexible fiberboard skins, while the panel is bendable to adopt a desired panel curvature. | 10-10-2013 |
Patent application number | Description | Published |
20130146783 | INLINE UV LED WATER DISINFECTION AND HEATING - Embodiments of the present invention relate generally to on-aircraft potable water disinfection with UV LED light sources that are positioned in-line with the water delivery system. Further embodiments relate to using the scavenged heat generated by the LEDs to deliver heat back to the water supply tube for temperature stabilization and to prevent water freezing. | 06-13-2013 |
20140274576 | APPARATUS, SYSTEM, AND METHOD FOR PROVIDING RESISTANCE IN A DUAL TREAD TREADMILL - A dual treadle treadmill. The dual treadle treadmill includes a frame, a first treadle, a second treadle, and a generator. The first treadle and the second treadle are each pivotally coupled with the frame and each have a moving surface. The generator is operably associated with the first treadle such that the generator is driven in response to the first treadle pivoting relative to the frame. Other embodiments of dual treadle treadmills are also described. | 09-18-2014 |
20140274577 | APPARATUS, SYSTEM, AND METHOD FOR DUAL TREAD TREADMILL IMPROVEMENTS - A dual treadle treadmill. The dual treadle treadmill includes a frame, a first treadle, a second treadle, a clutch axle, and a tensioning mechanism. The first treadle and the second treadle are each pivotally coupled with the frame and each have a moving surface. The clutch axle includes an axle, a first driver, and a second driver. The axle is rotatably connected to the frame. The first driver is coupled to the axle by a first clutch. The first clutch transmits torque between the first driver and the axle in response to the first driver rotating in a first direction relative to the axle. The first treadle is connected to the first driver through a first link such that the first driver is rotated in a first direction in response to the first treadle being pivoted in the first direction. The tensioning mechanism maintains a tension on the first link. | 09-18-2014 |