Lozier
Andrew G. Lozier, Omaha, NE US
Patent application number | Description | Published |
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20140027397 | ASSEMBLY FOR A STORAGE UNIT - An assembly for a storage unit includes at least one interior component made of a single, continuous piece of sheet material that has a first surface, an opposing second surface, a pair of opposing lateral side edges and a plurality of substantially 90 degree longitudinal bends that extend between the pair of lateral side edges. The at least one interior component includes an upper mounting flange for mounting to the storage unit. The assembly also includes an exterior component made of a single, continuous piece of sheet material and having a first surface and an opposing second surface. The first surface of the interior component directly attaches to the second surface of the exterior component. | 01-30-2014 |
James Lozier, Pinellas Park, FL US
Patent application number | Description | Published |
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20090000211 | Apparatus and method for securing a roof assembly during a severe wind storm - A strapping system includes a roof assembly including a plurality of receiving channels; each of the plurality of receiving channels is fastened to interconnected roof materials connected to a roof structure. The roof assembly also includes a plurality of roof channels that are connected by the plurality of receiving channels and fastened to the interconnected roof materials, such that a row of interconnected roof channels and receiving channels is placed over the interconnected roof materials along a length of a roof structure. The strapping assembly also includes a plurality of straps for tying down the roof assembly to a corresponding plurality of anchors, each of the plurality of anchors being secured at predetermined distances at opposite sides of a foundation of a building. The strapping assembly further includes a plurality of tensioning devices mounted, at predetermined distances, on the roof materials between rows of interconnected roof channels and receiving channels, the plurality of tensioning devices being for eliminating vertical displacement of the fastened straps. Each of the plurality of straps is placed at a predetermined distance along the length of the roof structure over rows of interconnected roof channels and receiving channels and is threaded in a corresponding tensioning device that is lined up with a corresponding anchor at the foundation of the building. On opposite sides of the building, each of the plurality of straps is fastened to a corresponding ratchet assembly attached to a corresponding anchor of the plurality of anchors, thereby transferring load from the roof assembly to the foundation of the structure during a high wind storm such as a, hurricane, typhoon, cyclone or a tornado. | 01-01-2009 |
James R. Lozier, Hamilton Square, NJ US
Patent application number | Description | Published |
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20110253773 | INSULATED PIZZA BOX AND METHOD OF MANUFACTURE - The present invention relates to an insulated pizza box and method for manufacture in which the pizza box includes a layer of an insulation material applied to all inner surfaces of the box. The insulated pizza box can be formed by adhering a layer of an insulation material to the material forming the pizza box. In one embodiment, the layer of the insulation material is applied to a sheet of a corrugated material. The layer of insulation material can be a layer of aluminum foil or a foil like material. The sheet can be die cut into container blanks and scored at appropriate points so that the blank can be folded into the pizza box. | 10-20-2011 |
Maurice Lozier, Pinellas Park, FL US
Patent application number | Description | Published |
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20090000211 | Apparatus and method for securing a roof assembly during a severe wind storm - A strapping system includes a roof assembly including a plurality of receiving channels; each of the plurality of receiving channels is fastened to interconnected roof materials connected to a roof structure. The roof assembly also includes a plurality of roof channels that are connected by the plurality of receiving channels and fastened to the interconnected roof materials, such that a row of interconnected roof channels and receiving channels is placed over the interconnected roof materials along a length of a roof structure. The strapping assembly also includes a plurality of straps for tying down the roof assembly to a corresponding plurality of anchors, each of the plurality of anchors being secured at predetermined distances at opposite sides of a foundation of a building. The strapping assembly further includes a plurality of tensioning devices mounted, at predetermined distances, on the roof materials between rows of interconnected roof channels and receiving channels, the plurality of tensioning devices being for eliminating vertical displacement of the fastened straps. Each of the plurality of straps is placed at a predetermined distance along the length of the roof structure over rows of interconnected roof channels and receiving channels and is threaded in a corresponding tensioning device that is lined up with a corresponding anchor at the foundation of the building. On opposite sides of the building, each of the plurality of straps is fastened to a corresponding ratchet assembly attached to a corresponding anchor of the plurality of anchors, thereby transferring load from the roof assembly to the foundation of the structure during a high wind storm such as a, hurricane, typhoon, cyclone or a tornado. | 01-01-2009 |
Rita Lozier, Pinellas Park, FL US
Patent application number | Description | Published |
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20090000211 | Apparatus and method for securing a roof assembly during a severe wind storm - A strapping system includes a roof assembly including a plurality of receiving channels; each of the plurality of receiving channels is fastened to interconnected roof materials connected to a roof structure. The roof assembly also includes a plurality of roof channels that are connected by the plurality of receiving channels and fastened to the interconnected roof materials, such that a row of interconnected roof channels and receiving channels is placed over the interconnected roof materials along a length of a roof structure. The strapping assembly also includes a plurality of straps for tying down the roof assembly to a corresponding plurality of anchors, each of the plurality of anchors being secured at predetermined distances at opposite sides of a foundation of a building. The strapping assembly further includes a plurality of tensioning devices mounted, at predetermined distances, on the roof materials between rows of interconnected roof channels and receiving channels, the plurality of tensioning devices being for eliminating vertical displacement of the fastened straps. Each of the plurality of straps is placed at a predetermined distance along the length of the roof structure over rows of interconnected roof channels and receiving channels and is threaded in a corresponding tensioning device that is lined up with a corresponding anchor at the foundation of the building. On opposite sides of the building, each of the plurality of straps is fastened to a corresponding ratchet assembly attached to a corresponding anchor of the plurality of anchors, thereby transferring load from the roof assembly to the foundation of the structure during a high wind storm such as a, hurricane, typhoon, cyclone or a tornado. | 01-01-2009 |