| Patent application number | Description | Published |
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| 20110088198 | SURFACE TREATING APPLIANCE - An upright surface treating appliance includes a main body, a surface treating head connected to a yoke, and a stand. To provide a compact appliance the yoke and the stand are pivotable independently relative to the main body about a common pivot axis. This can also enable the yoke and the stand to be rotatably connected to the main body using one or more common connectors or bearings. | 04-21-2011 |
| 20110088205 | SURFACE TREATING APPLIANCE - An upright vacuum cleaning appliance includes a main body having a user operable handle, separating apparatus for separating dirt from a dirt-bearing air flow and a casing housing a fan unit for drawing the air flow through the separating apparatus. A support assembly is connected to the main body for allowing the appliance to be rolled along a surface using the handle. The support assembly includes a pair of domed-shaped wheels which each have a substantially circular rim. The overall size of the appliance is reduced by locating the casing between the wheels, and providing an air duct which extends between the rims of the wheels to convey the air flow from the separating apparatus to the casing. | 04-21-2011 |
| 20110088211 | SURFACE TREATING APPLIANCE - An upright surface treating appliance includes a main body having a user operable handle, and a support assembly for allowing the appliance to be rolled along a surface using the handle. The support assembly includes a yoke pivotably connected to the main body, and a pair of domed-shaped wheels rotatably connected to the yoke. A surface treating head is connected to the yoke. The yoke is shaped so that a section of the yoke is located between the rims of the wheels. To afford a compact appearance to the appliance, the outer surfaces of the wheels and the section of the yoke together at least partially delimit a substantially spherical volume. | 04-21-2011 |
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| 20080202895 | APPARATUS AND METHOD FOR LOADING FOOD ARTICLES - A loading head for use with food articles has a main conveyor adapted to convey a plurality of food articles, an indexing conveyor positioned beneath the main conveyor, and a transfer member positioned between the main conveyor and the indexing conveyor. The transfer member is adapted to transfer each food article from the main conveyor to the indexing conveyor. A buffering mechanism is adapted to move the transfer member between a first position and a variable second position. A pusher mechanism is associated with the indexing conveyor to raise and lower gates from an open position permitting food article transfer to a closed position prohibiting food article transfer. The pusher mechanism includes a cam operably associated with the gates to open and close the gates. | 08-28-2008 |
| 20080251350 | Apparatus and Method of Transporting Food Products to a Loading Head - An apparatus and method of transporting food products ( | 10-16-2008 |
| 20090255780 | APPARATUS AND METHOD FOR LOADING FOOD ARTICLES - A loading head for use with food articles has a main conveyor adapted to convey a plurality of food articles, an indexing conveyor positioned beneath the main conveyor, and a transfer member positioned between the main conveyor and the indexing conveyor. The transfer member is adapted to transfer each food article from the main conveyor to the indexing conveyor. A buffering mechanism is adapted to move the transfer member between a first position and a variable second position. A pusher mechanism is associated with the indexing conveyor to raise and lower gates from an open position permitting food article transfer to a closed position prohibiting food article transfer. The pusher mechanism includes a cam operably associated with the gates to open and close the gates. | 10-15-2009 |
| 20110042182 | APPARATUS AND METHOD FOR LOADING FOOD ARTICLES - A loading head for use with food articles has a main conveyor adapted to convey a plurality of food articles, an indexing conveyor positioned beneath the main conveyor, and a transfer member positioned between the main conveyor and the indexing conveyor. The transfer member is adapted to transfer each food article from the main conveyor to the indexing conveyor. A buffering mechanism is adapted to move the transfer member between a first position and a variable second position. A pusher mechanism is associated with the indexing conveyor to raise and lower gates from an open position permitting food article transfer to a closed position prohibiting food article transfer. The pusher mechanism includes a cam operably associated with the gates to open and close the gates. | 02-24-2011 |
| 20110315515 | APPARATUS AND METHOD FOR LOADING FOOD ARTICLES - A loading head for use with food articles has a main conveyor adapted to convey a plurality of food articles, an indexing conveyor positioned beneath the main conveyor, and a transfer member positioned between the main conveyor and the indexing conveyor. The transfer member is adapted to transfer each food article from the main conveyor to the indexing conveyor. A buffering mechanism is adapted to move the transfer member between a first position and a variable second position. A pusher mechanism is associated with the indexing conveyor to raise and lower gates from an open position permitting food article transfer to a closed position prohibiting food article transfer. The pusher mechanism includes a cam operably associated with the gates to open and close the gates. | 12-29-2011 |
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| 20100275766 | Mine resistant armored vehicle - In one aspect, the present disclosure is directed to a blast-resistant armored land vehicle. Wheels or tracks may be attached to the vehicle by an independent suspension. The vehicle may include a body comprised of sheet materials, the body having a longitudinal centerline, an upper portion including opposite side portions, a first bottom portion defining a V, with the apex of the V substantially parallel to the longitudinal centerline of the vehicle and extending along a portion of the vehicle, and a second bottom portion defining a V, with the apex of the V substantially parallel to the longitudinal centerline of the vehicle and extending along another portion of the vehicle. The first bottom portion further includes an energy-absorbing member extending longitudinally within an interior of the first bottom portion. The energy-absorbing member may be on the inside of the apex of the V and be held in position during the blast by its own inertia. The vehicle may also include a spine member having a V shaped cross section and extending along the entire length of the vehicle. All or a portion of the engine, transmission, and drive train assembly may be within the spine member. A vehicle not having a second bottom portion may be retrofitted with the second bottom portion by way of a kit. | 11-04-2010 |
| 20110067561 | Multilayer armor system for defending against missile-borne and stationary shaped charges - An armor system for defeating rocket propelled grenade-type missiles and/or high velocity jets created by shaped charges directed at a vehicle includes a grid layer such as a net and/or an array of slats or bars (“RPG”) spaced from an outer surface of the vehicle by support members. The grid layer has a characteristic mesh size or bar/slat spacing to disrupt the missile firing mechanism. The system also has a shaped layer having a plurality of tapered members formed from a fiber-reinforced material, the tapered members positioned between the grid layer and the vehicle outer surface and having respective apex ends proximate the distant the grid layer and base ends, the tapered members defining with adjacent tapered members a plurality of depressions opening in a direction to receive an incoming conical portion of an unexploded RPG-type missile, or a jet emanating from an exploded RPG or other anti-armor device, and a layer of fiber-reinforced material abutting the base ends of the tapered members. The system may further include reactive elements disposed on surfaces of the tapered members defining the depressions to deflect impinging jets. The system may still further include one or more metal armor layers and one or more additional fiber-reinforced material layers disposed between the shaped fiber-reinforced material layer and the vehicle surface. | 03-24-2011 |
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| 20090293709 | Apparatus for defeating high energy projectiles - The disclosed armor system for protecting a vehicle from high energy projectiles includes a leading layer, relative to the projectile trajectory, positioned exterior to the hull; a first plurality of sheet-like layers of a low density material positioned between the leading layer and the hull; and a second plurality of sheet-like high strength metal layers positioned between the leading layer and the hull. The individual ones of the first plurality of high strength metal layers are positioned alternating with, and to the rear of, individual ones of the second plurality of low density material layers. The leading layer can be one of a sheet-like metal layer, a metalicized grid layer, and the outer-most layer of the first plurality of low density materials layers. The materials of the high strength metal layers may be selected from high strength steel and high strength aluminum, and the materials of the low density material may be selected from low density polypropylene composites and R-Glass composites. | 12-03-2009 |
| 20100294123 | Apparatus for defeating high energy projectiles - A armor system for protecting a vehicle from a projectile, the projectile having an expected trajectory and the vehicle having a hull, is disclosed. The armor system has a modular armor subsystem configured to be mounted exterior to the vehicle hull. The modular armor subsystem has a leading layer having metal, leading relative to the expected projectile trajectory, and an intermediate sheet-like layer having low density material, of a density less than metal, abutting a rear surface of the leading layer. The armor system also has an intermediate sheet-like layer having glass fiber material and abutting a rear surface of the intermediate low density material layer, and an intermediate sheet-like layer having metal and abutting a rear surface of the intermediate glass fiber layer. | 11-25-2010 |
| 20110138994 | Mine Resistant Armored Vehicle - In one aspect, the present disclosure is directed to a blast-resistant armored land vehicle. Wheels or tracks may be attached to the vehicle by an independent suspension. The vehicle may include a body comprised of sheet materials, the body having a longitudinal centerline, an upper portion including opposite side portions, a first bottom portion defining a V, with the apex of the V substantially parallel to the longitudinal centerline of the vehicle and extending along a portion of the vehicle, and a second bottom portion defining a V, with the apex of the V substantially parallel to the longitudinal centerline of the vehicle and extending along another portion of the vehicle. The first bottom portion further includes an energy-absorbing member extending longitudinally within an interior of the first bottom portion. The energy-absorbing member may be on the inside of the apex of the V and be held in position during the blast by its own inertia. The vehicle may also include a spine member having a V shaped cross section and extending along the entire length of the vehicle. All or a portion of the engine, transmission, and drive train assembly may be within the spine member. A vehicle not having a second bottom portion may be retrofitted with the second bottom portion by way of a kit. | 06-16-2011 |
| 20110277621 | System For Protecting A Vehicle From A Mine - In one aspect, the present disclosure is directed to a system for protecting a vehicle from a mine. Upon detonation the mine may yield ejecta having an expected trajectory. The system has a first layer of material disposed outside of an underbody of a hull of the vehicle. The first layer includes a base disposed in a direction substantially parallel to the underbody and a protrusion that narrows as it extends away from the base in a direction opposing the expected ejecta trajectory. The system also has a second layer including a material having a shock wave transmission velocity that is higher than a shock wave transmission velocity of the material of the first layer. The system further has an exterior layer substantially covering the first and second layers, and the exterior layer has an exterior surface that faces away from the underbody and toward the expected ejecta trajectory. | 11-17-2011 |
| 20110303079 | Apparatus for defeating high energy projectiles - An armor system for defeating a solid projectile having a first armor plate, an interior armor plate, and an inner armor plate displaced from one another to form a first dispersion space between the first armor plate and the interior armor plate. The first dispersion space is sufficiently thick to allow significant lateral dispersion of armor passing therethrough. The inner armor plate is disposed approximately parallel to the interior armor plate and displaced therefrom to form a second dispersion space between the interior armor plate and the inner armor plate. The second dispersion space is sufficiently thick to allow significant lateral dispersion of materials passing therethrough. | 12-15-2011 |
