Patent application number | Description | Published |
20080276359 | DRAIN CLOG REMOVER - A drain clog remover includes a container adapted to hold a drain cleaning composition and a shaft defining a delivery passage fluidly communicating with the container. In certain embodiments, the shaft includes projections for mechanically engaging and removing clog-forming material from the drain pipe. In other embodiments, the shaft is slidably coupled to the container for moving between a retracted position for storage and an extended position for use. | 11-13-2008 |
20090293214 | DRAIN CLOG REMOVER AND SHAFT USABLE THEREWITH - An apparatus for removing drain clog material from a drain pipe assembly. The assembly has: (a) a container, and (b) a shaft. The container defines a reservoir adapted to receive a drain cleaning composition. The container also has an outlet. The shaft is attached to the outlet of the container and is in fluid communication with the container. The shaft also has an X-direction, a Y-direction perpendicular thereto, and a Z-direction perpendicular to both the X- and Y-directions, in addition to a plurality of barbs extending outwardly. The barbs have a force to remove of less than 20 lbs.; and a peak bend force of less than 4 lbs. | 12-03-2009 |
20100132101 | DRAIN CLOG REMOVER - An apparatus for removing a clog from a drain pipe, the apparatus having: (a) a container comprising a product chamber; (b) a pressurization assembly in fluid communication with the inlet; (c) a shaft coupled to the container, the shaft comprising a proximal end and a distal end; and (d) projections extending outwardly from the shaft. The product chamber is adapted to receive a drain cleaning composition and the product chamber has an inlet and an outlet. The pressurization sub-assembly has a canister of pressurized fluid and an adapter coupled to the container and including a socket defining a receptacle configured to receive at least a portion of the canister. The shaft has an exterior surface sized for insertion into the drain pipe. The shaft also has a channel that provides fluid communication between the proximal end and the distal end. | 06-03-2010 |
20100264046 | DRAIN CLOG REMOVER - An apparatus for removing a clog from a drain pipe includes a container comprising a product chamber, a pressurization assembly in fluid communication with the inlet, and a shaft coupled to the container, the shaft comprising a proximal end and a distal end. Projections extend outwardly from the shaft. The product chamber is adapted to receive a drain cleaning composition and the product chamber has an inlet and an outlet. The pressurization assembly has a canister of pressurized fluid and an adapter coupled to the container and including a socket defining a receptacle configured to receive at least a portion of the canister. The shaft has an exterior surface sized for insertion into the drain pipe. The shaft also has a channel that provides fluid communication between the proximal end and the distal end. | 10-21-2010 |
Patent application number | Description | Published |
20090274580 | METHOD AND APPARATUS FOR CONTROLLING THE MOVEMENT OF A LIQUID ON A NANOSTRUCTURED OR MICROSTRUCTURE SURFACE - A method and apparatus is disclosed wherein the movement of a droplet disposed on a nanostructured or microstructured surface is determined by at least one characteristic of the nanostructure feature pattern or at least one characteristic of the droplet. In one embodiment, the movement of the droplet is laterally determined by at least one characteristic of the nanostructure feature pattern such that the droplet moves in a desired direction along a nanostructured feature pattern. In another embodiment, the movement of the droplet is determined by either at least one characteristic of the nanostructure feature pattern or at least one characteristic of the droplet in a way such that the droplet penetrates the feature pattern at a desired area and becomes substantially immobile. | 11-05-2009 |
20100247982 | RESERVE CELL-ARRAY NANOSTRUCTURED BATTERY - A battery having an electrode with at least one nanostructured surface is disclosed wherein the nanostructured surface is divided into cells and is disposed in a way such that an electrolyte fluid of the battery is prevented from contacting the portion of electrode associated with each cell. When a voltage is passed over the nanostructured surface associated with a particular cell, the electrolyte fluid is caused to penetrate the nanostructured surface of that cell and to contact the electrode, thus activating the portion of the battery associated with that cell. The current/voltage generated by the battery is controlled by selectively activating only a portion of the cells. Multiple cells can be active simultaneously to produce the desired voltage. The more cells that are active, the higher the current/voltage and the lower the overall life of the battery. The life of the battery can be extended by activating fewer cells simultaneously. | 09-30-2010 |
20120181901 | Method and Apparatus For Mechanical Energy Harvesting Using Planar Microfluidic Device - An apparatus comprising a mechanical-to-electrical energy converting device utilizes an array of microfluidic droplets in association with a planar electrode and separated by a dielectric layer to form a capacitive structure. An elastic spacer is also disposed between the planar electrode and array of droplets, such that as the spacer is compressed, the contact area of the droplets and the dielectric is increased—increasing the total capacitance value. Periodic changes in the force applied to the elastic spacer (such as associated with vibrational motion) creates a periodic change in the capacitance value, generating an electrical current flow between the planar electrode and array of conductive droplets. | 07-19-2012 |
20130140917 | Method And Apparatus For Mechanical Energy Harvesting Using Combined Magnetic And Microfluidic Energy Generation - An energy harvesting system for converting mechanical energy into electrical energy uses an electrostatic arrangement based upon the interaction between conductive microfluidic droplets and dielectric-coated electrodes in combination with an electromagnetic arrangement based upon the interaction between magnetic elements and coils, with the two arrangements disposed in an interleaved configuration that provides a degree of synergy to the overall system in the form of providing spacings between adjacent elements and providing a bias voltage source for the electrostatic arrangement from the energy created by the electromagnetic arrangement. | 06-06-2013 |
20130227972 | PATTERNED SUPERHYDROPHOBIC SURFACES TO REDUCE ICE FORMATION, ADHESION, AND ACCRETION - A method for reducing ice formation. The method involves using a substrate that has a patterned hydrophobic surface including raised structures. Also disclosed is a substrate having a hydrophobic surface including raised structures that form compartments or grooves having a surface free of angles that are less than or equal to 90°. | 09-05-2013 |
20130270839 | Apparatus For Closed-Loop Mechanical Energy Harvesting - A closed-loop apparatus for converting mechanical energy into electrical energy utilizes a closed-loop channel including sections of different cross-section (including a first group of sections having a constrained cross-section and a second group sections having an enlarged cross-section). An energy-producing configuration (such as coils and/or electrodes) is formed to surround at least a portion of the channel. A closed-loop chain of energy-producing elements is positioned in channel such that when the chain moves along the channel, the mechanical motion generates electrical energy. The chain is formed to include a set of expandable assemblies that change in dimension as they pass through the different cross-section areas of the channel. An inert fluid is injected into the channel at one or more locations by a mechanical force, resulting in the creation of a pressure-induced force differential that initiates and maintains the movement of the chain with respect to the channel. | 10-17-2013 |
20140049049 | Apparatus For Footwear-Embedded Mechanical Energy Harvesting Using Modular Elements - An energy harvesting apparatus utilizes a modular structure to preserve the proper alignment between a chain of energy-producing elements and an energy-producing channel (within which the chain is located and free to slide along, creating electrical energy from mechanical movement). The channel includes a plurality of rigid modules that are separated by flexible segments of tubing. The rigid channel modules house the energy-producing electrodes and/or coils. The chain includes a plurality of rigid modules that are attached along a flexible string in a spaced-apart configuration. The rigid chain modules house the energy-producing magnets and/or conductive droplets. The combination of the flexible channel segments and chain string allow for freedom of motion of the apparatus (required for human locomotion, for example), while providing the desired “fixed” alignment between the rigid energy-producing modules. | 02-20-2014 |
20140068973 | Apparatus For Footwear-Embedded Mechanical Energy Harvesting System Based On Dual-Loop Channel - An energy harvesting apparatus is described that utilizes hydraulic actuation and creates a continuous, revolving motion of a chain of energy-producing elements within an energy-producing channel (the channel being in the form of a tube, for example). In particular, the arrangement of the present invention is based upon a specially-designed dual-loop channel topology that allows for efficient conversion of a unidirectional flow of a fluid entering the energy-producing channel into a smooth, continuous revolving motion of a chain of energy-producing elements within the channel. | 03-13-2014 |
20140182163 | Method And Apparatus For Providing Internal Heating Of Footwear - A method and apparatus for generating thermal energy (heat) from human locomotion is proposed and used to provide heating of the user's footwear. The apparatus takes the form of a pair of flexible, liquid-filled chambers connected by an energy-generating tube. One chamber is located in the heel region of a footwear insole, with the other in the toe region, such that as a person walks, the liquid moves back and forth within the tube. This movement is used to also move an energy-producing element (either an electromagnetic arrangement or viscous liquid) back and forth within the tube and convert the captured human locomotion energy into thermal energy, thus warming the footwear. | 07-03-2014 |
20140182164 | Apparatus For Regulating Footwear Temperature - An arrangement for regulating the interior temperature of footwear takes the form of an insole (or midsole) and includes a heat generator and a heat storage and release element, The heat generator may be configured to capture mechanical energy in the form of human locomotion and convert the captured energy into heat. Other types of heat generators may also be used. The heat storage and release element comprises one or more phase change materials that function to absorb generated heat (to keep footwear from overheating), as well as release the stored heat when the ambient temperature of the footwear drops below the transition temperature of the material. | 07-03-2014 |
20160065044 | Method And Apparatus For Mechanical Energy Harvesting Using Combined Magnetic And Microfluidic Energy Generation - An energy harvesting system for converting mechanical energy into electrical energy uses an electrostatic arrangement based upon the interaction between conductive microfluidic droplets and dielectric-coated electrodes in combination with an electromagnetic arrangement based upon the interaction between magnetic elements and coils, with the two arrangements disposed in an interleaved configuration that provides a degree of synergy to the overall system in the form of providing spacings between adjacent elements and providing a bias voltage source for the electrostatic arrangement from the energy created by the electromagnetic arrangement. | 03-03-2016 |
Patent application number | Description | Published |
20100266903 | BATTERY GRID - A battery grid includes a frame that includes a top element, a bottom element, a first side element, and a second side element. The battery grid also includes a plurality of wires provided within the frame and defining a plurality of open areas and a current collection lug extending from the top element in a first direction. The battery grid further includes at least one feature provided in the battery grid that is configured to reduce the amount of growth of the battery grid in the first direction due to corrosion of the battery grid during the life of the battery grid. | 10-21-2010 |
20100304219 | BATTERY GRID - A grid network for a battery plate is provided. The grid network includes a plurality of spaced apart grid wire elements, each grid wire element having opposed ends joined to one of a plurality of nodes. Each node includes the juncture of one of the opposed ends of a plurality of the grid wire elements to define a plurality of open spaces in the grid network. At least one of the grid wire elements has a first transverse cross-section intermediate its opposed ends that is a different shape than a second transverse cross-section at at least one of the grid wire element's opposed ends. | 12-02-2010 |
20110262808 | BATTERY GRID - A battery grid includes a frame that includes a top element, a bottom element, a first side element, and a second side element. The battery grid also includes a plurality of wires provided within the frame and defining a plurality of open areas and a current collection lug extending from the top element in a first direction. The battery grid further includes at least one feature provided in the battery grid that is configured to reduce the amount of growth of the battery grid in the first direction due to corrosion of the battery grid during the life of the battery grid. | 10-27-2011 |
20120058394 | BATTERY GRID - A grid network for a battery plate is provided. The grid network includes a plurality of spaced apart grid wire elements, each grid wire element having opposed ends joined to one of a plurality of nodes. Each node includes the juncture of one of the opposed ends of a plurality of the grid wire elements to define a plurality of open spaces in the grid network. At least one of the grid wire elements has a first transverse cross-section intermediate its opposed ends that is a different shape than a second transverse cross-section at at least one of the grid wire element's opposed ends. | 03-08-2012 |
20120064413 | BATTERY GRID - A grid network for a battery plate is provided. The grid network includes a plurality of spaced apart grid wire elements, each grid wire element having opposed ends joined to one of a plurality of nodes. Each node includes the juncture of one of the opposed ends of a plurality of the grid wire elements to define a plurality of open spaces in the grid network. At least one of the grid wire elements has a first transverse cross-section intermediate its opposed ends that is a different shape than a second transverse cross-section at least one of the grid wire element's opposed ends. | 03-15-2012 |
20120214062 | BATTERY GRID - A battery grid is provided having a frame that includes a top element, a bottom element, a first side element, and a second side element. A current collection lug is coupled to the top element. The battery grid includes a plurality of wires provided within the frame defining a plurality of open areas. The plurality of wires includes a plurality of linear vertical wire members which extend from the top element toward the bottom element, first side element, or second side element. At least one of the linear vertical wire members includes a discontinuity terminating the linear vertical-wire member before reaching the bottom element, first side element, or second side element, the discontinuity being defined by parallel horizontal wire members defining an open space. | 08-23-2012 |
20120219857 | BATTERY GRID - A battery grid is provided having a frame having a top element, a bottom element, a first side element, and a second side element. A current collection lug is coupled to the top element. The battery grid includes a plurality of wires provided within the frame and defining a plurality of open areas. The plurality of wires includes a vertical grid wire continuously extending from the bottom element toward the top element, and a plurality of horizontal grid wires continuously extending from the first side element or second side element, wherein the vertical grid wire intersects the plurality of horizontal grid wires, but does not intersect the first side element, second side element; or top element. | 08-30-2012 |
Patent application number | Description | Published |
20120101693 | SYSTEM FOR LIMITING CONTACT BETWEEN A DIPPER AND A SHOVEL BOOM - A system for limiting contact between a dipper and dipper attachments and a boom and machinery desk of a shovel, the system defining dipper to boom relative position in terms of crowd amount or hoist length, the system defining the relative position boom limits in terms of a second order polynomial of crowd amount or hoist length. The system also includes a slow speed region of the crowd amount and the hoist length, where the speed is varied depending on the crowd amount or the hoist length. The system also includes a field-strengthening region, depending on the crowd amount or the hoist length, where the field weakening is removed. | 04-26-2012 |
20120263566 | SWING AUTOMATION FOR ROPE SHOVEL - A system and method for various levels of automation of a swing-to-hopper motion for a rope shovel. An operator controls a rope shovel during a dig operation to load a dipper with materials. A controller receives position data, either via operator input or sensor data, for the dipper and a hopper where the materials are to be dumped. The controller then calculates an ideal path for the dipper to travel to be positioned above the hopper to dump the contents of the dipper. In some embodiments, the controller outputs operator feedback to assist the operator in traveling along the ideal path to the hopper. In some embodiments, the controller restricts the dipper motion such that the operator is not able to deviate beyond certain limits of the ideal path. In some embodiments, the controller automatically controls the movement of the dipper to reach the hopper. | 10-18-2012 |
20130018638 | SYSTEMS AND METHODS FOR ACTIVELY BIASING A LOADPINAANM Taylor; Wesley P.AACI GlendaleAAST WIAACO USAAGP Taylor; Wesley P. Glendale WI US - Systems and methods for actively biasing a loadpin. The systems include, for example, a power shovel positioning module, a loadpin bias module, and an active bias determination module. The power shovel positioning module is configured to determine the position of one or more components of an industrial machine. The loadpin bias module is configured to generate a signal associated with a vector quantity (e.g., having a magnitude and a direction) which can be used to describe the force applied to the loadpin in both an x-direction and a y-direction. The active bias determination module is configured to determine whether the industrial machine is in a proper state or condition to actively bias the loadpin, and determine loadpin bias values during the operation of the industrial machine when the industrial machine is in the proper condition for loadpin biasing. | 01-17-2013 |
20130110460 | DETERMINING DIPPER GEOMETRY | 05-02-2013 |
20130154624 | PERMANENT MAGNET INCLINOMETER FOR AN INDUSTRIAL MACHINE - Permanent magnet inclinometer for an industrial machine. The industrial machine includes a component movable with respect to the industrial machine that includes a first permanent magnet and a second permanent magnet. A circular magnetic sensor array senses a first magnetic flux associated with the first permanent magnet and a second magnetic flux associated with the second permanent magnet. The circular magnetic sensor array includes a first magnetic sensor that senses the first magnetic flux and a second magnetic sensor that senses the second magnetic flux. The controller receives a first flux signal related to the first magnetic flux and a second flux signal related to the second magnetic flux, analyzes the first flux signal to identify a first peak magnetic flux, and analyzes the second flux signal to identify a second peak magnetic flux. The controller then determines the inclination of the component of the industrial machine based on the first peak magnetic flux and the second peak magnetic flux. | 06-20-2013 |
20130197711 | SYSTEM AND METHOD FOR DETERMINING SADDLE BLOCK SHIMMING GAP OF AN INDUSTRIAL MACHINE - A method of controlling the operation of an industrial machine. The industrial machine includes a boom, a dipper handle attached to the boom, a saddle block pivotally mounted to the boom at a pivot point, and a computer having a controller. The method comprises processing, with the controller, data received from a saddle angle sensor, determining, with the controller, a saddle angle and a saddle angle gap using the data from the saddle angle sensor, determining, with the controller, a height of the dipper handle. The method further comprises determining, with the controller, a height of the saddle block, determining, with the controller, a saddle gap radius, and determining, with the controller, a saddle block shimming gap by comparing the saddle gap radius with the height of the handle. | 08-01-2013 |
20130261885 | OVERHEAD VIEW SYSTEM FOR A SHOVEL - Systems and methods for providing an overview-head view of an industrial machine, such as a shovel. One system includes at least one processor configured to receive data from at least one sensor installed on the shovel relating to the area around the shovel, identify a plurality of planes based on the data, determine if the plurality of planes are positioned in a predetermined configuration associated with a haul truck, and if the plurality of planes are positioned in the predetermined configuration, superimpose the plurality of planes on an overhead-view image of the shovel and the area. | 10-03-2013 |
20130261903 | COLLISION DETECTION AND MITIGATION SYSTEMS AND METHODS FOR A SHOVEL - Systems and methods for detecting collisions. One system includes a processor configured to receive data from at least one sensor installed on a shovel, identify a plurality of planes based on the data, determine if the plurality of planes are positioned in a predetermined configuration associated with a haul truck to identify whether the plurality of planes represent a haul truck. The processor is further configured to receive a current position and a current direction of movement of a dipper of the shovel, and determine if a collision is possible between the dipper and the identified haul truck based on the plurality of planes, the current position, and the current direction of movement and without receiving any information from the haul truck. If a collision is possible, the processor is configured to alert an operator of the shovel and, optionally, augment movement of the dipper. | 10-03-2013 |
20140025265 | SYSTEMS, METHODS, AND DEVICES FOR CONTROLLING A MOVEMENT OF A DIPPER - Systems, methods, and devices for controlling an industrial machine. The industrial machine includes, for example, a dipper, a boom, a hoist motor, a crowd motor, one or more operator control devices, and a controller. The control devices are configured to be manually controllable by an operator of the industrial machine. The controller receives an output signal associated with a desired movement of the dipper, receives a signal associated with a hoist motor characteristic, and receives a signal associated with a crowd motor characteristic. The controller determines a present position of the dipper with respect to a boom profile, determines a first future position of the dipper with respect to the boom profile and based on the output signal from the operator control devices, and automatically controls a movement of the dipper with respect to the boom profile when the first future position of the dipper approximately corresponds to a boom profile limit. | 01-23-2014 |
20140218601 | ENCLOSURE FOR AN OPTICAL DEVICE - An enclosure for an optical device generally includes a housing defining an opening, a transparent element coupled to the opening, a cover coupled to the housing for movement relative thereto between an opened position and a closed position, an actuator operable to move the cover relative to the transparent element between the opened position and the closed position, and a power supply electrically coupled to the actuator. The actuator maintains the opened position when it receives power from the power supply, and returns the cover to the closed position in response to a loss of power. | 08-07-2014 |
20140316665 | COLLISION DETECTION AND MITIGATION SYSTEMS AND METHODS FOR A SHOVEL - Systems and methods for detecting collisions. One system includes a processor configured to receive data from at least one sensor installed on a shovel, identify a plurality of planes based on the data, determine if the plurality of planes are positioned in a predetermined configuration associated with a haul truck to identify whether the plurality of planes represent a haul truck. The processor is further configured to receive a current position and a current direction of movement of a dipper of the shovel, and determine if a collision is possible between the dipper and the identified haul truck based on the plurality of planes, the current position, and the current direction of movement and without receiving any information from the haul truck. If a collision is possible, the processor is configured to alert an operator of the shovel and, optionally, augment movement of the dipper. | 10-23-2014 |
20140365082 | SWING AUTOMATION FOR ROPE SHOVEL - A system and method for various levels of automation of a swing-to-hopper motion for a rope shovel. An operator controls a rope shovel during a dig operation to load a dipper with materials. A controller receives position data, either via operator input or sensor data, for the dipper and a hopper where the materials are to be dumped. The controller then calculates an ideal path for the dipper to travel to be positioned above the hopper to dump the contents of the dipper. In some embodiments, the controller outputs operator feedback to assist the operator in traveling along the ideal path to the hopper. In some embodiments, the controller restricts the dipper motion such that the operator is not able to deviate beyond certain limits of the ideal path. In some embodiments, the controller automatically controls the movement of the dipper to reach the hopper. | 12-11-2014 |
20150019087 | SYSTEM AND METHOD OF VECTOR DRIVE CONTROL FOR A MINING MACHINE - Controlling a digging operation of an industrial machine. The industrial machine includes a dipper, a crowd motor, and a hoist motor. The control includes determining a torque associated with the crowd motor and a torque associated with the hoist motor and determining a dig force vector for the dipper based on the torque associated with the crowd motor and the torque associated with the hoist motor. The dig force vector includes a dig force angle and a dig force magnitude. The method also includes determining a value for the dig force angle of the dig force vector, and controlling, using a processor, the dig force magnitude based on the determined value for the dig force angle. The dig force magnitude is controlled by controlling at least one of the torque associated with the crowd motor and the torque associated with the hoist motor. | 01-15-2015 |
20150035518 | PERMANENT MAGNET INCLINOMETER FOR AN INDUSTRIAL MACHINE - Permanent magnet inclinometer for an industrial machine. The industrial machine includes a component that includes a first permanent magnet and a second permanent magnet. A circular magnetic sensor array senses a first magnetic flux associated with the first permanent magnet and a second magnetic flux associated with the second permanent magnet. The sensor array includes a first magnetic sensor that senses the first magnetic flux and a second magnetic sensor that senses the second magnetic flux. The controller receives a first flux signal related to the first magnetic flux and a second flux signal related to the second magnetic flux, analyzes the first flux signal to identify a first peak magnetic flux, and analyzes the second flux signal to identify a second peak magnetic flux. The controller then determines the inclination of the component based on the first peak magnetic flux and the second peak magnetic flux. | 02-05-2015 |