Patent application number | Description | Published |
20090025620 | SEED METER WITH FLEXIBLE SEED DISC - A seed meter for use in an agricultural seeding machine includes a housing having an inner chamber and one or more deflectors within the inner chamber, and a seed disc rotatably carried by the housing. The seed disc includes at least a portion thereof formed from a flexible material which is deflectable by the one or more deflectors during rotation within the housing. | 01-29-2009 |
20090090284 | AGRICULTURAL SEEDING SYSTEM - A seeding machine having at least one tool bar, a plurality of row units and a processing circuit. Each of the plurality of row units are connected to the toolbar. Each of the row units have a seed metering device, a seed placement device and a seed sensor. The seed metering device includes a seed disk providing a metering action to a plurality of seeds. The seed placement device receives the seeds from the seed metering device. The seed sensor is positioned to detect the passage of seeds through either the metering device or the seed placement device. The seed sensor producing a signal indicative of the passage of the seeds. The processing circuit is receptive of the signal from each of the seed sensors of each of the plurality of row units. The processing circuit determines a seed placement parameter dependent upon the signal, the processing circuit alters the metering action of the seeds dependent on the seed placement parameter. | 04-09-2009 |
20100116185 | SEED METER WITH FLEXIBLE SEED DISC - A seed meter for use in an agricultural seeding machine includes a housing having an inner chamber and one or more deflectors within the inner chamber, and a seed disc rotatably carried by the housing. The seed disc includes at least a portion thereof formed from a flexible material which is deflectable by the one or more deflectors during rotation within the housing. | 05-13-2010 |
20100192819 | Seeding Machine With Seed Delivery System - A seed delivery system for use in a seeding or planting machine that removes the seed from a seed meter by capturing the seed therefrom. The delivery system then moves the seed down to a lower discharge point and accelerates the seed horizontally rearward to a speed approximately equal to the forward travel speed of the seeding machine such that the seed, when discharged has a low or zero horizontal velocity relative to the ground. Rolling of the seed in the trench is thus reduced. Furthermore, as the seed only has a short drop from the outlet to the bottom of the seed trench, the seed has little vertical speed to induce bounce. The delivery system uses a brush belt to capture, move and accelerate the seed. By capturing the seed and moving it from the meter to the discharge, the seed is held in place relative to other seeds and the planter row unit. As a result, the seeds are isolated from row unit dynamics thereby maintaining seed spacing. | 08-05-2010 |
20100192821 | SEED DELIVERY APPARATUS WITH SENSOR AND MOVING MEMBER TO CAPTURE AND MOVE SEED TO A LOWER OUTLET OPENING - A seed delivery apparatus has a moving member that captures and entraps the seed from the seed meter and physically moves the seed from the meter to the lower outlet opening. In so doing, the seed engages and travels along an interior surface of the seed delivery apparatus. A seed sensor is mounted on the housing wall such that the seed passes directly in front of the sensor. The sensor has both the light emitting devices and the photo-sensitive elements on the same wall of the delivery apparatus, or on two opposed walls. The moving member prevents ambient light, dust and dirt from entering the housing and impacting the sensor output signal. | 08-05-2010 |
20110162565 | BUSHING FOR MOUNTING A LATERALLY ADJUSTABLE PIVOT ARM - A bushing is provided for mounting a pivot arm that has both a threaded portion as well as one or two smooth cylindrical portions. The threaded portion enables the pivot arm to be a laterally adjusted by rotating the bushing while the smooth portion or portions provide a bearing surface or surfaces for the pivot arm loads. This removes the load from the threads, reducing wear of both the bushing and the pivot arm, thereby reducing maintenance cost. | 07-07-2011 |
20110232554 | SEEDING MACHINE WITH SEED DELIVERY SYSTEM - A seed delivery system for use in a seeding or planting machine that removes the seed from a seed meter by capturing the seed therefrom. The delivery system then moves the seed down to a lower discharge point and accelerates the seed horizontally rearward to a speed approximately equal to the forward travel speed of the seeding machine such that the seed, when discharged has a low or zero horizontal velocity relative to the ground. Rolling of the seed in the trench is thus reduced. Furthermore, as the seed only has a short drop from the outlet to the bottom of the seed trench, the seed has little vertical speed to induce bounce. The delivery system uses a brush belt to capture, move and accelerate the seed. By capturing the seed and moving it from the meter to the discharge, the seed is held in place relative to other seeds and the planter row unit. As a result, the seeds are isolated from row unit dynamics thereby maintaining seed spacing. | 09-29-2011 |
20120291680 | GROUND WORKING MACHINE WITH A BLOCKAGE CLEARING SYSTEM AND METHOD OF OPERATION - A ground working machine having a frame, a ground engaging wheel mounted to the frame and movable between a raised position not engaging the ground and a working position engaging the ground. The ground engaging wheel, when in the working position, rotating about a wheel axis as the machine is moved over the ground. An actuator raises and lowers the ground engaging wheels. A control system includes a sensor to detect rotation of the ground engaging wheel and a controller that receives an input from the sensor. The controller commands the actuator to raise the ground engaging wheel when the sensor detects that the ground engaging wheel is not rotating. | 11-22-2012 |
20130032362 | SUPPLEMENTAL DOWN FORCE SYSTEM FOR A GROUND WORKING IMPLEMENT WITH VARIABLE ROW UNIT GROUPING AND IMPLEMENT WITH SAME - A supplemental down force system for a ground working implement is provided where the supplemental downforce system groups the row units into at least two groups and provides a different supplemental down force to the row units in each group. This enables the row unit to have a supplemental down force closer to the desired down force recognizing that the row units do not all operate in the same conditions. The controller periodically regroups the row units into the at least two groups and readjusts the down force. | 02-07-2013 |
20130036956 | SEEDING MACHINE WITH SEED DELIVERY SYSTEM - A seed delivery system for use in a seeding machine that removes seed from a seed meter by capturing seed therefrom. The delivery system moves seed down to a lower discharge point and accelerates seed horizontally rearward to a speed approximately equal to the forward travel speed of the machine such that the seed, when discharged has a low or zero horizontal velocity relative to the ground. The delivery system uses a brush belt to capture, move and accelerate the seed. By capturing the seed and moving it from the meter to the discharge, each seed is held in place relative to other seeds and the planter row unit. As a result, the seeds are isolated from row unit dynamics thereby maintaining seed spacing. | 02-14-2013 |
20130298810 | SEEDING MACHINE WITH SEED DELIVERY SYSTEM - A seeding machine with a seed meter and a seed delivery system for moving seed from a seed meter to a furrow formed in the soil. The delivery system has an endless member moving in a housing about pulleys to move seed from an upper opening in the housing to a lower discharge opening. In one embodiment, a loading wheel at the upper opening to the housing engages seed on a metering disk to move seed into the housing. The metering disk and housing can be arranged in planes parallel to one another. | 11-14-2013 |
20140014013 | Twin-row Multiple Variety Planter and Method of Use - A twin-row planter is shown configured to plant different varieties of seed. Each planting unit of the twin-row is separately controlled to turn on or off the seed meter of the planting unit. This enables operation of only one seed meter of the two planting units in each twin-row. With the planting units supplied with different varieties of seed, the variety being planted can be controlled by controlling the seed meters of the two planting units within the twin-row. | 01-16-2014 |
20140290546 | SEEDING MACHINE WITH SEED DELIVERY SYSTEM - A seeding machine with a seed meter and a seed delivery system for moving seed from a seed meter to a furrow formed in the soil. The delivery system has an endless member moving in a housing about pulleys to move seed from an upper opening in the housing to a lower discharge opening. In one embodiment, a blocking loading surface guides seed from the metering member of the seed meter and into the delivery system. | 10-02-2014 |
20150020721 | PLANTER AND METHOD OF OPERATING A PLANTER WITH INDIVIDUAL METER CONTROL - A planter is described which utilizes individual seed meter motor drives at each row unit. motor controllers control each seed meter drive motor. Each individual row seed meter can be individually started, stopped and operated at a unique rate. Prior to planting, the meters can be operated to fill the meters and ensure that the meters are primed and ready to start dropping seed as soon as the planter begins operation to plant seed. When a seed delivery system is used with each meter to move seed from the meter to the soil, the delivery system is also primed with seed before operation of the planter. | 01-22-2015 |
Patent application number | Description | Published |
20100331758 | IRREVERSIBLE ELECTROPORATION USING NANOPARTICLES - The present invention provides methods, devices, and systems for in vivo treatment of cell proliferative disorders. The invention can be used to treat solid tumors, such as brain tumors. The methods rely on non-thermal irreversible electroporation (IRE) to cause cell death in treated tumors. In embodiments, the methods comprise the use of high aspect ratio nanoparticles with or without modified surface chemistry. | 12-30-2010 |
20130096485 | IRREVERSIBLE ELECTROPORATION USING NANOPARTICLES - The present invention provides methods, devices, and systems for in vivo treatment of cell proliferative disorders. The invention can be used to treat solid tumors, such as brain tumors. The methods rely on non-thermal irreversible electroporation (IRE) to cause cell death in treated tumors. In embodiments, the methods comprise the use of high aspect ratio nanoparticles with or without modified surface chemistry. | 04-18-2013 |
20130281968 | Irreversible Electroporation using Nanoparticles - The present invention provides methods, devices, and systems for in vivo treatment of cell proliferative disorders. The invention can be used to treat solid tumors, such as brain tumors. The methods rely on non-thermal irreversible electroporation (IRE) to cause cell death in treated tumors. In embodiments, the methods comprise the use of high aspect ratio nanoparticles with or without modified surface chemistry. | 10-24-2013 |
20130338627 | FIBER ARRAY FOR OPTICAL IMAGING AND THERAPEUTICS - The present invention relates to the field of optical imaging and therapeutics. More particularly, embodiments of the present invention provide minimally-invasive Fiberoptic Microneedle Devices (FMDs) for light-based therapeutics, which physically penetrate tissue and deliver light directly into the target area below the skin surface. Embodiments of the invention enable depth-selective and deep photothermal therapeutics and include methods of treating cancer, methods of re-shaping or removing adipose tissue, and methods of delivering drugs or co-delivering drugs and energy to selected tissue. | 12-19-2013 |
Patent application number | Description | Published |
20100277740 | OPTOELECTRONIC METHODS AND DEVICES FOR DETECTION OF ANALYTES - Herein are disclosed optoelectronic methods and devices for detecting the presence of an analyte. Such methods and devices may comprise at least one sensing element that is responsive to the presence of an analyte of interest and that may be interrogated optically by the use of at least one light source and at least one light detector. | 11-04-2010 |
20120002292 | USER INTERFACE WITH A COMPOSITE IMAGE THAT FLOATS - User interface having a sensor and a composite interface that floats. Embodiments of user interfaces described herein are useful, for example, as automobile components (e.g., dashboard components), appliance components (e.g., dishwasher components, stove components, oven components, microwave oven components, clothes washer components, and clothes dyer components), medical equipment, elevator buttons, laboratory equipment (e.g., scales), as well as consumer electronics (e.g., entertainment devices and cell phones), automatic teller machines, and the like. | 01-05-2012 |
20140036270 | OPTOELECTRONIC METHODS AND DEVICES FOR DETECTION OF ANALYTES - Herein are disclosed optoelectronic methods and devices for detecting the presence of an analyte. Such methods and devices may comprise at least one sensing element that is responsive to the presence of an analyte of interest and that may be interrogated optically by the use of at least one light source and at least one light detector. | 02-06-2014 |