Patent application number | Description | Published |
20120317952 | APPARATUS FOR HARVESTING AGRICULTURAL ROW CROPS - An apparatus for harvesting agricultural row crops having stalks, comprising a frame having a front portion and a rear portion, the frame configured for traversing along a field of row crops; a hollow arm mounted adjacent an upper section of the front portion of the frame, the hollow arm comprising a first section disposed along an incline formed by the upper section of the front portion of the frame and the ground, the first section having a first end and a second end; an inlet positioned adjacent the first end of the first section of the hollow arm, the inlet for receiving stalks of row crops; means for cutting stalks of row crops, the means for cutting stalks mounted within the first section of the hollow arm; means for engaging and conveying the stalks along the hollow arm; and a biased guide assembly for accommodating stalks of varied diameters. | 12-20-2012 |
20120329536 | APPARATUS FOR STRIPPING AND SORTING LEAVES FROM AGRICULTURAL CROPS - An apparatus for stripping and sorting leaves from stalks of agricultural crops. The apparatus includes a base frame having a first longitudinal member, said first longitudinal member having a first end and a second end, and a second longitudinal member in a parallel spaced-relationship with said first longitudinal member, a plurality of cross members arranged perpendicularly along at least said first longitudinal member, each of said plurality of cross members having a lower stripping member for receiving the stalk of an agricultural crop, a plurality of upper stripping members, each upper stripping member positionable to cooperate with a corresponding lower stripping member to substantially encircle the stalk and means for engaging and conveying the stalk along the apparatus in a direction from said first end to said second end of said first longitudinal member. | 12-27-2012 |
20140137530 | APPARATUS FOR HARVESTING AGRICULTURAL ROW CROPS - An apparatus for harvesting agricultural row crops having stalks. The apparatus includes an inclined arm comprising a first section, the first section including: a stalk inlet arranged to receive stalks of row crops; and a cutter arranged to cut stalks received by the stalk inlet; the inclined arm further comprising: a biasing guide assembly disposed along the inclined arm, the biasing guide assembly comprising a plurality of individual biasing members; and a conveyor arranged to engage each received stalk and move each engaged stalk along the biasing guide assembly; the conveyor and the biasing guide assembly mutually arranged such that the biasing guide assembly is operative to apply an accommodating clamping force upon each engaged stalk sufficient to keep each engaged stalk substantially upright as it is conveyed along at least a portion of the arm; the accommodating clamping force accommodating possible differences in stalk diameters from one stalk to another, the plurality of individual biasing members arranged to maintain a substantially constant compressive force on each engaged stalk. | 05-22-2014 |
Patent application number | Description | Published |
20090039102 | BEAD FEEDER - A bead feeder for serially delivering beads to a downstream location comprises a bead supply wheel which rotates about a vertical axis. The bead supply wheel includes a bead supply bowl and a plurality of radially arranged channels below the bowl connected to rotate with the bowl. Discharge openings in the bowl are in alignment with the radially arranged channels to delivery beads to those channels, and a bead receiving pocket is positioned at the outer end of each channel. A transfer wheel picks up beads from the bead receiving pockets and transfers those beads to a delivery wheel by vacuum transfer and release. The delivery wheel serially delivers the beads to the downstream location. | 02-12-2009 |
20090118109 | VERTICAL FILTER FILLING MACHINE AND PROCESS - Process and apparatus for the mass production of compound cigarette filters function to deposit granular filter material into the open ends of vertically oriented filter tubes. Predetermined amounts of diverse granular material are withdrawn by suction from sources of such material, and these amounts are deposited into the tubes. Solid filter segments seal the granular material within the tube. After one half of each filter tube is filled with granular material and sealed, the tube is inverted and the opposite end is filled in substantially the same manner. When cut in half each filter tube produces two cigarette filters. | 05-07-2009 |
20100175703 | CONTINUOUS PROCESS FOR IMPREGNATING SOLID ADSORBENT PARTICLES INTO SHAPED MIRCO-CAVITY FIBERS - A process of impregnating fine adsorbent particles such as carbon dust or APS silica gel powder into the micro-cavities of shaped fibers comprises the steps of continuously conveying shaped fibers with micro-cavities to a reservoir of the fine adsorbent particles. The fibers pass through the reservoir to thereby produce relative motion between the fibers and the particles. Additionally, impact forces are created between the shaped fibers and the fine particles to assist in impregnating the particles into the micro-cavities of the fibers. Any excess particles are removed from the fibers outside the reservoir, and subsequently the shaped fibers impregnated with fine adsorbent particles are collected for later use in filter applications such as cigarette filter and air filter applications, for example. | 07-15-2010 |
20100210437 | VERTICAL FILTER FILLING MACHINE AND PROCESS - Process and apparatus for the mass production of compound cigarette filters function to deposit granular filter material into the open ends of vertically oriented filter tubes. Predetermined amounts of diverse granular material are withdrawn by suction from sources of such material, and these amounts are deposited into the tubes. Solid filter segments seal the granular material within the tube. After one half of each filter tube is filled with granular material and sealed, the tube is inverted and the opposite end is filled in substantially the same manner. When cut in half each filter tube produces two cigarette filters. | 08-19-2010 |
Patent application number | Description | Published |
20110203601 | NON-TOBACCO POUCH PRODUCT - A pouched non-tobacco product includes a lined pouch material of a web and a water-soluble liner adjacent the web and a non-tobacco flavorful component contained within the lined pouch material. The water-soluble liner is interposed between the web and the non-tobacco flavorful component. The liner preferably reduces staining of the web by the non-tobacco flavorful component. Additionally, the liner may include a flavorant. | 08-25-2011 |
20110240048 | TOBACCO POUCH PRODUCT - A pouched tobacco product includes a lined pouch material of a web and a water-soluble liner adjacent the web and a tobacco component contained within the lined pouch material. The water-soluble liner is interposed between the web and the tobacco component. The liner preferably reduces staining of the web by the tobacco component. Additionally, the liner may include a flavorant. | 10-06-2011 |
20140158145 | NON-TOBACCO POUCH PRODUCT - A pouched non-tobacco product includes a lined pouch material of a web and a water-soluble liner adjacent the web and a non-tobacco flavorful component contained within the lined pouch material. The water-soluble liner is interposed between the web and the non-tobacco flavorful component. The liner preferably reduces staining of the web by the non-tobacco flavorful component. Additionally, the liner may include a flavorant. | 06-12-2014 |
20140166512 | TOBACCO POUCH PRODUCT - A pouched tobacco product includes a lined pouch material of a web and a water-soluble liner adjacent the web and a tobacco component contained within the lined pouch material. The water-soluble liner is interposed between the web and the tobacco component. The liner preferably reduces staining of the web by the tobacco component. Additionally, the liner may include a flavorant. | 06-19-2014 |
Patent application number | Description | Published |
20110223605 | Multiple-sample microfluidic chip for DNA analysis - Aspects of the disclosure provide a microfluidic chip. The microfluidic chip includes a first domain configured for polymerase chain reaction (PCR) amplification of DNA fragments, and a second domain for electrophoretic separation. The first domain includes at least a first reaction reservoir designated for PCR amplification based on a first sample, and a second reaction reservoir designated for PCR amplification based on a second sample. The second domain includes at least a first separation unit coupled to the first reaction reservoir to received first amplified DNA fragments based on the first sample, and a second separation unit coupled to the second reaction reservoir to received second amplified DNA fragments based on the second sample. The first separation unit is configured to perform electrophoretic separation for the first amplified DNA fragments, and the second separation unit is configured to perform electrophoretic separation for the second amplified DNA fragments. | 09-15-2011 |
20110229897 | Optical approach for microfluidic DNA electrophoresis detection - Aspects of the disclosure provides a DNA analyzer to facilitate an integrated single-chip DNA analysis. The DNA analyzer includes an interface for coupling a microfluidic chip to the DNA analyzer. The microfluidic chip includes a first domain configured for polymerase chain reaction (PCR) amplification of DNA fragments, and a second domain fluidically coupled to the first domain to receive the DNA fragments and perform electrophoretic separation of the DNA fragments. The DNA fragments are tagged with fluorescent labels. The DNA analyzer includes a detection module to excite the fluorescent labels to emit fluorescence and detect the emitted fluorescence. The detection module includes a laser source, a set of optical elements, a filter module and a photo-detector. | 09-22-2011 |
20110229898 | DNA analyzer - Aspects of the disclosure provide a microfluidic chip to facilitate DNA analysis. The microfluidic chip includes a first domain configured for polymerase chain reaction (PCR) amplification of DNA fragments, a dilution domain coupled to the first domain to dilute a PCR mixture received from the first domain, and a second domain that is coupled to the dilution domain so as to receive the amplified DNA fragments. The second domain includes a separation channel that is configured to perform electrophoretic separation of the amplified DNA fragments. In addition, the disclosure provides a DNA analyzer to act on the microfluidic chip to perform an integrated single chip DNA analysis. | 09-22-2011 |
20130217026 | MICROFLUIDIC CARTRIDGE - A microfluidic cartridge can include at least one nucleic acid analysis portion. Each nucleic acid analysis portion can include a fluidic network being configured for micro-liter volumes or less, a sample input at the beginning of the fluidic network, a plurality of vent ports and fluidic channels in the fluidic network configured to effectuate hydrodynamic movement within the fluidic network, an extraction mixture reservoir in the fluidic network, a mixing chamber in the fluidic network, an amplification chamber in the fluidic network, and a separation channel in the fluidic network. A nucleic acid analyzer can be capable of performing nucleic acid analysis using the microfluidic cartridge. A nucleic acid analysis method can be performed using the microfluidic cartridge. | 08-22-2013 |
20140295441 | CARTRIDGE INTERFACE MODULE - A cartridge interface module (CIM), configured to engage with a removable microfluidic cartridge in a nucleic acid analyzer system can include a fluidics component, which is configured to initiate and support a liquid extraction of nucleic acids from a biological sample contained in the removable microfluidic cartridge. The CIM also includes a polymerase chain reaction (PCR) assembly component which can be configured to initiate and support amplification of the extracted nucleic acids. The CIM may also include a high voltage electrodes component that is configured to initiate and support separation of the amplified nucleic acids into nucleic acid fragments in a separation channel of the removable microfluidic cartridge. The CIM also includes a detection optics component that can be configured to collect, detect, and direct label nucleic acid fragments. The CIM is configured to integrate with a microfluidic chip architecture of an inserted removable microfluidic cartridge. | 10-02-2014 |