Patent application number | Description | Published |
20110036929 | Funnel meter measuring device - A new measuring device can be used with compression sprayers. The sprayer has a tank that holds liquid, a pump that enables a user to compress air in the tank, a spray nozzle that is in fluid communication with the tank, an inlet opening to the tank, and a funnel surface that extends upwardly and outwardly from the inlet opening. A special gate fits onto a broken rim that extends upwardly from the inlet opening, and rotates between one position (in which liquid on the funnel surface flows into the tank through gaps in the broken rim) and another position (in which wall sections on the gate block the gaps). Markings on the funnel surface enable a user to measure a quantity of liquid that is retained on the funnel surface. Ribs and recesses on the broken rim and on the gate releasably, axially secure the gate to the broken rim. | 02-17-2011 |
20130048761 | SPRINGLESS SHUT-OFF VALVE FOR LIQUID SPRAYERS - A springless valve that is used for a liquid sprayer has a body that has an upstream bore that has three parts with increasingly larger cross-sections. A pin portion of a slide/pin combination moves between an open position and a closed position. In the open position, liquid in the first part of the upstream bore flows into inlets in the third part of the upstream bore, through a central passage, to an outlet to a downstream bore. A linearly-moving slide portion on the slide/pin combination fits within a recess in the body, and has resilient arms that engage front and rear radial faces on a narrowed waist on the pin. The arms extend over opposed sides of the narrowed waist, have tangs that lock onto a lower side of that waist, and rigidly connect the slide portion to the pin portion, enabling a user to move the slide/pin combination axially between the open and closed positions. | 02-28-2013 |
Patent application number | Description | Published |
20100063319 | Preparation of acetic acid - A process for producing acetic acid is disclosed. The process comprises carbonylating methanol to form a reaction mixture comprising a catalyst, catalyst stabilizer, acetic acid, methanol, methyl iodide, methyl acetate, water, and carbon monoxide and introducing at least a portion of the reaction mixture to a distillation column to separate into a bottom steam comprising the catalyst and catalyst stabilizer, a sidedraw stream comprising acetic acid and water, and an overhead stream comprising methanol, methyl acetate, methyl iodide, and water. The process of the invention eliminates the use of flash tank. | 03-11-2010 |
20100145097 | Preparation of acetic acid - A process for producing acetic acid is disclosed. The process comprises carbonylating methanol to form a reaction mixture and flashing the reaction mixture to form a vapor stream and a liquid stream. The flash tank is equipped with a distillation column. The vapor stream comprises acetic acid and other volatile components but essentially no catalyst. The liquid stream comprises the catalyst and sufficient amounts of water and acetic acid to carry and stabilize the catalyst. The liquid stream is recycled to the carbonylation and the vapor stream is subjected to further separation to produce essentially pure acetic acid. | 06-10-2010 |
20110054213 | Preparation of acetic acid - A method for reducing aldehydes in an acetic acid production process is disclosed. The acetic acid is produced by reacting methanol and carbon monoxide in the presence of a carbonylation catalyst. The method comprises reacting an aldehyde-containing stream with an alcohol to form an acetal-containing stream. An acetal-enriched stream is separated from the acetal-containing stream and then hydrolyzed to form a hydrolysis mixture comprising the alcohol and the aldehydes. The alcohol is isolated from the hydrolysis mixture and used to react with the aldehyde-containing stream to form the acetal-containing stream. The invention reduces aldehydes in the acetic acid produced. | 03-03-2011 |
20110087047 | Vinyl acetate production process - A process for the production of vinyl acetate is disclosed. The process comprises reacting ethylene, acetic acid, and oxygen in the presence of a catalyst to produce a reaction mixture comprising vinyl acetate, ethylene, carbon dioxide, acetic acid and ethylene glycol diacetate. The reaction mixture is separated to a gas stream comprising ethylene, oxygen, and carbon dioxide and a crude vinyl acetate stream comprising vinyl acetate, acetic acid and ethylene glycol diacetate. An ethylene glycol diacetate stream, which comprises at least 50 wt % of ethylene glycol diacetate, is isolated from the crude vinyl acetate stream and hydrolyzed to recover acetic acid. Recovered acetic acid may be recycled to the acetoxidation reaction. | 04-14-2011 |
20110137075 | Vinyl acetate production process - A process for the production of vinyl acetate is disclosed. The process comprises reacting ethylene, acetic acid, and oxygen in the presence of a catalyst to produce a reaction mixture comprising vinyl acetate, ethylene, carbon dioxide, acetic acid, water and ethylene glycol diacetate. The reaction mixture is separated to a gas stream comprising ethylene, and carbon dioxide and a crude vinyl acetate stream comprising vinyl acetate, acetic acid, water and ethylene glycol diacetate. An ethylene glycol diacetate stream is isolated from the crude vinyl acetate stream and subjected to a reactive distillation to recover acetic acid. | 06-09-2011 |
20110269992 | Preparation of acetic acid and acetic anhydride - Disclosed is a process for the preparation of acetic acid and acetic anhydride. The process comprises carbonylating dimethyl carbonate. The carbonylation reaction for producing acetic acid is performed in the presence of water, while the carbonylation for producing acetic anhydride is performed essentially in the absence of water. | 11-03-2011 |
20110313193 | Purification of acetic acid - The invention is a method of purifying acetic acid containing 15 to 100 ppb iodide compounds. The method comprises contacting the acetic acid in the liquid phase with a phosphine-functionalized support, and recovering a purified acetic acid product having 10 ppb, or less, iodide compounds. | 12-22-2011 |
20110313217 | Methyl iodide removal from acetic acid waste stream - The invention is a method of removing methyl iodide from an alkane distillation bottoms stream of an acetic acid production process. The method comprises contacting the alkane distillation bottoms stream in the liquid phase with a phosphine or a phosphine-functionalized support, and recovering a treated alkane distillation bottoms stream having a reduced methyl iodide content. | 12-22-2011 |
Patent application number | Description | Published |
20080234130 | Compositions providing tolerance to multiple herbicides and methods of use thereof - Methods and compositions are provided related to improved plants that are tolerant to more than one herbicide. Particularly, the invention provides plants that are tolerant of glyphosate and are tolerant to at least one ALS inhibitor, and methods of use thereof. The glyphosate/ALS inhibitor-tolerant plants comprise a polynucleotide that encodes a polypeptide that confers tolerance to glyphosate and a polynucleotide that encodes an ALS inhibitor-tolerant polypeptide. In specific embodiments, a plant of the invention expresses a GAT polypeptide and an HRA polypeptide. Methods to control weeds, improve plant yield, and increase transformation efficiencies are provided. | 09-25-2008 |
20090137395 | Maize event DP-098140-6 and compositions and methods for the identification and/or detection thereof - Compositions and methods related to transgenic glyphosate/ALS inhibitor-tolerant maize plants are provided. Specifically, the present invention provides maize plants having a DP-098140-6 event which imparts tolerance to glyphosate and at least one ALS-inhibiting herbicide. The maize plant harboring the DP-098140-6 event at the recited chromosomal location comprises genomic/transgene junctions having at least the polynucleotide sequence of SEQ ID NO:5 and/or 6. The characterization of the genomic insertion site of the DP-098140-6 event provides for an enhanced breeding efficiency and enables the use of molecular markers to track the transgene insert in the breeding populations and progeny thereof. Various methods and compositions for the identification, detection, and use of the maize DP-098140-6 events are provided. Methods and compositions for improving yield are further provided. | 05-28-2009 |
20100240059 | MAIZE EVENT DP-098140-6 AND COMPOSITIONS AND MEHTODS FOR THE IDENTIFICATION AND/OR DETECTION THEREOF - Compositions and methods related to transgenic glyphosate/ALS inhibitor-tolerant maize plants are provided. Specifically, the present invention provides maize plants having a DP-098140-6 event which imparts tolerance to glyphosate and at least one ALS-inhibiting herbicide. The maize plant harboring the DP-098140-6 event at the recited chromosomal location comprises genomic/transgene junctions having at least the polynucleotide sequence of SEQ ID NO:5 and/or 6. The characterization of the genomic insertion site of the DP-098140-6 event provides for an enhanced breeding efficiency and enables the use of molecular markers to track the transgene insert in the breeding populations and progeny thereof. Various methods and compositions for the identification, detection, and use of the maize DP-098140-6 events are provided. | 09-23-2010 |
Patent application number | Description | Published |
20080199352 | Ex vivo antimicrobial devices and methods - A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved. | 08-21-2008 |
20100100188 | Prophylactic Bactericidal Implant - A medical implant system is described for inhibiting infection associated with a joint prosthesis implant. An inventive system includes an implant body made of a biocompatible material which has a metal component disposed on an external surface of the implant body. A current is allowed to flow to the metal component, stimulating release of metal ions toxic to microbes, such as bacteria, protozoa, fungi, and viruses. One detailed system is completely surgically implantable in the patient such that no part of the system is external to the patient while the system is in use. In addition, externally controlled devices are provided which allow for modulation of implanted components. | 04-22-2010 |
20100198357 | PROPHYLACTIC BACTERICIDAL IMPLANT - A medical implant system is described for inhibiting infection associated with a joint prosthesis implant. An inventive system includes an implant body made of a biocompatible material which has a metal component disposed on an external surface of the implant body. A current is allowed to flow to the metal component, stimulating release of metal ions toxic to microbes, such as bacteria, protozoa, fungi, and viruses. One detailed system is completely surgically implantable in the patient such that no part of the system is external to the patient while the system is in use. In addition, externally controlled devices are provided which allow for modulation of implanted components. | 08-05-2010 |
20120316655 | PROPHYLACTIC BACTERICIDAL IMPLANT - A medical implant system is described for inhibiting infection associated with a joint prosthesis implant. An inventive system includes an implant body made of a biocompatible material which has a metal component disposed on an external surface of the implant body. A current is allowed to flow to the metal component, stimulating release of metal ions toxic to microbes, such as bacteria, protozoa, fungi, and viruses. One detailed system is completely surgically implantable in the patient such that no part of the system is external to the patient while the system is in use. In addition, externally controlled devices are provided which allow for modulation of implanted components. | 12-13-2012 |
20140094750 | Prophylactic Bactericidal Medical Device - A medical implant system is described for inhibiting infection associated with a joint prosthesis implant. An inventive system includes an implant body made of a biocompatible material which has a metal component disposed on an external surface of the implant body. A current is allowed to flow to the metal component, stimulating release of metal ions toxic to microbes, such as bacteria, protozoa, fungi, and viruses. One detailed system is completely surgically implantable in the patient such that no part of the system is external to the patient while the system is in use. In addition, externally controlled devices are provided which allow for modulation of implanted components. | 04-03-2014 |
20140255267 | EX VIVO ANTIMICROBIAL DEVICES AND METHODS - A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved. | 09-11-2014 |
20140255268 | EX VIVO ANTIMICROBIAL DEVICES AND METHODS - A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved. | 09-11-2014 |
20140286833 | EX VIVO ANTIMICROBIAL DEVICES AND METHODS - A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved. | 09-25-2014 |
Patent application number | Description | Published |
20110108655 | CART TYPE STRAP DISPENSER WITH IMPROVED STRAP BRAKE/PAYOUT ASSEMBLY - A dispenser is used for dispensing flexible material from a coil. The dispenser includes a frame, a coil carriage mounted to the frame and a brake/payout assembly mounted to the frame. The frame defines an axis of rotation about which the coil carriage rotates. The coil is securable within the coil carriage for rotation with the carriage. The brake/payout assembly is operably mounted to the frame and is moveable toward and away from the coil carriage. The brake/payout assembly is biased toward the coil carriage for engagement with the carriage. The brake/payout assembly engages the coil carriage to slow rotation of the carriage and includes a nip region through which the flexible material traverses during payout. | 05-12-2011 |
20110219845 | FRONT ACTION SEALING TOOL - A crimping tool for applying a seal to strap material includes a tool head having pairs of jaws disposed in the tool head and operably mounted thereto, each pair including opposingly oriented jaw elements. Each pair of jaws is spaced from its adjacent pair and includes an upper and lower pivot openings. A shear is positioned between adjacent pairs of jaw elements. The shears extend between the jaw elements and include opposing openings that align with the jaw element upper openings. A pair of handles, each having a terminal end having first openings that align with the jaw element lower openings and are operably connected to one another at respective pivot openings. The tool includes at least one side plate having a pair of upper openings each aligned with the jaw element upper openings and the shear openings. The plate includes a centrally disposed notched opening. A pair of handle pins are disposed in respective handle first openings and jaw element lower openings and a pair of link pins are disposed in respective side plate upper openings and respective jaw element upper openings and a shear opening. A pivot pin is disposed in the side plate notched opening and in the handle pivot openings. The shear can be reversible to accommodate different sizes of seals. | 09-15-2011 |
20130269824 | TENSIONER/CUTTER TOOL FOR HOSE CLAMPS - A tension/cutter tool for band-type clamps that include a band for tensioning around an object and a seal for securing the tensioned band around the object, in which the band is bent and severed at the seal to form a J-seal. The tool includes a body, a drive, and a feed wheel mounted to the body and operably connected to the drive. A nose piece includes two rollers and is movably mounted to the body to engage and disengage the two rollers from contact with the feed wheel. The feed wheel and rollers define a band path therebetween. A tail end of the band is fed into the tool, between the feed wheel and the roller and the drive is actuated to tension the band. Upon achieving a desired tension, the seal is engaged with the nose piece and the band is bent to form the J-seal against the seal and the band is cut beyond the J-seal. A controller monitors and controls the tool functions. | 10-17-2013 |
20150114075 | FRONT ACTION SEALING TOOL - A crimping tool for applying a seal to strap material includes a tool head having pairs of jaws disposed in the tool head and operably mounted thereto, each pair including opposingly oriented jaw elements. Each pair of jaws is spaced from its adjacent pair and includes an upper and lower pivot openings. A shear is positioned between adjacent pairs of jaw elements. The shears extend between the jaw elements and include opposing openings that align with the jaw element upper openings. A pair of handles, each having a terminal end having first openings that align with the jaw element lower openings and are operably connected to one another at respective pivot openings. The tool includes at least one side plate having a pair of upper openings each aligned with the jaw element upper openings and the shear openings. The plate includes a centrally disposed notched opening. A pair of handle pins are disposed in respective handle first openings and jaw element lower openings and a pair of link pins are disposed in respective side plate upper openings and respective jaw element upper openings and a shear opening. A pivot pin is disposed in the side plate notched opening and in the handle pivot openings. The shear can be reversible to accommodate different sizes of seals. | 04-30-2015 |
Patent application number | Description | Published |
20080201911 | STRAP WITH ENHANCED STIFFNESS - A plastic strap particularly useful for automated strapping machines is formed with an integrated, longitudinally disposed rib for enhancing the stiffness of the strap. The strap is formed with at least one rib extending longitudinally from a first end of the strap to a second end of the strap. The rib preferably extends upwardly from the top surface of the strap and comprises, preferably, a slight arcuate profile. The profile of the rib, the number of ribs, and the location of the ribs on the strap may vary depending upon the desired longitudinal stiffness of the strap and the desired width and thickness of the strap. The ribs may be centered across the width the strap or offset. The strap further comprises side panels that are parallel to the longitudinal plane of the strap and outer edges that are generally perpendicular to the longitudinal plane of the strap. The geometry of the strap prevents the strap from twisting and permits overlapping sections of the strap to interlock and self-align during sealing. The rib is formed by passing the heated strap through a rolling mechanism configured to form the desired rib profile in the strap while exerting compressive forces on the side panels of the strap. | 08-28-2008 |
20120174530 | DEBRIS SWEEP AND DRY ASSIST DEVICE FOR STRAP PRINTING - A debris sweep and dry assist device is for use with a strapping machine. The debris sweep and dry assist device is positioned between the strapping machine and an associated strap supply. The device includes a body having a strap inlet and a strap outlet and defining a strap path therethrough. The body has a first wall at about the strap inlet and a second wall at about the strap outlet. The body has a first manifold and a plurality of first branches extending between the first manifold and the first wall to provide a plurality of flow paths from the first manifold to the environs through the first branches. A compressed is gas directed into the first manifold and flows out of the first branches, and is directed onto strap material at a location at about the strap inlet. | 07-12-2012 |
20130068117 | MODULAR STRAP FEED HEAD WITH FORMING WHEELS - A strap forming assembly for a strapping machine includes a first forming wheel having a circumferential groove formed in a rim thereof and a second forming wheel cooperating with the first forming wheel and having a mating a circumferential crown extending therefrom. The first and second forming wheels cooperate to define a forming wheel nip therebetween. The forming wheel nip is non-planar. Strapping material fed into the forming wheel nip is permanently, longitudinally deformed. | 03-21-2013 |
20140190124 | MODULAR STRAP FEED HEAD WITH FORMING WHEELS - A strap forming assembly for a strapping machine includes a first forming wheel having a circumferential groove formed in a rim thereof and a second forming wheel cooperating with the first forming wheel and having a mating a circumferential crown extending therefrom. The first and second forming wheels cooperate to define a forming wheel nip therebetween. The forming wheel nip is non-planar. Strapping material fed into the forming wheel nip is permanently, longitudinally deformed. | 07-10-2014 |