Gabert
George D. Gabert, Texarkana, TX US
Patent application number | Description | Published |
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20130111732 | SPLIT-RING GLAND PIPE COUPLING WITH CORRUGATED ARMOR - A pipe coupling for coupling adjacent ends of a pair of pipes includes a sleeve, a split-ring gland positioned around one of the ends of the sleeve, and at least one annular gasket positioned within the split-ring gland and configured to be compressed by the split-ring gland for sealing one pipe end to the sleeve. The split-ring gland includes two partially circular gland members with spaced ends defining a gap. The pipe coupling includes an armor positioned to span the gap between the spaced ends to provide a generally closed annular periphery about the gasket. The armor includes a corrugated portion having a plurality of corrugations engaging the split-ring gland and the gasket during compression of the gasket. The armor is cold formed to improve structural strength and durability. | 05-09-2013 |
20130119616 | SPLIT-RING GLAND PIPE COUPLING WITH CORRUGATED ARMOR - An annular gasket configured to seal a split-ring gland of a pipe coupling onto an end of a pipe having an annular outer gasket and a separate inner annular gasket. The outer gasket has an inner circumferential surface and the inner gasket has an outer circumferential surface, the circumferential surfaces being removably engaged. The inner gasket may be wider than the outer gasket to form a lip that projects beyond the outer gasket. The inner circumferential surface of the outer gasket and the outer circumferential surface of the inner gasket may include triangular shaped interdigitations configured to prevent axial movement between the gaskets. | 05-16-2013 |
20130119658 | SPLIT-RING GLAND PIPE COUPLING WITH CORRUGATED ARMOR - A pipe coupling for coupling adjacent ends of a pair of pipes includes a sleeve, a split-ring gland positioned around one of the ends of the sleeve, and at least one annular gasket positioned within the split-ring gland and configured to be compressed by the split-ring gland for sealing one pipe end to the sleeve. The split-ring gland includes two partially circular gland members with spaced ends defining a gap, and abutting ends configured to be bolted together via apertures tangential to the gland members so as to avoid outward scissoring. | 05-16-2013 |
20150021910 | SPLIT-RING GLAND PIPE COUPLING WITH CORRUGATED ARMOR - A pipe coupling for coupling adjacent ends of a pair of pipes includes a sleeve, a split-ring gland positioned around one of the ends of the sleeve, and at least one annular gasket positioned within the split-ring gland and configured to be compressed by the split-ring gland for sealing one pipe end to the sleeve. The split-ring gland includes two partially circular gland members with spaced ends defining a gap. The pipe coupling includes an armor positioned to span the gap between the spaced ends to provide a generally closed annular periphery about the gasket. The armor includes a corrugated portion having a plurality of corrugations engaging the split-ring gland and the gasket during compression of the gasket. The armor is cold formed to improve structural strength and durability. | 01-22-2015 |
Jean Gabert, Domaine Du Lac Bleu Calas FR
Patent application number | Description | Published |
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20110223595 | STANDARDIZED AND OPTIMIZED REAL-TIME QUANTITATIVE REVERSE TRANSCRIPTASE POLYMERASE CHAIN REACTION METHOD FOR DETECTION OF MRD IN LEUKEMIA - The invention relates to in a real-time quantitative reverse transcriptase polymerase chain reaction (RQ-PCR) method for minimal residual disease detection in leukemic patients through amplification of a fusion gene transcript, the improvement comprising: (i) selecting amplifiable and qualified patient samples for subsequent analysis; (ii) defining optimal conditions for performing the RT reaction; (iii) defining optimal conditions RQ-PCR protocol; and (iv) establishing a standardized procedure for data analysis. | 09-15-2011 |
Jorg Gabert, Leipzig DE
Patent application number | Description | Published |
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20110143347 | SUBSTANCES AND METHODS FOR A DNA BASED PROFILING ASSAY - The present invention relates to a DNA profiling assay comprising the following steps, providing a sample to be analyzed, providing reagents, enzyme and primer oligonucleotides which are necessary for simultaneous polymerase chain reaction amplification of at least 20 loci, amplifying the loci, detecting the amplification products, wherein the amplification products and the loci to be amplified are characterized by the following features, each locus to be amplified is characterized by at least one deletion-insertion polymorphism known to be present in the population, wherein the two alleles from each locus differ in size by more than 2 nucleotides and less than 100 nucleotides, a first set of at least two amplification products ranging in size from about 20 nucleotides to about 300 nucleotides stemming from at least two different loci carries a first label, a second set of at least two amplification products ranging in size from about 20 nucleotides to about 300 nucleotides stemming from at least two different loci carries a second label, a third set of at least two amplification products ranging in size from about 20 nucleotides to about 300 nucleotides stemming from at least two different loci carries a third label, label one, label two and label three are each different fluorescent labels which can he differentiated and simultaneously detected by a multi-colour detector in combination with, e.g. a DNA sequencing device. | 06-16-2011 |
20110189763 | KIT AND METHOD FOR EVALUATING DETECTION PROPERTIES IN AMPLIFICATION REACTIONS - The invention relates to a kit comprising, (a) a first group of containers, comprising two or more containers with human genomic DNA, wherein the human genomic DNA in each of the two or more containers is of different human origin and the amount of DNA in the container is defined, (b) a second group of containers, comprising two or more containers with human genomic DNA, wherein the concentration of the DNA varies between the containers and the concentration of the DNA in the container is defined and (c) a third group of containers, comprising two or more containers with human genomic DNA, wherein the human genomic DNA in each container is a mixture of genomic DNA and is from at least two different individuals. The invention also relates to an evaluation tool and methods of use of the kit. | 08-04-2011 |
Thomas H. Gabert, Essex Junction, VT US
Patent application number | Description | Published |
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20120161255 | SEALED MEMS CAVITY AND METHOD OF FORMING SAME - Embodiments of the invention provide methods of sealing a micro electromechanical systems (MEMS) cavity and devices resulting therefrom. A first aspect of the invention provides a method of sealing a micro electromechanical systems (MEMS) cavity in a substrate, the method comprising: forming in a substrate a cavity filled with a sacrificial material; forming a lid over the cavity; forming at least one vent hole over the lid extending to the cavity; removing the sacrificial material from the cavity; depositing a first material onto the lid such that a size of at least one vent hole at a surface of the substrate is reduced but not sealed; and depositing a second material onto the first material to seal the at least one vent hole, wherein a MEMS cavity within the substrate and beneath the at least one vent hole substantially retains a pressure at which the at least one vent hole is sealed by the second material. | 06-28-2012 |
20130207235 | SELF-ALIGNED EMITTER-BASE REGION - Aspects of the invention provide a method of forming a bipolar junction transistor. The method includes: providing a semiconductor substrate including a uniform silicon nitride layer over an emitter pedestal, and a base layer below the emitter pedestal; applying a photomask at a first end and a second end of a base region; and performing a silicon nitride etch with the photomask to simultaneously form silicon nitride spacers adjacent to the emitter pedestal and exposing the base region of the bipolar junction transistor. The silicon nitride etch may be an end-pointed etch. | 08-15-2013 |
20150054123 | SELF-ALIGNED EMITTER-BASE REGION - Aspects of the invention provide a method of forming a bipolar junction transistor. The method includes: providing a semiconductor substrate including a uniform silicon nitride layer over an emitter pedestal, and a base layer below the emitter pedestal; applying a photomask at a first end and a second end of a base region; and performing a silicon nitride etch with the photomask to simultaneously form silicon nitride spacers adjacent to the emitter pedestal and exposing the base region of the bipolar junction transistor. The silicon nitride etch may be an end-pointed etch. | 02-26-2015 |