Kuschel
Alexander Kuschel, Regensburg DE
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20110284667 | INJECTOR ASSEMBLY FOR AN INJECTION VALVE - A jet needle has a front face turned away from an injection opening. An injector assembly has a chamber within the body adjoining the front face, a throttle module arranged in the chamber having a fluid supply chamber being hydraulically coupled to the fluid inlet, a control space hydraulically coupled to the fluid supply chamber via an inlet throttle, and a valve chamber hydraulically coupled to the control space via an outlet throttle for accommodating a valve that is designed to lead fluid into a fluid return line arranged in a control module. There are precisely two sealing edges designed between the throttle module and the injector body and/or the control module by which additional hydraulic couplings of the fluid supply chamber to the control space and the valve chamber are cut off. A third sealing edge is designed between the injector body and the control module. | 11-24-2011 |
20140319240 | Piezoelectric Actuator - A piezoelectric actuator for a fuel injector may include a piezoelement that can be deflected along the longitudinal axis in the longitudinal direction of the fuel injector, and a separating wall for protecting the piezoelement from an overflow of a medium from the fuel-guiding part of the fuel injector, the piezoelement being preconstrained in the axial direction by the separating wall. | 10-30-2014 |
Anthony J. Kuschel, Plymouth, MN US
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20130061965 | CROSS-PORTING CONFIGURATION FOR SERIES PROGRESSIVE DIVIDER VALVE - A series progressive divider valve comprises a valve body having pistons. The valve body comprises a fluid inlet, piston bores, outlet bores, porting and bypass passages. The fluid inlet extends into the valve body. The piston bores extend through the valve body from a first end to a second end and include a piston. The outlet bores extend into the valve body, and each comprises first and second sets of outlet bores, wherein the outlet bores in each set are connected in an open-loop flow path. The porting forms passageways connecting the piston bores to each other and with the outlet bores such that when high pressure fluid is applied to the inlet each of the pistons reciprocates from the first end to the second end in sequence. The bypass passages each have a first end penetrating an outlet bore and a second end connected to an adjacent outlet. | 03-14-2013 |
20130061967 | PISTON BORE UNDERCUT AND METHODS OF MANUFACTURING A PISTON BORE UNDERCUT FOR A SERIES PROGRESSIVE DIVIDER VALVE - A series progressive divider valve comprises a valve body and pistons. The valve body comprises a fluid inlet, piston bores, outlet bores, porting and undercuts. The fluid inlet extends into an exterior of the valve body. The piston bores extend through the valve body from a first end to a second end. Each piston bores includes a piston. The outlet bores extend into the valve body, each outlet bores comprises a first set of outlet bores and a second set of outlet bores. The porting forms a plurality passageways connecting the piston bores to each other and with the outlet bores such that when high pressure fluid is applied to the inlet each of the pistons reciprocates from the first end to the second end in sequence. An undercut is located at an intersection between each passageway and piston bore. | 03-14-2013 |
20130068329 | BYPASS PISTON PORT AND METHODS OF MANUFACTURING A BYPASS PISTON PORT FOR A SERIES PROGRESSIVE DIVIDER VALVE - A series progressive divider valve comprises a valve body and pistons. A fluid inlet extend into the valve body. Stations are disposed in the valve body and extend from a first end to a second end; each station comprises piston stations extending through the valve body and a bypass station fluidly isolating the first end form the second end. The piston stations comprise a piston bore and a piston. The bypass stations comprise first and second fluid passages extending from the first and second ends to positions inside the valve body. Outlet bores extend into the valve body, and each comprises first and second sets of outlet bores. Porting forms passageways connecting the stations to each other and with the outlet bores such that when high pressure fluid is applied to the inlet the pistons reciprocates from the first end to the second end in sequence. | 03-21-2013 |
20130087234 | DOUBLE-SEALED CROSS-PORT FITTING FOR SERIES PROGRESSIVE DIVIDER VALVE - A double-sealed cross-port fitting for use in a series progressive divider valve comprises an adapter body, a passage and a ring segment. The adapter body extends axially from a first end to a second end and includes an adapter segment and a coupling segment. The adapter segment is positioned at the first end and is configured to be coupled to another component. The coupling segment is positioned at the second end, extends from the adapter segment, and is configured to be inserted into a valve body. The passage extends through the adapter body from the first end to the second end. The ring segment extends radially from the coupling segment and is configured to engage the valve body. The ring segment forms a first seal face between the ring segment and the adapter segment and a second seal face between the ring segment and the second end. | 04-11-2013 |
20130118603 | PISTON BORES AND METHODS OF MANUFACTURING PISTON BORES FOR A SERIES PROGRESSIVE DIVIDER VALVE - A series progressive divider valve comprises a valve body and pistons. The valve body comprises a fluid inlet, piston bores, outlet bores and porting. The fluid inlet extends into an exterior of the valve body. The piston bores extend through the valve body from a first end to a second end, wherein the piston bores are arranged along a first circular path intersecting each of the piston bores. Each piston bore includes a piston. The outlet bores extend into the valve body, and each outlet bore comprises a first set of outlet bores, and a second set of outlet bores. The porting forms a plurality passageways connecting the piston bores to each other and with the outlet bores such that when high pressure fluid is applied to the inlet each of the pistons reciprocates from the first end to the second end in sequence. | 05-16-2013 |
20140261812 | BYPASS PISTON PORT AND METHODS OF MANUFACTURING A BYPASS PISTON PORT FOR A SERIES PROGRESSIVE DIVIDER VALVE - A series progressive divider valve comprises a valve body and pistons. A fluid inlet extends into the valve body. Stations are disposed in the valve body and extend from a first end to a second end; each station comprises piston stations extending through the valve body and a bypass station fluidly isolating the first end from the second end. The piston stations comprise a piston bore and a piston. The bypass stations comprise first and second fluid passages extending from the first and second ends to positions inside the valve body. Outlet bores extend into the valve body, and each comprises first and second sets of outlet bores. Porting forms passageways connecting the stations to each other and with the outlet bores such that when high pressure fluid is applied to the inlet the pistons reciprocates from the first end to the second end in sequence. | 09-18-2014 |
Boris Kuschel, Delson CA
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20100115523 | METHOD AND APPARATUS FOR ALLOCATING TASKS AND RESOURCES FOR A PROJECT LIFECYCLE - The present invention relates to the allocation of resources to address scope items against an iteration of a project based on a rule set described by a decision matrix and threshold values. Rather than changing work item start and end dates based on resource availability, the present invention adds, modifies, and removes content from a collection of scope item items and allocates them to resources based on the skills required, the priority, estimated work and target iteration of the scope item items. | 05-06-2010 |
Christian Kuschel, Nuernberg DE
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20100179439 | DEVICE AND METHOD FOR CORRECTING A BLOOD PRESSURE MEASURED - A device for altitude correction of a blood pressure measured at a measuring position of a living being has a transmitter, at least three receivers and an evaluating unit. The transmitter emits a signal from close to a measuring position and the at least three receivers receive the signal, wherein the receivers may be mounted to positions at different altitudes of the living being. The evaluating unit corrects the blood pressure measured on the basis of run time or phase differences of the signals received at the at least three receivers. | 07-15-2010 |
Frank Kuschel, Halle DE
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20100195025 | Display Cell with Compartmentalized Liquid-Crystal Layer, Method for its Production and a Liquid-Crystal Material-Containing Mixture Suitable Therefor - The invention relates to a display cell, comprising two transparent, equidistant plates, wherein the gap between the plates is filled with a liquid-crystal material-containing layer, characterized in that the liquid-crystal material-containing layer is inhomogeneous and anisotropic, wherein it has a first region made up of compartments, which comprise entirely, substantially or mainly liquid-crystal material, and a second, coherent region which comprises entirely, substantially or mainly an organic polymer material and surrounds the compartments made of liquid-crystal material. In addition, the invention relates to a liquid-crystal material-containing mixture which can be used to produce the layer between the plates, and to a method for producing the display cell. | 08-05-2010 |
Lioba Kuschel, Mannheim DE
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20150123013 | Method and Apparatus for Investigating a Sample with Regard to the Lifetime of an Excited State - The invention relates to a method for investigating a sample with regard to the lifetime of an excited state, in particular a fluorescence lifetime, and/or with regard to a property of a sample which is correlated with a lifetime of an excited state, in particular with a fluorescence lifetime, a sample region being illuminated with a sequence of excitation light pulses. The method is characterized in that the light quantity and/or number of photons of the detected light, in particular fluorescent light, proceeding from the sample region is measured temporally between the excitation light pulses exclusively within a detection time window in each case, at least two detection time windows having different temporal lengths. | 05-07-2015 |
Martin Kuschel, Munich DE
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20120116416 | Medical Workstation - The invention relates to a medical work station ( | 05-10-2012 |
Martin Kuschel, Munchen DE
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20130282179 | Telepresence System - The invention relates to a telepresence system ( | 10-24-2013 |
Petra Kuschel, Leonberg-Hoefingen DE
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20110162436 | Sensor element containing a sealing element for a functional component - A sensor element having a layered construction and configured to detect a physical property of a gas or a liquid includes a functional component situated in the interior, which functional component is connected electrically to a conductor element, which conductor element extends up to the outer surface or up into the surroundings of the sensor element. The sensor element has at least one sealing element which adjoins the functional component and/or the conductor element. The conductor element and the at least one sealing element are configured to be gas-tight at least regionally in the interior of the sensor element and are situated in such a way that the functional component is separated gas-tight from the surroundings of the sensor element. | 07-07-2011 |