Patent application number | Description | Published |
20100163738 | RADIATION DETECTOR, LIGHT DETECTOR ARRANGEMENT, PRODUCTION METHOD AND IMAGING SYSTEM - An embodiment of the invention relates to a radiation detector which includes a plurality of radiation detector modules arranged adjacent to one another with in each case one scintillation element with a radiation inlet surface aligned transversely with respect to a main direction of a radiation, and light detector arrangements arranged transversely with respect to the radiation inlet surfaces of the scintillation elements. In the process of at least one embodiment, one light detector arrangement is arranged between two scintillation elements and has two light inlet surfaces which point away from one another, of which one is associated with a first scintillation element and one is associated with a second scintillation element. Furthermore, at least one embodiment of the invention relates to a light detector arrangement, a production method for a radiation detector according to at least one embodiment of the invention and/or an imaging system. | 07-01-2010 |
20100173445 | PRODUCTION METHOD FOR A SENSOR UNIT OF AN X-RAY DETECTOR - A production method for a sensor unit of an X-ray detector is disclosed, which can be implemented easily and precisely, is specified, the sensor unit including a scintillator with photodiodes integrated in its septa for lateral readout. In at least one embodiment of the method, individual scintillator strips are initially produced from a plurality of scintillator pixels adjoining one another along one dimension. Respectively one photodiode strip, made of a plurality of photodiodes in turn adjoining one another along one dimension, is attached to each of the individual scintillator strips along a longitudinal side in order to form a sensor strip. Here, respectively one photodiode is associated with each scintillator pixel for readout purposes. Finally, a plurality of such sensor strips are interconnected to form the two-dimensional sensor unit such that a longitudinal side of the one sensor strip facing away from the photodiode strip respectively rests against a rear side of the photodiode strip of the adjacent sensor strip. | 07-08-2010 |
Patent application number | Description | Published |
20100301040 | WAVE CHOKE DEVICE FOR A MICROWAVE OVEN DOOR - The present invention relates to a wave choke device for an oven door of a microwave oven. The wave choke device includes a front shielding comprising at least one conductive material and a wave trap forming a channel with one at least partially open side, which wave trap is arranged on at least one outer portion of the front shielding and comprises at least one conductive material. The wave choke device includes further a plurality of lamellae arranged uniformly in the at least partially open side of the wave trap, which lamellae comprises at least one conductive material. The wave choke device comprises one single piece made of a perforated material, wherein said one single piece includes at least the front shielding and the wave trap. The present invention relates further to a corresponding oven door and a corresponding microwave oven. | 12-02-2010 |
20100308034 | MICROWAVE OVEN DOOR WITH A WAVES CHOKES SYSTEM - The present invention relates to an oven door with a wave chokes system for a microwave oven. The oven door includes at least one transparent door panel made of a dielectric material and a metallization enclosing at least partially the transparent door panel. The oven door includes further a plurality of lamellae arranged uniformly on one side of the metallization and at least one front shielding, which is arranged in the centre portion on at least one side of the transparent door panel. The metallization and the lamellae are formed by a coating on the transparent door panel, wherein said coating is made of a conductive material and applied on the transparent door panel. Further, the present invention relates to a corresponding microwave oven. Additionally, the present invention relates to a method for manufacturing an oven door with a wave chokes system for a microwave oven. | 12-09-2010 |
20110240003 | HOUSEHOLD APPLIANCE, IN PARTICULAR OVEN - Household appliance ( | 10-06-2011 |
20120091127 | MICROWAVE SEALING DEVICE OF AN OPENING FOR A ROTATING SHAFT - The present invention relates to a microwave sealing device of an opening for a rotating shaft ( | 04-19-2012 |
Patent application number | Description | Published |
20080257976 | Nozzle for industrial processing - A nozzle with at least one central nozzle channel through which at least one jet intended for flame, for laser beam and/or for the arc welding and at least one gas flow can be guided, wherein the contour of the nozzle channel has two curves which merge into each other directly or via an intermediate straight, of which curves the in direction of the gas flow first curve seen from the central axis of the nozzle channel extending in direction of the gas flow is curved in a concave manner and the direction of the gas flow second curve seen from the central axis of the nozzle channel is curved in a convex manner, so that the gas flow flows out of the gas outlet within at least one wide pressure range in a laminar manner and without pressure relaxation even on changing of the gas pressure. | 10-23-2008 |
20080264912 | Gas Mixture For Laser Beam Fusion Cutting - A gas mixture for laser beam fusion cutting is disclosed. The gas mixture essentially contains N | 10-30-2008 |
20090032503 | Thermal Cutting Method - The invention pertains to a thermal cutting method, in which a cutting gas is introduced into a cutting nozzle and guided onto the work piece to be processed by means of the cutting nozzle, and in which the volumetric flow rate of the cutting gas is at least reduced in a periodically repeating fashion, wherein the invention is characterized in that the method is carried out with a periodicity that has a frequency between 700 Hz and 8000 Hz. | 02-05-2009 |
20090056869 | INTRODUCTION OF NANOPARTICLES - The invention relates to a method for joining objects made of metal, plastic or ceramic by means of heat input such as soldering or welding, wherein materials such as particles, in particular nanoparticles, elements, atoms, molecules or ions are introduced into the joint. It is proposed according to the invention that a gas stream brings gaseous compounds to the joint which decompose at elevated temperature and deposit particles. | 03-05-2009 |
20110265928 | INTRODUCTION OF NANOPARTICLES - The invention relates to a method for joining objects made of metal, plastic or ceramic by means of heat input such as soldering or welding, wherein materials such as particles, in particular nanoparticles, elements, atoms, molecules or ions are introduced into the joint. It is proposed according to the invention that a gas stream brings gaseous compounds to the joint which decompose at elevated temperature and deposit particles. | 11-03-2011 |
20130174977 | INTRODUCTION OF NANOPARTICLES - The invention relates to a method for joining objects made of metal, plastic, hybrid structures or ceramic by means of heat input such as soldering or welding, wherein materials such as particles, in particular nanoparticles, elements, atoms, molecules or ions are introduced into the joint. It is proposed according to the invention that a gas stream brings gaseous compounds to the joint which decompose at elevated temperature and deposit particles as heat is being applied to the joint. | 07-11-2013 |