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Henneberg
Markus Henneberg, Magdeburg DE
| Patent application number | Description | Published |
|---|---|---|
| 20090246354 | Method and Device for Melting Sugar - The invention relates to a method and an apparatus for melting sugar, referred to in the following as solid matter. The apparatus includes at least one melting tube ( | 10-01-2009 |
| 20100187717 | METHOD FOR PRODUCING WOOD-PLASTIC COMPOSITE MATERIAL - The invention relates to a method for producing a wood-plastic composite material, by which means the composite material is provided with a pre-determined color and pre-determined material characteristics during the course of the method. The method according to the invention is characterized by the drying and treatment of the wood chips using chromophore substances and/or active substances in a fluidized bed appliance during one of the method steps preceding the extrusion. Following the treatment, sorted wood chips can be removed from the fluidized bed within a pre-selected dimension spectrum and extruded with plastic in the subsequent method step. | 07-29-2010 |
Morten Henneberg, Odense DK
| Patent application number | Description | Published |
|---|---|---|
| 20100014076 | Spectrometric apparatus for measuring shifted spectral distributions - This invention relates to a spectroscopic apparatus for measuring at least two spectrally shifted spectral distributions of a light beam, said apparatus comprises a dispersive element adapted to generate a spatial dispersion of the spectral components in a light beam when said dispersive element is being illuminated by said light beam; and a detector adapted to measure the intensity of at least a part of said dispersed spectral components where said apparatus further comprises an optical shifting means adapted to illuminate said dispersive element in at least two different ways, such that said light beam hits said dispersive element differently, and whereby said dispersive element generates at least two spatially shifted spatial dispersions of the spectral components in said light beam. The invention further relates to a probing system comprising said spectroscopic apparatus for measuring at least two spectrally shifted spectral distributions of a light beam, and a method for measuring at least two spectrally shifted spectral distributions of a light beam. | 01-21-2010 |
Morten Henneberg, Odense M DK
| Patent application number | Description | Published |
|---|---|---|
| 20120044484 | OPTICAL PROBE FOR MEASURING LIGHT SIGNALS IN VIVO - An optical probe for measuring light signals includes a first optical fiber guiding incoming light, a lens focusing incoming light towards a sample and collecting altered light from the sample, a second optical fiber guiding altered light, a light logging device measuring intensity fluctuations in the incoming light, wherein the light logging device is positioned after the first optical fiber, whereby the light logging device receives a part of the incoming light from the first fiber. The optical probe is normally applied for measuring light signals in vivo, and finds its primary applications within the field of optical spectroscopic measurements, where the light signals measured by said probe are applied in combination with an apparatus wherein light signals are analyzed against its spectral components for instance in Raman, fluorescence, phosphorescence absorption, diffusion and transmission studies. Embodiments of the present invention especially relates to and finds application within the area of Raman Spectroscopy. | 02-23-2012 |
Robert Henneberg, Ilmenau DE
| Patent application number | Description | Published |
|---|---|---|
| 20090145707 | PISTON-CYLINDER UNIT WITH PISTON ROD PROTECTOR - Piston-cylinder unit includes a piston rod guided with freedom of axial movement in a cylinder, where at least part of the piston rod is enclosed by a piston rod protector, which is designed with at least limited axial elasticity. At least one retaining surface of the piston rod protector enters into a positive connection with at least one stop surface on the cylinder side, and an auxiliary assembly bevel allows the piston rod protector to buckle over a certain stroke range of the piston rod during the installation of the protector, so that the retaining surface snap-locks onto the stop surface on the cylinder side. | 06-11-2009 |