Andreas Braun
Andreas Braun, Fellbach DE
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20110007328 | DEVICE FOR OPTICAL DISTANCE MEASUREMENT - The invention relates to a device for optical distance measurement, particularly to a handheld device, comprising a transmission unit ( | 01-13-2011 |
Andreas Braun, Munchen DE
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20120237773 | METHOD FOR PRODUCING A FILM COMPOSITE MATERIAL AND A CARD BODY - A method for producing a foil composite material, in particular for use as a layer in a card body, preferably in a card body of a portable data carrier, whereby using a coextrusion process, at least a first plastic melt of plastic including a thermoplastic elastomer and at least a second plastic melt of plastic without a thermoplastic elastomer, are joined in such a fashion that a foil composite material is formed. This foil composite material contains one or several outer first layers of plastic without a thermoplastic elastomer, one or several middle second layers of plastic including a thermoplastic elastomer and one or several outer third layers of plastic without a thermoplastic elastomer. | 09-20-2012 |
20120315484 | HIGHLY FLEXIBLE FOIL COMPOSITE MATERIAL AND ITS USE IN CARD BODIES - A foil composite material usable as a layer in a card body of a portable data carrier, that includes one outer plastic layer, one inner plastic layer and one second outer plastic layer. All the layers jointly form a coextruded composite, and the plastic of one outer layer is a thermoplastic polymer or a mixture thereof. The plastic of the one inner layer is a mixture of at least one thermoplastic elastomer and at least one thermoplastic polymer. The plastic of the second outer layer is a thermoplastic polymer or a mixture thereof. | 12-13-2012 |
20120328865 | COEXTRUDED FOIL COMPOSITE MATERIAL AND ITS USE IN CARD BODIES - A composite film material usable in a data carrier card body includes a first outer plastic layer, an inner plastic layer and a second outer plastic layer, all the layers together forming a co-extruded composite. The plastic material of the first outer layer is a polyethylene terephthalate glycol copolymer (PETG) or contains a PETG, the plastic material of the inner layer is a thermoplastic copolyester elastomer (TPC) or contains a TPC, and the plastic material of the second outer layer is a PETG or contains a PETG. | 12-27-2012 |
Andreas Braun, Munich DE
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20140151923 | Highly Flexible Foil Composite Material and Its Use in Card Bodies - A foil composite material usable as a layer in a card body of a portable data carrier, that includes one outer plastic layer, one inner plastic layer and one second outer plastic layer. All the layers jointly form a coextruded composite, and the plastic of one outer layer is a thermoplastic polymer or a mixture thereof. The plastic of the one inner layer is a mixture of at least one thermoplastic elastomer and at least one thermoplastic polymer. The plastic of the second outer layer is a thermoplastic polymer or a mixture thereof. | 06-05-2014 |
20140166183 | Coextruded Foil Composite Material and Its Use in Card Bodies - A composite film material usable in a data carrier card body includes a first outer plastic layer, an inner plastic layer and a second outer plastic layer, all the layers together forming a coextruded composite. The plastic material of the first outer layer is a polyethylene terephthalate glycol copolymer (PETG) or contains a PETG, the plastic material of the inner layer is a thermoplastic elastomer (TPC) or contains a TPC, and the plastic material of the second outer layer is a PETG or contains a PETG. | 06-19-2014 |
20150014418 | METHOD FOR PRODUCING A DATA CARRIER THAT PREVENTS MECHANICAL STRAINS BETWEEN CHIP AND DATA CARRIER BODY - This disclosure includes a method for manufacturing a portable data carrier, an inlay for a data carrier, and a data carrier. A data carrier body has a gap for a chip and a chip is incorporated into the gap. In a subsequent step a cover layer is laid on the data carrier body, and the data carrier body and the cover layer are laminated. After the incorporation of the chip and before the lamination, a stabilizing agent is applied into the gap of the core layer, which remains soft or flexible during the lamination and cures or is activated (e.g. by means of UV radiation) only after the lamination, in order for mechanical tensions to be avoided. | 01-15-2015 |
Andreas Braun, Kaltennordheim DE
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20140303439 | VIDEO ENDOSCOPE AND VIDEO ENDOSCOPE SYSTEM - A video endoscope including: a endoscope shaft; a hermetically enclosed video-optical unit arranged in the endoscope shaft, wherein the video-optical unit comprises an enclosure including a substantially cylindrical, hermetically sealed housing having a distally arranged entry window, an objective lens, an image sensor unit, and one or more signal lines, the housing being connected to an outer jacket tube in a rotationally fixed manner, wherein the image sensor unit is mounted in the housing rotatably about a longitudinal axis of the endoscope shaft and comprises at least one image sensor, wherein, in order to rotate the image sensor unit, a magnetic coupling with an outer magnet and an inner magnet operationally connected to the outer magnet in a magnetic manner, is arranged in the area of the distal tip of the endoscope shaft. | 10-09-2014 |
Andreas Braun, Dudenhofen DE
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20140283705 | METHOD FOR CLEANING AN ANILOX PRINTING UNIT - A method for cleaning an anilox printing unit includes a first process step and a second process step immediately following the first process step without any intermediate printing operation. In the first process step, printing ink is supplied to a screen roller from a blade-type ink fountain while an ink applicator roller is in contact with the screen roller and out of contact with a bridge roller of a dampening unit. In the second process step, printing ink is removed from the screen roller and returned into the same blade-type ink fountain while the ink applicator roller is engaged with the screen roller and with the bridge roller. | 09-25-2014 |