Ammer
Jarret Ammer, New Hampton, NY US
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20160131345 | PORTABLE ILLUMINATION DEVICE - The present disclosure teaches and describes an illumination device that may be coupled to a variety of objects to help provide lighting to an area. The illumination device has at least two sections that are connected by a hinge and rotate around that hinge. The illumination device further has adapters to increase the grip and hold of the device. The device may be lockable or use tension to hold it in a particular configuration. The illumination device has a number of light emitting diodes placed on the various surfaces of the device. The light emitting diodes provide lighting to assist individuals in performing tasks in dark or poorly lit areas. The lighting is controlled by a power switch which may also change the intensity of the light. | 05-12-2016 |
Michael Ammer, Wels AT
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20120247542 | METHOD AND DEVICE FOR RECOGNIZING FAULTS IN A PHOTOVOLTAIC SYSTEM - The invention relates to a method and a device for recognizing faults in a photovoltaic system ( | 10-04-2012 |
Richard Ammer, Grenoble FR
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20110312512 | CULTURE SYSTEM AND METHOD FOR IMMUNOGENICITY AND IMMUNOFUNCTION TESTING IN VITRO - The invention provides a culture device comprising a plurality of culture units, wherein each unit comprises a culture chamber, an inlet port for liquid supply of the culture and an outlet port for discharging liquid from the unit, wherein the inlet port is in fluid communication with the culture chamber and the culture chamber is in fluid communication with the outlet port for allowing a liquid flow through the culture chamber. The culture device is particularly suitable for testing immune cells and immunofunction in vitro. Aspects of the invention include a culture device and associated methods for cultivating immune cells and an in vitro method of analysing the effect of a test compound on immune cells. | 12-22-2011 |
Thomas Ammer, Widnau CH
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20100284651 | FIBER-OPTIC PIN-AND-SOCKET CONNECTOR HAVING A BEAM EXPANSION DEVICE - The invention relates to an optical pin-and-socket connector for the detachable connection of a plurality of optical cores ( | 11-11-2010 |
20140047724 | GRADE MECHANISM FOR TILTABLE LASER OPTICAL SYSTEMS - Rotating construction laser device with a grade mechanism, including a code element and a position detection device for providing and detecting a feedback position information, and a leveling mechanism, which supports a lens barrel tiltably and is designed to tilt the lens barrel in order to have the level position detected by a tilt sensor and therewith to level the grade arm, the code element or the position detection device is arranged directly on the grade arm, and the feedback position information directly depends on the position of a reference point on the grade arm, the reference point being defined by the code element or the position detection device, respectively, thus allowing to deduce a position of the grade arm directly from the feedback position information, and/or to calculate a tilting angle of the grade arm with respect to the lens barrel directly from the feedback position information. | 02-20-2014 |
20140283399 | CONSTRUCTION LASER SYSTEM WITH AN AT LEAST PARTIALLY AUTOMATICALLY RUNNING RECALIBRATION FUNCTIONALITY FOR A BEAM LEVELLING FUNCTIONALITY - A construction laser system includes a rotating laser with self-leveling and a laser receiver. The system performs a self-leveling recalibration process by which-the self-leveling is checked automatically for quality and the related calibration data is updated automatically. A sequence of N calibration measurements is defined, where N is greater than or equal to three. The calibration measurements are obtained by the rotating laser and the laser receiver with a respective azimuthal alignment of the stand while the position of the laser receiver remains unchanged. As part of each calibration measurement, one output signal dependent on the laser beam impingement position is detected. The respective output signals or specified impingement positions are evaluated in pairs correlated with the respective I-th azimuthal alignments. The quality of the beam leveling functionality is thereby checked. If the requirements are not met, the previously stored calibration data can then be updated automatically. | 09-25-2014 |