WO/2016/149723 LOCK OR WINDOW OR DOOR FITTING||WO||29.09.2016|
||PCT/AT2016/050072||KABA GMBH||WURM, Christoph|
For simultaneous detection of the state of a locking element (12) and the state of the window or door, a lock (11) or fitting is provided, in which at least one coil (13) is arranged on the face plate (14) or on the strike plate, on the respective outer face thereof, wherein the coil (13) is arranged around the opening for the locking element (12). To determine the state of the door and the state of the bolt, an alternating voltage signal is applied to the coil (13), the impedance of the coil is determined, and said impedance is compared to predetermined values. To increase reliability, successive signals having different frequencies can be applied to the coil (13) and the impedance can be determined at said different frequencies and compared to predetermined values. Alternatively, a plurality of coils can be provided, namely a transmission coil (13a) and at least one receiving coil (13b), and the voltage induced in the receiving coil (13b) can be measured when an alternating voltage is supplied to the transmission coil (13a).
WO/2016/149719 METHOD FOR DETERMINING A CHANGE IN BLADE POSITION OF A WIND TURBINE||WO||29.09.2016|
||PCT/AT2016/050048||UPTIME HOLDING GMBH||CHRISTOPHER, Gray|
The invention relates to a method for determining a change in blade position of a wind turbine (1) having a rotor with at least two rotor blades (3a, 3b, 3c). In order to be able to particularly simply determine the change in blade position, it is provided according to the invention that the change in blade position is determined by means of a cyclical drop in the measured power produced by the wind turbine with respect to an expectation value. The invention also relates to a device for carrying out such a method. The invention also relates to a computer program product designed for carrying out such a method and to a computer-readable data storage medium.
WO/2016/149725 INSTALLATION AND METHOD FOR TREATING A PLASTIC MELT||WO||29.09.2016|
||PCT/AT2016/050074||NEXT GENERATION RECYCLINGMASCHINEN GMBH||BEHOUN, Helmut|
The invention relates to an installation (1) and a method for treating a plastic melt, comprising a reactor (2) that has a reactor housing (3) consisting of first and second reactor housing parts (4, 5); a mixing element (12) being arranged in the second reactor housing part (5) and mounted thereupon so as to rotate about a rotational axis (13); and said reactor, together with a discharge device (19) and with at least one weighing device (21) connected between these, being supported on a contact area.
WO/2016/149726 DEVICE FOR CONNECTING PANEL ELEMENTS, A PANEL ARRANGEMENT, AND A METHOD FOR PRODUCING A PANEL ARRANGEMENT||WO||29.09.2016|
||PCT/AT2016/050075||TECHNISCHE UNIVERSITÄT WIEN||REIS, Martin|
The invention relates to a device (5) for connecting panel elements (2) at an angle (8, 9, 10, 11) to one another, comprising at least one dovetail connector (6, 6', 6"; 6a, 6b, 6c, 6d) to be arranged in a corresponding recess (7, 7', 7"; 7a, 7b, 7c, 7d; 21) of abutting end faces (4) of said panel elements (2), the dovetail connector (6) comprising two dovetail connecting pieces (12) that are separate from the panel elements (2) and have depressions (13) at which said dovetail connecting pieces (12) plug one into another. The invention also relates to a panel arrangement (1) and to a method for the production of same.
WO/2016/149716 METHOD FOR COOLING A HOT SYNTHESIS GAS||WO||29.09.2016|
||PCT/AT2016/000029||GUSSING RENEWABLE ENERGY INTERNATIONAL HOLDING GMBH||DICHAND, Michael|
The invention relates to a method for cooling a hot synthesis gas containing at least one condensable component, in particular tar, in which the synthesis gas passes in a multi-stage cooling process sequentially a first cooling stage, a second cooling stage and a third cooling stage and in which the synthesis gas, after an at least partial cooling, is subjected to at least one separation step for separating the at least one condensable component. In said method, the synthesis gas is cooled in the first cooling stage to a temperature above the condensation temperature of the at least one condensable component, and the second cooling stage comprises the return of a partial amount of synthesis gas, which has been branched off after the third cooling stage and the at least one separation step, into the synthesis gas stream.
WO/2016/149718 METHOD FOR DETERMINING A YAW ANGLE ERROR IN A WIND POWERPLANT||WO||29.09.2016|
||PCT/AT2016/050047||UPTIME HOLDING GMBH||GRAY, Christopher|
The invention relates to a method for determining a yaw angle error (αg) in a wind powerplant (1) having a rotor which is mounted in a gondola (14) so as to be rotatable about a rotor axis (2) and which has one or more rotor blades (3a, 3b, 3c), wherein the gondola (14) is rotatable about a yaw axis (12). In order to determine the yaw angle error (αg) in a particularly easy way, there is provision according to the invention that the yaw angle error (αg) is determined on the basis of a cyclic power drop (8) of measured power, which is output by the wind powerplant, compared to an expected value, wherein a period length of the cyclic power drop corresponds at maximum to a duration of one complete revolution of the rotor about the rotor axis (2). The invention also relates to an apparatus for carrying out a method of this kind. In addition, the invention relates to a computer program product, designed to carry out such a method, and to a computer-readable data carrier.
WO/2016/149724 METHOD AND DEVICE FOR MEASURING A LONG PROFILE||WO||29.09.2016|
||PCT/AT2016/050073||NEXTSENSE GMBH||CLEMENS, Gasser|
The invention relates to a method for measuring a long profile (2), in particular one at an increased temperature, wherein a cross-section of the long profile (2) is determined, wherein the long profile (2) is measured using a light section sensor (4) that is moveably mounted on a swivel device (3). The invention also relates to a device for measuring a long profile (2), in particular one at an increased temperature, comprising a measuring device for determining a cross-section of the long profile (2), wherein a swivel device (3) is provided and the measuring device is formed as a light section sensor (4), wherein the light section sensor (4) is moveably mounted on the swivel device (3). The invention further relates to a use of a device (1) of this type.
WO/2016/149717 HEADLIGHT FOR VEHICLES||WO||29.09.2016|
||PCT/AT2016/050046||ZKW GROUP GMBH||KIESLINGER, Dietmar|
A headlight for vehicles having at least one laser light source (1) which can be modulated by an actuating means and a computing unit, the laser light beam (2) of which laser light source (1) is deflected in a scanning fashion onto at least one light conversion means (7) using a beam deflection means (3) actuated by a laser deflection controller, and having an imaging system (10) for projecting the light image (8), generated by the light conversion means, as a light image (11) onto the carriageway, wherein the at least one light conversion means (7) is embodied as an optical resonator, the modulated scanning laser light beam (6) supplies, as a primary laser light beam, the pumping energy with the pumping wavelength, and the resonator contains a conversion material with at least one fluorescent pigment and emits an output beam (9) at an output surface (7a), which output beam (9) delivers the light image (11) onto the carriageway using the imaging system (10).
WO/2016/149728 MULTI-STAGE TURBOCHARGER||WO||29.09.2016|
||PCT/AT2016/050077||AVL LIST GMBH||PREVEDEL, Kurt|
The invention relates to a multi-stage turbocharger (1) comprising an exhaust gas turbine (3) with at least one turbine rotor, and a compressor (2) with a first compressor stage (4) having a first compressor rotor portion (6a) and with a second compressor stage (5) having a second compressor rotor portion (6b). The turbine rotor and the second (6b) and the first compressor rotor portion (6a) are rotatably mounted on a common shaft about an axis of rotation (1a). The first compressor stage (4) comprises, upstream of the first compressor rotor portion (6a), an axial compressor inlet pipe (8) for connection to a fresh air line and, downstream of the first compressor rotor portion (6a), at least two first spiral channel arrangements (10a, 10b, 10c, 10d, 10e), said spiral channel arrangements transitioning into at least two spiral channel arrangements (11, 11') of the second compressor stage (5) which extend upstream of the second compressor rotor portion (6b). In order to reduce thermal stresses, a first coolant arrangement (13), which extends at least between the first spiral channel arrangements (10a, 10b, 10c, 10d, 10e), and/or a second coolant arrangement (14), which extends between the second spiral channel arrangements (11, 11'), is provided.
WO/2016/149720 ARRANGEMENT FOR DETERMINING THE MOISTURE OF AN OBJECT||WO||29.09.2016|
||PCT/AT2016/050066||AIT AUSTRIAN INSTITUTE OF TECHNOLOGY GMBH||OBERLEITNER, Andreas|
The invention relates to an arrangement (2) for determining the moisture of an object (1), in particular the moisture of human skin, comprising an electrically insulating carrier layer (21) onto which the following units are applied: - at least two electrodes (22a, 22b), in particular interdigital electrodes, which are arranged on a first face of the carrier layer (21), - a digital capacitance measuring device (23), to which the electrodes (22a, 22b) are connected, an NFC transponder (24) which comprises an antenna (25) and to which the measurement results of the capacitance measuring device (23) are supplied in order to be forwarded wirelessly via the antenna (25), wherein the NFC transponder (24) and the capacitance measuring device (23) are arranged in the same chip in particular, and - a shielding (26), which lies on the carrier layer (21) face opposite the first face and which is connected to the system ground of the capacitance measuring device (23) in particular.