||WO||WO/2015/006789 - DAMPER FOR MOVABLE FURNITURE PARTS||22.01.2015||
||PCT/AT2014/000127||JULIUS BLUM GMBH||KRAMMER, Bernhard|
Damper (10) for movable furniture parts (3), comprising a damper housing (11), a fluid chamber (14) formed in the damper housing (11), an elongated drive mechanism (12) which is movably, in particular rotatably, mounted in the damper housing (11) and extends in the axial direction (x), and a sealing element (30) arranged between the damper housing (11) and the drive mechanism (12). The damper is characterized by a spacer element (40) which delimits a movement of the sealing element (30) in the axial direction (x) and prevents direct contact between the sealing element (30) and the drive mechanism (12) in the axial direction (x).
||WO||WO/2015/006792 - METHOD FOR REMOVING ARTIFACTS FROM A BIOSIGNAL||22.01.2015||
||PCT/AT2014/050139||AIT AUSTRIAN INSTITUTE OF TECHNOLOGY GMBH||HARTMANN, Manfred|
The invention relates to a method for removing artifacts from a biosignal, in particular an EEG signal, comprising a number of individual signals recorded by means of in each case two measurement electrodes within a predefined time interval, wherein beforehand a signal discretization, in particular a scan or a discrete transformation, is predefined, by means of which an individual signal recorded in this way can be transformed into a signal vector, wherein, for each of the individual signals, a number of signal vectors (e1,..., ek) characterizing the respective individual signal is determined in each case by means of the signal discretization, and the individual signal vectors (e1,..., ek) are combined to form a measurement signal vector e, wherein beforehand a covariance matrix Cej is predefined which indicates or estimates the correlation of the individual components of a measurement signal vector e established on the basis of interference-free signals, wherein the following improvement steps (B) - (F) and the loop control step are subsequently performed iteratively, where, starting from the respectively present covariance matrix Ca of the artifact vector a, a covariance matrix Cea is determined which shows the covariance of the components on the measurement signal vector e that derive from the artifact vector a, the covariance matrix Ce for the entire measurement signal vector e is determined by summation of the covariance matrices Cej and Cea, and, if appropriate, further additive covariance matrices, the cross covariance matrix Ca,e is determined and established on the basis of the instant covariance matrix Ca and assuming the non-correlation of the covariance matrix Ca and of the covariance matrix Cej, an approximation value for the artifact vector a is determined as follows, â=Ca,eCe -1e, the covariance matrix Ca is determined anew or updated on the basis of the value of the artifact vector a, and a cleaned cerebral measurement value vector êj is determined according to the following rule êj = CejCe -1e.
||WO||WO/2015/006793 - DYNAMIC MEANS OF ILLUMINATING A FIELD OF VISION||22.01.2015||
||PCT/AT2014/050157||ZIZALA LICHTSYSTEME GMBH||MAYER, Peter|
A method for generating an adaptive light distribution, generated in a vehicle (2), which can be steered by a person (3) driving the vehicle, of at least one vehicle headlight (SW1, SW2), and wherein the at least one vehicle headlight (SW1, SW2) has at least one adaptive lighting means (BM1, BM2), in which at least one camera (5) detects the viewing direction (BR) of the person driving the vehicle, at least one computing unit (6) evaluates the information obtained in this way and generates control signals on the basis thereof, and the control signals are transmitted to the at least one vehicle headlight (SW1, SW2) with the at least one adaptive lighting means (BM1, BM2), and wherein the at least one adaptive lighting means (BM1, BM2) is controlled in accordance with the control signals for the targeted illumination of a region (BR1) located in the viewing direction (BR) of the person (3) driving the vehicle.
||WO||WO/2015/006794 - MOUNTING DEVICE FOR A SKI BINDING AND SKI BINDING||22.01.2015||
||PCT/AT2014/050159||FISCHER SPORTS GMBH||RESCH, Franz, Josef|
The invention relates to a mounting device (4) for a ski binding (2) for connecting a shoe (3) to a ski (1), comprising a front mounting unit (5) for mounting between the ski (1) and a front retaining apparatus (6) of the ski binding (2) and comprising a rear mounting unit (7) for mounting between the ski (1) and a rear retaining apparatus (8) of the ski binding (2). The mounting device is characterized in that a load application element (13) for applying a compressive force to the ski (1) is provided between the front mounting unit (5) and the rear mounting unit (7). The load application element (13) is connected to a front force transmission element (14) extended in a longitudinal direction of the ski (1) and/or to a rear force transmission element (15) extended in the longitudinal direction of the ski (1). Between the ski tip (9) and the front mounting unit (5), the front force transmission element (14) has a front force-receiving part (16) that can be rigidly connected to the ski (1), and/or between the rear mounting unit (7) and the ski end (10), the rear force transmission element (15) has a rear force-receiving part (18) that can be rigidly connected to the ski (1). The front force transmission element (14) and/or the rear force transmission element (15) has a respective force output part (17, 19) for transmitting force to the load application unit (13) between the front mounting unit (5) and the rear mounting unit (7). The invention further relates to a ski binding (2) having such a mounting device (4).
||WO||WO/2015/006791 - COMBINING DEPTH-MAPS FROM DIFFERENT ACQUISITION METHODS||22.01.2015||
||PCT/AT2014/000143||A.TRON3D GMBH||BLASSNIG, Andreas|
A method and system capturing three-dimensional information of a scene on a structure includes operating a light pattern projector to project a known light pattern onto the scene; using at least two cameras, taking images of the scene, the images being two-dimensional images taken chronologically synchronous; using first and second images, and the known position and orientation of the cameras with respect to each other, extracting a first depth map of the scene; using the first image, the known light pattern, and the known position and orientation of the first camera and the light pattern projector with respect to each other, extracting a second depth map of the scene; and using the extracted first depth map and the extracted second depth map of the scene together to make a 3D measurement of the scene.
||WO||WO/2015/006790 - METHOD OF CAPTURING THREE-DIMENSIONAL (3D) INFORMATION ON A STRUCTURE||22.01.2015||
||PCT/AT2014/000142||A.TRON3D GMBH||BLASSNIG, Andreas|
A method of capturing three-dimensional (3D) information on a structure includes using at least one physical camera located at a first position to obtain a first image set containing at least one image of the structure, the first image set comprising one or more images; reconstructing 3D information from the first image set; obtaining 3D information from a virtual camera out of an existing global model of the structure; determining a correspondences between the obtained 3D information and the reconstructed 3D information; determining camera motion between the obtained 3D information and the reconstructed 3D information; and updating the existing global model by entering the obtained 3D information using the determined camera motion.
||WO||WO/2015/003198 - SPREADER TIP FOR A RESCUE TOOL||15.01.2015||
||PCT/AT2014/050155||WEBER-HYDRAULIK GMBH||HERWIG, Peter|
The invention relates to a spreader tip (32) for replaceable attachment to two pincer-like co-operating spreader arms (4) of a rescue tool (1). Mounted on a working face (35) of the spreader tip (32) is at least one insert element (39) which protrudes from and has different material properties in comparison with the spreader tip (32).
||WO||WO/2015/003196 - DEVICE FOR REPLACING ROLLER SETS||15.01.2015||
||PCT/AT2014/000133||INNOVA PATENT GMBH||SUTTER, Josef|
The invention relates to a device for replacing roller sets (15) on pylons (13) of cable cars, which device comprises a replacing vehicle (10) which can be moved along the cable (14) of the cable car and at least two winches (3, 4) having cables (8, 9) by which a roller set (15) to be replaced can be lowered and a new roller set (15) can be raised. The replacing vehicle (10) comprises at least two interconnected vehicles (1, 2, 6, 7) which by way of clamps (16 to 19) are connected to the cable (14).
||WO||WO/2015/003197 - COMBUSTION FURNACE HAVING A LIFTING MECHANISM FOR CONVEYING THE FUEL||15.01.2015||
||PCT/AT2014/050149||LUMPER, Josef||LUMPER, Josef|
The invention relates to a combustion furnace for solid fuels, particularly a chimney stove, having a supply chamber for the fuel underneath the combustion chamber (1). The supply chamber is constructed as a shaft (4), in which the height of a grating (3), as a platform for the fuel supply, can be adjusted. To this end, a lifting mechanism is provided, which can be operated directly by means of one or more spindles or toothed racks and a crank (6) or indirectly by a motor. The lifting speed, i.e. the replenishment of fuel material, can be controlled on the basis of the temperature, a temperature sensor (12) for the exhaust gas temperature being provided next to the flue (2).
||WO||WO/2015/003199 - CLEANING DEVICE FOR A BENDING MACHINE||15.01.2015||
||PCT/AT2014/050156||TRUMPF MASCHINEN AUSTRIA GMBH & CO. KG.||DENKMEIER, Thomas|
The invention relates to a processing system (1) comprising a bending press (2), particularly for bending sheet-metal (3), said bending press having a stationary pressing bar (4) and a pressing bar (5) movable relative thereto, on which pressing bars (4, 5) a tool receptacle (6) is mounted or integrated, and further comprising at least one bending tool (7) having a fastening section for securing in the tool receptacle (6). Additionally at least one manipulation device (9) for handling bending tools (7) and/or metal sheets (3), or a rear stop device (8) for support in the positioning of metal sheets (3) are provided. Additionally a cleaning unit (12) that consists of a main body, on which at least one elastic stripping element is mounted, is provided. The bending tool (7) can be moved by the manipulation device (9) to the cleaning unit (12) and can be displaced along the elastic stripping element, such that at least a part of the fastening section is in contact with the elastic stripping element during the displacement.