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Results 1-10 of 9,464 for Criteria: Office(s):all Language:EN Stemming: true maximize
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NoCtrTitlePubDateInt.ClassAppl.NoApplicantInventor
1. WOWO/2014/186811 - GAS FLOW DIVERTER27.11.2014
F01D 25/30
PCT/AT2014/000064COMPACT POWER PLANT PRODUCTS GMBHPROCHAZKA, Peter Alexander
Disclosed is a gas flow diverter (1), in particular for the gas flow of an exhaust gas line of a gas turbine, comprising a flap (4), which can be pivoted about an axis of rotation (3) between a first and a second closing position by means of a drive motor (2). The gas flow diverter (1) has at least one counter weight (7), which is arranged on a lever arm (6) that is rotatably mounted about a pivot axis (10), in order to exert torque that acts upon the flap (4) about the axis of rotation (3). The flap (4) and the counter weight (7) jointly generate torque in the respective closed positions about the axis of rotation (3) of the flap (4) in the direction of the other respective closing positions due to the intrinsic weight of the flap (4) and the intrinsic weight of the counter weight (7). A common stable equilibrium point is located in an intermediate position between the two closing positions of the flap (4) due to the intrinsic weight of the flap (4) and the intrinsic weight of the counter weight (7).

2. WOWO/2014/186814 - METHOD FOR INTEGRATION OF CALCULATIONS HAVING A VARIABLE RUNNING TIME INTO A TIME-CONTROLLED ARCHITECTURE27.11.2014
G06F 9/48
PCT/AT2014/050120FTS COMPUTERTECHNIK GMBHPOLEDNA, Stefan
The invention relates to a method for integration of calculations having a variable running time into a distributed time-controlled real-time computer architecture, which real-time computer architecture consists of a plurality of computing nodes, wherein a global time having known precision is available to the computing nodes, wherein at least part of the computing nodes is equipped with sensor systems, in particular different sensor systems for observation of the environment, and wherein the computing nodes exchange messages via a communication system, wherein at the start of each cyclical frame Fi having the duration d the computing nodes collect raw input data by means of a sensor system, wherein the start times of the frame Fi are deduced from the progress of the global time, and wherein the pre-processing of the raw input data is carried out by means of algorithms, the running times of which depend upon the input data, and wherein the value of the ageing index AI=0 is assigned to a pre-processing result which is produced within the frame Fi at the start of which the input data were collected, and wherein the value of the ageing index AI=1 is assigned to a pre-processing result which is produced within the frame F following the frame in which the input data were collected, and wherein the value AI=n is assigned to a pre-processing result which is produced in the nth frame after the data collection, and wherein the ageing indices of the pre-processing results are taken into consideration in the computing nodes which carry out the fusion of the pre-processing results of the sensor system.

3. WOWO/2014/186812 - ROTATING TOOL WITH AN INTERNAL COOLANT AND/OR LUBRICANT SUPPLY LINE27.11.2014
B23C 5/28
PCT/AT2014/000112CERATIZIT AUSTRIASCHLEINKOFER, Uwe
A rotating tool (1) is produced for machining, which comprises: a base body (2) with a first end (21) to be connected to a receptacle of a machining machine and with a second end (22) that has a plurality of seats (3) for securing replaceable cutting inserts (4); a coolant channel (6) for supplying coolant and/or lubricant originating from the first end (21); a funnel-shaped recess (7), which proceeds from a front face of the base body (2), is disposed on the second end (22), increasingly tapers in the shape of a funnel with increasing distance from the second end (22) towards the first end (21), and issues into the coolant channel (6); and a cover (10), which frontally shuts the funnel-shaped recess (7), except for a plurality of coolant outlet regions (8) associated with the seats (3), and which has a projection (12) that protrudes into the funnel-shaped recess (7).

4. WOWO/2014/186813 - CONTACTING OR CONNECTING TERMINAL27.11.2014
H01R 4/48
PCT/AT2014/000114TRIDONIC CONNECTION TECHNOLOGY GMBH & CO KGMOSER, Peter
Disclosed is a contacting or connecting terminal (1) for electrically connecting at least one conductor (26) and at least one electrical contact body, comprising a housing (2) in which the contact body is arranged, wherein the electrical contact body comprises a conductor terminal contact for the at least one electric conductor (26), wherein the electrical contact body has at least one stamped part (5), wherein the stamped part (5) has at least one first passage (34) and a second passage (35), wherein the electrical contact body has at least one spring element (6) for the conductor terminal contact, wherein the spring element (6) is at least partially arranged (as well as being held and secured) in the second passage (35) of the stamped part (5), wherein the conductor (26) is guided through the first passage (34) in order to contact the contact body, wherein the contacting or connecting terminal (1) has a release lever (12), which allows the spring element (6) to be actuated, wherein actuation of the spring element (6) allows the conductor terminal contact to open.

5. WOWO/2014/186815 - METHOD FOR CONTROLLING A BATTERY-POWERED WELDING DEVICE, AND BATTERY-POWERED WELDING DEVICE27.11.2014
H02M 3/158
PCT/AT2014/050121FRONIUS INTERNATIONAL GMBHSTARZENGRUBER, Andreas
The invention relates to a method for controlling a battery-powered welding device (1) and to a battery-powered welding device (1) comprising a battery (2) having a battery voltage (Uin) and a battery current (Iin) and comprising a welding controller (3) containing a boost converter (4) having at least a switch (5) and a buck converter (6) having at least one switch (7) for regulating a welding current (Iout) and a welding voltage (Uout) supplied to a welding torch (11). In order to achieve a high level of efficiency and dynamics and optimal welding characteristics a switch (8) for bypassing the boost converter (4) is provided, which switch(8) is connected to a switch controller (9), which switch controller (9) is designed to close the switch (8) if the intermediate circuit voltage (Uzw) between the boost converter (4) and the buck converter (6) is less than or equal to the battery voltage (Uin), and to open the switch (8) if the boost converter (4) is activated.

6. WOWO/2014/183139 - METHOD AND DEVICE FOR STARTING A DRIVE TRAIN20.11.2014
F16H 3/72
PCT/AT2014/000002SET SUSTAINABLE ENERGYERJAVEC, Miha
In a method and a drive for starting a drive train, with a drive shaft (2), a drive motor (4) connected to an electrical grid (12) and with a differential gearing (3) with three drives and outputs, wherein one output is connected to the drive shaft (2), a first drive is connected to the drive motor (4) and a second drive is connected to a differential drive (5), the drive motor (4) is started from a rotational speed of zero or approximately zero while an external braking torque acts on the drive shaft (2), and the second drive is braked in an acceleration phase of the drive shaft (2).

7. WOWO/2014/183138 - METHOD FOR OPERATING A DRIVE TRAIN, AND DRIVE TRAIN20.11.2014
F16H 3/72
PCT/AT2013/000218HEHENBERGER, GeraldHEHENBERGER, Gerald
Disclosed is a method for operating a drive train having a drive shaft (2), a prime mover (4) connected to an electrical grid (12), and a differential gearing (3) having a total of three input and output elements, an output element being connected to the drive shaft (2), one input element to the prime mover (4) and a second input element to a differential drive (5). According to said method a work machine (1) is connected to the drive shaft (2) and a portion of the performance of the work machine (1) is dissipated by a choke (22) or diverted by a valve, a flap or a bypass (32).

8. WOWO/2014/183140 - DRIVE DEVICE FOR A MOVABLE FURNITURE PART20.11.2014
A47B 88/04
PCT/AT2014/000061JULIUS BLUM GMBHBRUNNMAYR, Harald
Drive device (1) for a movable furniture part (2), having a lockable push-out device (3) for pushing the movable furniture part (2) out of a closed position (SS) into an open position (OS), wherein the push-out device (3) can be unlocked by virtue of the movable furniture part (2) being pushed into an excess-pressure position (ÜS) located behind the closed position (SS), as seen in the closing direction (SR), wherein an excess-pressure region (Ü) is located between the closed position (SS) and an excess-pressure position (ÜS), and having a damping device (4) for damping the closing movement of the movable furniture part (2), wherein the damping device (4) has displacement-dependent damping, wherein the damping force (D) in a main damping region (H), located in front of the closed position (SS) - as seen in the opening direction (OR) - , is higher than in the excess-pressure region (Ü).

9. WOWO/2014/183141 - ATTACHMENT ELEMENT20.11.2014
F16B 13/02
PCT/AT2014/000094SCHNABL STECKTECHNIK GMBHBRUCKBAUER, Wolfgang
In an attachment element (1) for fixing an object (10) to a wall (4), wherein a shaft (2) of the attachment element (1) can be introduced into a hole (3) in the wall (4) and can be fixed to the inner surface of the hole (3), wherein the object (10) can be fixed to a holder (9) which is situated outside the hole (3) and can be connected to the shaft, it is provided that the shaft (2) has a substantially plate-like design and is formed, towards the interior of the hole, with two projections (5) oriented oppositely to one another which project from the shaft (2) counter to the direction of insertion (6) of the shaft (2) into the hole (3), are prestressed in the direction of the inner surface of the hole (3) and of which the projecting lengths, prior to insertion into the hole (3), exceed a clear width (d) of the inner surface of the hole (3), with the result that simple and secure fixing can be achieved, in particular, by wedging the projections (5) in the hole (3).

10. WOWO/2014/183142 - METHOD FOR OPERATING A DRIVE TRAIN, AND DRIVE TRAIN20.11.2014
F16H 3/72
PCT/AT2014/000113HEHENBERGER, GeraldHEHENBERGER, Gerald
Disclosed is a method for operating a drive train having a drive shaft (2), an electric prime mover (4) connected to an electrical grid (12), and a differential gearing (3) having a total of three input and output elements, an output element being connected to the drive shaft (2), one input element to the prime mover (4) and a second input element to a differential drive (5). According to said method the differential drive (5) is motor-operated only, whereas the prime mover (4) is motor- or generator-operated, the differential drive (5) being coupled to the electrical grid (12) by way of a rectifier (19).


Results 1-10 of 9,464 for Criteria: Office(s):all Language:EN Stemming: true
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