Patent application number | Description | Published |
20160003347 | HYDRAULIC SYSTEM FOR A DUAL-CLUTCH TRANSMISSION - A dual-clutch transmission includes a hydraulic system for actuating hydraulic cylinders of the clutches and the shifting elements. The hydraulic system has a pressure accumulator providing an accumulated pressure in the hydraulic system, and control valves actuatable by a control unit and respectively arranged in pressure lines routed to the hydraulic cylinders of the clutches to adjust the hydraulic pressure applied to the clutches. Pressure sensors associated with the control unit detect the hydraulic pressure. The control unit activates a pressure reduction mode when detecting a long vehicle downtime, and the accumulated pressure can be reduced in the pressure reduction mode, in which the control unit continuously opens the control valve associated with one clutch. Additionally, the pressure sensor associated with the first clutch together with the control unit is integrated into a control circuit in which the first pressure sensor assumes the detection of the actual accumulated pressure value. | 01-07-2016 |
20160091086 | METHOD FOR OPERATING A TRANSMISSION DEVICE AND CORRESPONDING TRANSMISSION DEVICE - In a method for operating a transmission device, a pressure test is carried out when switching from a standby mode to a power saving mode. When executing the pressure test the gear selector valves of the gear selectors of the transmission device are activated to assume their neutral position, and a shifting valve is activated to assume an operating position in which a flow connection between a common feed line for the gear selectors and a pressure source is cut. Subsequently, the gear selector valve of at least one of the gear selectors is activated to assume a shift position, and a position of the gear selector piston of the at least one gear selector is determined over a specific time period. The presence of a malfunction of the shifting valve is recognized when the position of the gear selector piston changes during the specific time period. | 03-31-2016 |
20160107697 | DEVICE FOR GENERATING AN IMPULSE ACTING ON A VEHICLE IN A TRANSVERSE DIRECTION OF THE VEHICLE - A device for generating an impulse acting on a vehicle in a transverse direction of the vehicle, resulting from energy released in an offset impact of the vehicle against an obstacle, includes a compression-resistant beam extending in the transverse direction, a support member for attaching the beam in a rest position to a subframe or a body structure of the vehicle, an activator for moving the beam substantially in the transverse direction in the event of an accident, and a coupling device which cooperates is operatively connected, at least during movement of the beam in the transverse direction, with a drive unit or aggregate and deflects the drive unit relative to the vehicle's body in the transverse direction at least in the region of the operative connection. | 04-21-2016 |
Patent application number | Description | Published |
20140367970 | POWER HARVESTING BEARING CONFIGURATION - A power generating bearing assembly ( | 12-18-2014 |
20150345563 | BEARING POWER GENERATING CONFIGURATION - A power generating bearing assembly comprising a power generating subassembly integrated into a bearing. The power generating subassembly utilizes the relative motion between a bearing inner ring and a bearing outer ring of the bearing to generate electrical power. A seal lip comprises a seal lip inner ring lip engaging segment which slideably engages with an inner ring sealing lip surface of the offset bearing. A magnetically polarized material is supported by a magnetically polarized material-supporting segment of the bearing assembly seal lip. Engagement between the inner ring lip engaging segment and the lip surface retains radial registration between the magnetically polarized material and a generator core. During operation, relative motion between the magnetically polarized material and a generator core caused by rotation of the bearing rings generates an electrical output. | 12-03-2015 |
20150358695 | MEASUREMENT SYSTEM AND METHOD FOR MEASURING A QUANTITY - A measurement system comprises a measurement unit, a transmitter, an autarkic power unit and a control unit. The measurement unit measures a quantity repeatedly and the transmitter connects the measurement system to a network and transmits data to the network based on the measurements of the measurement unit. Further, the autarkic power unit supplies electrical energy to the measurement unit, the transmitter and the control unit. Additionally, the control unit controls the measurement of the quantity and the transmission of data dynamically based on a currently available amount of energy provided by the power unit. Further, the control unit stops measurements by the measurement unit and keeps the transmitter connected to the network, if the currently available amount of energy is below a predefined energy limit indicating that the currently available amount of energy is too low for taking measurements and for keeping connected to the network. | 12-10-2015 |
20150372626 | VOLTAGE ADJUSTMENT FOR AN ENERGY HARVESTER - An arrangement for voltage adjustment for an energy harvester comprises: a first input terminal and a second input terminal adapted to receive a AC voltage therebetween, the AC voltage having an input magnitude, the AC voltage being supplied at an inductance; a switch module connected between the first input terminal and the second input terminal for controllably connecting the first input terminal with the second input terminal; and a controller adapted to receive an input signal indicative of the input magnitude of the voltage, and to control the switch module to operate selectively in a first mode or a second mode depending on the input magnitude, in order to adjust the voltage to have an output magnitude in a predetermined range. | 12-24-2015 |
Patent application number | Description | Published |
20140333070 | POWER HARVESTING BEARING CONFIGURATION - A power generating bearing assembly comprising a bearing retained by a bearing housing is provided. The bearing housing includes a bearing cooling passage system comprising at least one integrated liquid cooling passage is integrated within the bearing housing. A turbine assembly is inserted within the integrated liquid cooling passage, wherein fluid flowing within the integrated liquid cooling passage causes a turbine blade subassembly within the turbine assembly to rotate. The rotation of the turbine blade subassembly rotates an electrical power generator to create electrical power. The turbine assembly can be integrated into any existing bearing assembly comprising a bearing cooling passage system. It is preferred to seat the turbine assembly within a cooling system port of the bearing cooling passage system. | 11-13-2014 |
20140348453 | THERMO-ELECTRIC POWER HARVESTING BEARING CONFIGURATION - A power generating bearing assembly ( | 11-27-2014 |
20140348638 | POWER HARVESTING BEARING CONFIGURATION - A power generating bearing assembly providing a bearing retained by a bearing housing. The bearing housing includes a bearing cooling passage system having at least one integrated liquid cooling passage integrated within the bearing housing. A turbine receiving bore is formed through the bearing housing, penetrating the integrated liquid cooling segment. A turbine assembly is inserted into the turbine receiving bore, positioning a turbine blade subassembly of the turbine assembly within the integrated liquid cooling passage, wherein fluid flowing within the integrated liquid cooling passage causes the blade subassembly to rotate. The rotation of the blade subassembly rotates an electric power generator to create electric power. The turbine assembly can include an electro-magnetic subassembly mounting plate, wherein the turbine subassembly is located on an interior surface of the mounting plate and at least a portion of the power generating portion located on an exterior portion of the mounting plate. | 11-27-2014 |
20140360548 | THERMO-ELECTRIC POWER HARVESTING BEARING CONFIGURATION - A power generating bearing assembly provides a bearing subassembly retained by a bearing housing. During operation, friction and other factors increase a temperature of the bearing assembly. The bearing housing can optionally include a bearing cooling passage system comprising at least one liquid cooling passage which would be integrated within the bearing housing. The liquid cooling passage would be routed proximate the bearing subassembly to remove heat therefrom. A Thermo-Electric Generator (TEG) is thermally coupled to an exterior surface of the housing at a location identified for collecting heat generated during operation. The Thermo-Electric Generator (TEG) utilizes a temperature difference between the housing and the ambient air to generated electric power. The power can be used to operate electrically powered devices, such as condition sensors, communication devices, and the like. | 12-11-2014 |
20140376849 | THERMO-ELECTRIC POWER HARVESTING BEARING CONFIGURATION - A power generating bearing assembly ( | 12-25-2014 |
20150083179 | THERMO-ELECTRIC POWER HARVESTING BEARING CONFIGURATION - A power generating bearing assembly ( | 03-26-2015 |
20150176655 | BEARING POWER GENERATING CONFIGURATION - A power generating bearing assembly comprising a power generating subassembly integrated into a bearing. The power generating subassembly utilizes the relative motion between a bearing inner ring and a bearing outer ring of the bearing to generate electrical power. A sealing system is attached to one of the bearings. The power generating subassembly includes an electrical generator in operational engagement with a magnetically polarized material. The electrical generator is attached to the non-sealing carrying bearing. The magnetically polarized material is integrated into a supported member, which is a unitary section of the seal that extends axially from an end surface of the bearing rings. The relative motion between the rings engages the electrical generator and the magnetically polarized material causing a generator core of the electrical generator to create an electrical current. | 06-25-2015 |
20150267755 | BEARING POWER GENERATING CONFIGURATION - A power generating bearing assembly comprising a power generating subassembly integrated into a bearing. The power generating subassembly utilizes the relative motion between a bearing inner ring and a bearing outer ring of the bearing to generate electrical power. A sealing system is attached to one of the bearings. The power generating subassembly includes an electrical generator in operational engagement with a magnetically polarized material. The electrical generator is attached to the non-sealing carrying bearing. The magnetically polarized material can be attached directly to the sealing system or carried by a magnetically polarized material mount ring. The relative motion between the rings engages the electrical generator and the magnetically polarized material causing a generator core of the electrical generator to create an electrical current. | 09-24-2015 |
Patent application number | Description | Published |
20120068126 | POST-SYSTHESIS MODIFICATION OF COLLOIDAL NANOCRYSTALS - Methods for precise and predictable modification of previously synthesized nanocrystals. The methods rely on the solubility behavior of crystalline materials to provide for controlled reversal of the nanocrystal growth process (i.e., dissolution). A method for post-synthesis modification of colloidal nanocrystals includes (1) providing a first nanocrystal having a first size and a first shape, (2) forming a reaction mixture that includes the nanocrystal, at least one ligand capable of binding to at least one component of the nanocrystal, at least one solvent, and an inert gas atmosphere, and (3) modifying the size and/or shape of the nanocrystal in the reaction mixture for a period of time at a temperature in a range from about 100 0C to about 240 0C so as to produce at least a second nanocrystal having a second size and/or a second shape. | 03-22-2012 |
20150332801 | MODIFICATION OF COLLOIDAL NANOCRYSTALS - Methods for precise and predictable modification of previously synthesized nanocrystals. The methods rely on the solubility behavior of crystalline materials to provide for controlled reversal of the nanocrystal growth process (i.e., dissolution). A method for post-synthesis modification of colloidal nanocrystals includes (1) providing a first nanocrystal having a first size and a first shape, (2) forming a reaction mixture that includes the nanocrystal, at least one ligand capable of binding to at least one component of the nanocrystal, at least one solvent, and an inert gas atmosphere, and (3) modifying the size and/or shape of the nanocrystal in the reaction mixture for a period of time at a temperature in a range from about 100° C. to about 240° C. so as to produce at least a second nanocrystal having a second size and/or a second shape. | 11-19-2015 |
Patent application number | Description | Published |
20110007386 | TRANSMISSION MICROSCOPY USING LIGHT EMITTED FROM NANOPARTICLES - Systems and methods for performing transmission microscopy on a sample material are disclosed. The sample material is placed on a metal nanoparticle substrate. High intensity light, such as an infrared laser, is focused on the nanoparticle substrate, thereby exciting the silver nanoparticles. The excited nanoparticles emit intensely focused, spectrally broad white light that is able to pass through the sample material without significant scattering even when the sample material is highly diffuse. The emitted light that passes through the sample material is detected and used to generate images and characterize features of the sample material, including the internal structural composition of the sample material. | 01-13-2011 |
20110214488 | COLLOIDAL-CRYSTAL QUANTUM DOTS AS TRACERS IN UNDERGROUND FORMATIONS - Colloidal-crystal quantum dots as tracers are disclosed. According to one embodiment, a method comprises injecting a solution of quantum dots into a subterranean formation, and monitoring a flow of the quantum dots from the subterranean formation to determine a property of the subterranean formation. | 09-08-2011 |
20120090533 | LOW-TEMPERATURE SYNTHESIS OF COLLOIDAL NANOCRYSTALS - Low-temperature organometallic nucleation and crystallization-based synthesis methods for the fabrication of semiconductor and metal colloidal nanocrystals with narrow size distributions and tunable, size- and shape-dependent electronic and optical properties. Methods include (1) forming a reaction mixture in a reaction vessel under an inert atmosphere that includes at least one solvent, a cationic precursor, an anionic precursor, and at least a first surface stabilizing ligand while stirring at a temperature in a range from about 50° C. to about 130° C. and (2) growing nanocrystals in the reaction mixture for a period of time while maintaining the temperature, the stirring, and the inert-gas atmosphere. | 04-19-2012 |
20140162022 | STRUCTURAL COATINGS WITH DEWETTING AND ANTI-ICING PROPERTIES, AND COATING PRECURSORS FOR FABRICATING SAME - Variations of this invention provide durable, impact-resistant structural coatings that have both dewetting and anti-icing properties. The coatings in some embodiments possess a self-similar structure that combines a low-cost matrix with two feature sizes that are tuned to affect the wetting of water and freezing of water on the surface. Dewetting and anti-icing performance is simultaneously achieved in a structural coating comprising multiple layers, wherein each layer includes (a) a continuous matrix; (b) discrete templates dispersed that promote surface roughness to inhibit wetting of water; and (c) nanoparticles that inhibit heterogeneous nucleation of water. These structural coatings utilize low-cost, lightweight, and environmentally benign materials that can be rapidly sprayed over large areas using convenient coating processes. The presence of multiple layers means that if the surface is damaged during use, freshly exposed surface will expose a coating identical to that which was removed, for extended lifetime. | 06-12-2014 |
20140287147 | PHOTONIC DEVICES ON PLANAR AND CURVED SUBSTRATES AND METHODS FOR FABRICATION THEREOF - A versatile and rapid sol-gel technique for the fabrication of high quality one-dimensional photonic bandgap materials. For example, silica/titania multi-layer materials may be fabricated by a sol-gel chemistry route combined with dip-coating onto planar or curved substrate. A shock-cooling step immediately following the thin film heat-treatment process is introduced. This step was found important in the prevention of film crack formation—especially in silica/titania alternating stack materials with a high number of layers. The versatility of this sol-gel method is demonstrated by the fabrication of various Bragg stack-type materials with fine-tuned optical properties by tailoring the number and sequence of alternating layers, the film thickness and the effective refractive index of the deposited thin films. Measured optical properties show good agreement with theoretical simulations confirming the high quality of these sol-gel fabricated optical materials. | 09-25-2014 |