Patent application number | Description | Published |
20090194705 | Producing Time Variation In Emanating Light - An excitation component or arrangement can provide excitation to a moving object so that information is encoded in time variation of light emanating from the object. For example, in each of a sequence of segments, it can provide a respective non-binary excitation spectrum, and the spectra can be different with a non-interference-like transition between them; because the object emanates light differently in response to the different spectra, photosensing results can be obtained that include encoded information about the object. The non-binary spectra could be different intermediate intensities, such as different gray levels or different intensities of one color or could be different colors. The excitation can be provided in a pattern with non-interference-like transitions between regions, and object motion can also be controlled. In another approach, a trigger signal can cause a time-varying excitation in a region, with non-interference-like transitions between intervals of excitation, such as black/white, multiple colors, or gray levels. | 08-06-2009 |
20090195773 | Transmitting/Reflecting Emanating Light With Time Variation - A filter arrangement can transmit and/or reflect light emanating from a moving object so that the emanating light has time variation, and the time variation can include information about the object, such as its type. For example, emanating light from segments of a path can be transmitted/reflected through positions of a filter assembly, and the transmission functions of the positions can be sufficiently different that time variation occurs in the emanating light between segments. Or emanating light from a segment can be transmitted/reflected through a filter component in which simpler transmission functions are superimposed, so that time variation occurs in the emanating light in accordance with superposition of two simpler non-uniform transmission functions. Many filter arrangements could be used, e.g. the filter component could include the filter assembly, which can have one of the simpler non-uniform transmission functions. Time-varying waveforms from sensing results can be compared to obtain spectral differences. | 08-06-2009 |
20090195852 | Producing Filters With Combined Transmission and/or Reflection Functions - A transmissive and/or reflective optical filter can receive input light, which can emanate from objects traveling along paths past the filter, e.g. from biological cells, viruses, colored spots or other markings on documents, and so forth. In response, the filter can provide output light in accordance with a combined transmission function that is approximately equal to a superposition or scaled superposition of a set of simpler transmission functions. The set can include two or more non-uniform transmission functions, a subset of which can be different from each other and positioned relative to each other so that the output light has time variation in accordance with each of the functions in the subset. The subset could include, for example, a random function and a periodic function, a chirp function and a periodic function, or any other suitable combination of two or more simpler functions. | 08-06-2009 |
20100060892 | FLOW SCHEMES FOR ENHANCED LIGHT-TARGET INTERACTION IN FLUIDIC CHANNELS - An embodiment is a fluidic channel to enhance light-target interaction. A first channel portion receives a first excitation light, an analyte flow, and a sheath flow. The analyte flow and the first excitation light are separated while in the first channel portion. The sheath flow flows on two sides or surrounds the analyte flow. A second channel portion has a first redirection structure to redirect the analyte flow by the sheath flow into the first excitation light at a first detection area. | 03-11-2010 |
20100155572 | Obtaining Sensing Results and/or Data in Response to Object Detection - An encoder/sensor can obtain sensing results from objects in an encoding/sensing region; a trigger detector can respond to objects in a trigger detection region, providing respective trigger signals; and a relative motion component can cause relative motion of objects into the trigger detection region, from it into the encoding/sensing region, and within the encoding/sensing region. In response to an object's trigger signal, control circuitry can cause the encoder/sensor and/or the relative motion component to operate so that the encoder/sensor obtains sensing results indicating a time-varying waveform and processing circuitry can obtain data from the sensing results indicating a time-varying waveform. The time-varying waveform can include information resulting from the relative motion within the encoding/sensing region. The encoder/sensor and trigger detector can be implemented, for example, with discrete components or as sets of cells in a photosensing array on an integrated circuit. | 06-24-2010 |
20100155577 | Obtaining Sensing Results Indicating Time Variation - In response to objects having relative motion within an encoding/sensing region relative to an encoder/sensor that, e.g., photosenses emanating light or performs impedance-based sensing, sensing results can indicate sensed time-varying waveforms with information about the objects, about their relative motion, about excitation characteristics, about environmental characteristics, and so forth. An encoder/sensor can include, for example, a non-periodic arrangement of sensing elements; a longitudinal sequence of sensing elements with a combined sensing pattern that approximates a superposition or scaled superposition of simpler sensing patterns; and/or IC-implemented sensing elements that include photosensing arrays on ICs and readout/combine circuitry that reads out photosensed quantities from cells in groups in accordance with cell-group sensing patterns and combines the readout photosensed quantities to obtain the sensing results. Objects can move fluidically as in flow cytometry, through scanning movement as in document scanning, or in other ways. | 06-24-2010 |
20100157291 | Causing Relative Motion - Sensors can be used to obtain encoded sensing results from objects that have nonuniform relative motion. A photosensor or impedance-based sensor, for example, can obtain sensing results from objects that have relative motion within a sensing region relative to the sensor, with the relative motion being, for example, periodically varying, randomly varying, chirp-varying, or modulated relative motion that completes at least one modulation cycle within the sensing region. Relative motion can be caused by varying objects' speed and/or direction or by controlling flow of fluid carrying objects, movement of a channel, movement of a support structure, movement of a sensor, and/or pattern movement. A fluidic implementation can include shaped channel wall parts and/or a displacement component causing time-varying lateral displacement. A support structure implementation can include a scanner device and a rotary device that respectively control scanning and rotating movement of a movable support structure or of a sensor. | 06-24-2010 |
Patent application number | Description | Published |
20100018434 | Cable Railway System - A cable railway system has two or more stations and at least one carrying cable and a conveying cable extending between the stations and guided in the stations by way of deflection pulleys. At least one of the pulleys is driven. Vehicles, such as cable cars or chairs, may be boarded or disembarked from in the stations by the passengers. The system may also have one or more fixed carrying cables along which the cars are moved by way of one or more hauling cables. At least one device is associated with the vehicles along the section of the cable railway system, by way of which device the pendulum movements that the vehicles are subject to transversely relative to the direction of movement of the vehicles are detectable and its output signals are conducted to a device that controls the drive of the cable railway system. The drive is thereby controllable in dependence on the extent of the pendulum movements. | 01-28-2010 |
20120024187 | CABLE RAILWAY SYSTEM AND METHOD OF OPERATING THE SAME - A cableway system has a conveying cable and chairs, which can be coupled to the conveying cable and are coupled to the conveying cable along the path of the cableway system, are uncoupled from the conveying cable at the entrance into the stations, are guided through the stations, along guide rails, by way of control tires, and are coupled to the conveying cable again at the exit from the stations, furthermore the chairs are designed with at least one safety bar and a device for adjusting the safety bar, and for locking the same, and a device for checking the locking are arranged at the exit from the stations. A first device for adjusting and locking the safety bar and an associated device for checking the locking and a second device for adjusting and locking the safety bar and an associated device for checking the locking are provided at the exit from the stations. In the case where locking has not taken place, the first checking device that is associated with the first device for adjusting and locking the safety bar, causes the second device for adjusting and locking the safety bar to be moved into its active position. | 02-02-2012 |
20120042803 | CABLE RAILWAY SYSTEM - A cableway system has a conveying cable that is guided via a head wheel pulleys in the two terminal stations of the system. Vehicles, such as gondolas or chairs, are coupled to the conveying cable between stations, and they are guided through the stations by way of travelling-gear mechanisms. In the stations, the vehicles are moved by way of tire wheels or control tires, and the tire wheels are driven by at least one supporting roller for the conveying cable. The supporting roller is located in the relevant station. The at least one of these supporting rollers for the conveying cable via which the drive power of the control tires is derived from the conveying cable is adjustable in the vertical direction. | 02-23-2012 |
20120090494 | CABLE RAILWAY SYSTEM - A cable railway system has a conveying cable, which in the two end stations of the system is guided over a respective deflection pulley. Transport vehicles, which can be coupled to the conveying cable and are configured with a clamping device and with a running gear. The vehicles are coupled to the conveying cable along the route and are guided in the stations by way of the running gear along guide rails. There, the passengers disembark and board. The movement of the vehicles in the stations is governed by control tires, which are drivingly coupled to one another by gear mechanisms. The drive power of the control tires is taken from at least one support roller for the conveying cable, which support roller is located in the station. The support roller for the conveying cable via which the drive of the control tires is derived from the conveying cable by way of at least one drive belt is elastically mounted on a rigidly fastened axle. | 04-19-2012 |
Patent application number | Description | Published |
20080299209 | Novel Formulations of Fat-Soluble Active Ingredients with High Biovailability - The present invention relates to formulations of a pharmacological effective fat-soluble active ingredient with a high bioavailability of said fat-soluble active ingredient as well as to their manufacture and use as dietary supplement, food, feed, personal care product and/or pharmaceutical. Such formulations are those which when dissolved, dispersed or diluted in/with water have an extinction E 1/1 at a wavelength in the range of from 200 to 800 nm, preferably in the range of from 250 to 600 nm, more preferably in the range of from 250 to 500 nm, more preferably in the range of from 370 to 485 nm, of ≧380, preferably of ≧600, most preferably ≧900. In preferred embodiments of the formulations of the present invention such formulations show an extrusion loss of fat-soluble active ingredient of ≦30% when pressed to tablets. | 12-04-2008 |
20090010861 | Modified Plant Gums for Preparations of Active Ingredients - The present invention relates to compositions containing (fat-soluble) active ingredients and/or colorants in a matrix based on modified plant gums, i.e. plant gums that have been submitted to hydrolysis to degrade either the protein portion and/or where appropriate, the polysaccharide, and to a process for preparing these compositions as well as to modified plant gums, whose protein part is hydrolysed up to a degree of about 30%, preferably to a degree of from about 0.05 to about 30%, and/or whose polysaccharide part is hydrolysed up to a degree of about 50%, a process for the manufacture thereof and such modified plant gums themselves. The present invention further relates to the use of the compositions of this invention for the enrichment, fortification and/or for the coloration of food, beverages, animal feed, cosmetics and pharmaceutical compositions and to such food, beverages, animal feed, cosmetics and pharmaceutical compositions themselves. | 01-08-2009 |
20090258954 | PROTECTIVE HYDROCOLLOID FOR ACTIVE INGREDIENTS - (Modified) rice endosperm protein is used as novel protective hydrocolloid for active ingredients, especially fat-soluble active ingredients and/or colorants. Included are compositions comprising (modified) rice endosperm protein and at least one active ingredient and to their manufacture, as well as to the (modified) rice endosperm protein itself and its manufacture. These compositions are used for the enrichment, fortification and/or coloration of food, beverages, animal feed, personal care or pharmaceutical compositions, and to food, beverages, animal feed, personal care and pharmaceutical compositions containing such a (modified) rice endosperm protein and such a composition, respectively. | 10-15-2009 |
20120039964 | NOVEL FORMULATIONS OF FAT-SOLUBLE ACTIVE INGREDIENTS WITH HIGH BIOAVAILABILITY - The present invention relates to formulations of a pharmacological effective fat-soluble active ingredient with a high bioavailability of said fat-soluble active ingredient as well as to their manufacture and use as dietary supplement, food, feed, personal care product and/or pharmaceutical. Such formulations are those which when dissolved, dispersed or diluted in/with water have an extinction E1/1 at a wavelength in the range of from 200 to 800 nm, preferably in the range of from 250 to 600 nm, more preferably in the range of from 250 to 500 nm, more preferably in the range of from 370 to 485 nm, of ≧380, preferably of ≧600, most preferably ≧900. In preferred embodiments of the formulations of the present invention such formulations show an extrusion loss of fat-soluble active ingredient of ≦30% when pressed to tablets. | 02-16-2012 |
20140057999 | PROTECTIVE, HYDROCOLLOID FOR ACTIVE INGREDIENTS - (Modified) rice endosperm protein is used as novel protective hydrocolloid for active ingredients, especially fat-soluble active ingredients and/or colorants. Included are compositions comprising (modified) rice endosperm protein and at least one active ingredient and to their manufacture, as well as to the (modified) rice endosperm protein itself and its manufacture. These compositions are used for the enrichment, fortification and/or coloration of food, beverages, animal feed, personal care or pharmaceutical compositions, and to food, beverages, animal feed, personal care and pharmaceutical compositions containing such a (modified) rice endosperm protein and such a composition, respectively. | 02-27-2014 |
Patent application number | Description | Published |
20090056034 | Method for Operating a Steam Generator in a Fabric Treatment Appliance - A method of controlling the operation of a steam generator in a fabric treatment appliance may include setting an operational temperature for the steam generator based on calcification of the steam generator. A change in the calcification of the steam generator may be determined by behavior of the actual temperature of the steam generator in response to changing a flow rate of water supplied to the steam generator. | 03-05-2009 |
20090056035 | Method for Operating a Steam Generator in a Fabric Treatment Appliance - A method of controlling the operation of a steam generator in a fabric treatment appliance by changing a flow rate of water supplied to the steam generator to determine a change in calcification of the steam generator. | 03-05-2009 |
20090056175 | Fabric Treatment Appliance with Steam Generator Having a Variable Thermal Output - A steam generator having a steam generation tube defining a chamber for receiving water and converting the water to steam, and a heating element wrapped around the tube and having a first portion emitting a greater thermal output than a second portion. | 03-05-2009 |
20090056387 | Fabric Treatment Appliance with Steam Backflow Device - A fabric treatment appliance according to one embodiment of the invention comprises a receptacle defining a fabric treatment chamber for receiving laundry, a steam generator having an inlet for receiving water from a water supply and an outlet for supplying steam to the fabric treatment chamber, and a liquid trap upstream from the steam generation chamber blocking backflow of steam from the steam generation chamber to the water supply conduit. | 03-05-2009 |
20090056388 | Fabric Treatment Appliance with Steam Backflow Device - A fabric treatment appliance comprising a receptacle defining a fabric treatment chamber for receiving laundry; a steam generator having an inlet for receiving water and an outlet for supplying steam to the fabric treatment chamber; a water supply conduit with an outlet located below the steam generator inlet; and a reservoir coupling the water supply conduit outlet with the steam generator inlet. | 03-05-2009 |
20090056389 | Fabric Treatment Appliance with Steam Generator Having a Variable Thermal Output - A steam generator according to one embodiment of the invention includes a steam generation chamber for converting the water to steam, and a heating element thermally coupled with the steam generation chamber and having a first portion below an operational water level of the steam generation chamber and a second portion above the operational water level, with the first portion having a greater thermal output than the second portion. | 03-05-2009 |