Patent application number | Description | Published |
20100019059 | AIR-FRESHENING DISPENSING DEVICE - The invention relates to an air-freshening dispensing device, including a housing having a pair of mounts for mounting respective containers provided in outer sections of the housing; and a switchable shutter element arranged for selectively shutting access of an airflow to any of the outer sections. According to the invention, the shutter element is provided in a mid section between the outer sections and communicatively coupled to an air inlet. An air outlet provides throughput of the airflow through the mid section and the device further includes a clamp for clamping the unit onto an outlet channel to provide an airflow into the air inlet. | 01-28-2010 |
20110036922 | Air-Freshener For a Vehicle - An air-freshener for a vehicle, in particular a motorcar, provided with a housing into which a container for a volatile liquid or a liquid containing one or more volatile components can be inserted, in the opening of which container a wick extending into the housing is fitted, and with a movable covering cap which, when the container with wick has been inserted into the housing, can cover the wick entirely or partially, and with a control member for setting the position of the covering cap. According to the invention, the wick is covered by a sideways movable covering cap, thereby making the air-freshener more compact. | 02-17-2011 |
Patent application number | Description | Published |
20110297021 | PHOTOSENSITIVE STENCILS & METHODS - An photosensitive stencil includes a porous stencil carrier that can be a sheet of woven material with crisscrossing filaments. The stencil carrier is coated with a photopolymer emulsion that is water based to form a stencil blank. A pressure sensitive adhesive may disposed on one surface of the emulsion either as a continuous film, in which case the adhesive also is photosensitive, or in the form of spaced and unconnected microdots, in which case the adhesive need not be photosensitive. Alternatively, no adhesive need be applied. In use, a light mask is disposed atop the stencil blank. The light mask can be contained on a sheet of paper or a transparent film. Alternatively the stencil blank is fed through an inkjet printer and the light mask is printed directly onto the stencil blank using common inks. The stencil blank is then exposed to light for a few minutes, which cross-links the photopolymer emulsion in unmasked regions. After exposure, the stencil blank is developed by being washed out with water. The water removes emulsion and adhesive, where present, within areas that were masked by the light mask, revealing open or open regions through which ink or paint can be applied. The adhesive, where present, allows the stencil to stick removably to a surface during decoration. Where no adhesive is present, the stencil may be mounted in a relatively flexible adhesive frame that holds the stencil to a surface. | 12-08-2011 |
20150174886 | PHOTOSENSITIVE STENCILS AND METHODS - A photosensitive stencil includes a porous stencil carrier that can be a sheet of woven material with crisscrossing filaments. The stencil carrier is coated with a photopolymer emulsion that is water based to form a stencil blank. In use, a light mask is disposed atop the stencil blank. The light mask can be contained on a sheet of paper or a transparent film. Alternatively the stencil blank is fed through an inkjet printer and the light mask is printed directly onto the stencil blank using common inks. The stencil blank is then exposed to light for a few minutes, which cross-links the photopolymer emulsion in unmasked regions. After exposure, the stencil blank is developed by being washed out with water. The water removes emulsion and adhesive, where present, within areas that were masked by the light mask, revealing open or open regions through which ink or paint can be applied. | 06-25-2015 |
Patent application number | Description | Published |
20100258014 | Composite Stencils, Methods of Making, and Methods of Decorating with Composite Stencils - A composite stencil for applying designs to walls and other surfaces is disclosed. The stencil includes a porous textile support layer to which a flexible stencil mask is bonded by an adhesion layer. The support layer supports unconnected parts of the stencil mask without bridges common with traditional stencils. Further, the textile support layer in the open areas of the stencil can be colored with a sublimation dye to suggest to a user the colors that should be applied in the various areas of the stencil. A pressure sensitive adhesive is applied to the back of the stencil. In use, the stencil is removably adhered to a surface by the pressure sensitive adhesive, whereupon paint or other pigment is applied through the textile support layer to the surface. The lack of bridges permits the entire design to be applied with a single stencil in a single session. The stencil is cleanable and reusable to apply additional designs. | 10-14-2010 |
20140096905 | Composite Stencils, Methods of Making, And Methods of Decorating With Composite Stencils - A composite stencil for applying designs to walls and other surfaces is disclosed. The stencil includes a porous textile support layer to which a flexible stencil mask is bonded by an adhesion layer. The support layer supports unconnected parts of the stencil mask without bridges common with traditional stencils. Further, the textile support layer in the open areas of the stencil can be colored with a sublimation dye to suggest to a user the colors that should be applied in the various areas of the stencil. A pressure sensitive adhesive is applied to the back of the stencil. In use, the stencil is removably adhered to a surface by the pressure sensitive adhesive, whereupon paint or other pigment is applied through the textile support layer to the surface. The lack of bridges permits the entire design to be applied with a single stencil in a single session. The stencil is cleanable and reusable to apply additional designs. | 04-10-2014 |
20140374019 | Composite Stencils, Methods of Making, And Methods of Decorating With Composite Stencils - A composite stencil for applying designs to walls and other surfaces is disclosed. The stencil includes a porous textile support layer to which a flexible stencil mask is bonded by an adhesion layer. The support layer supports unconnected parts of the stencil mask without bridges common with traditional stencils. Further, the textile support layer in the open areas of the stencil can be colored with a sublimation dye to suggest to a user the colors that should be applied in the various areas of the stencil. A pressure sensitive adhesive is applied to the back of the stencil. In use, the stencil is removably adhered to a surface by the pressure sensitive adhesive, whereupon paint or other pigment is applied through the textile support layer to the surface. The lack of bridges permits the entire design to be applied with a single stencil in a single session. The stencil is cleanable and reusable to apply additional designs. | 12-25-2014 |
20150101500 | COMPOSITE STENCILS, METHODS OF MAKING, AND METHODS OF DECORATING WITH COMPOSITE STENCILS - A composite stencil for applying designs to walls and other surfaces is disclosed. The stencil includes a porous textile support layer to which a flexible stencil mask is bonded by an adhesion layer. The support layer supports unconnected parts of the stencil mask without bridges common with traditional stencils. Further, the textile support layer in the open areas of the stencil can be colored with a sublimation dye to suggest to a user the colors that should be applied in the various areas of the stencil. A pressure sensitive adhesive is applied to the back of the stencil. In use, the stencil is removably adhered to a surface by the pressure sensitive adhesive, whereupon paint or other pigment is applied through the textile support layer to the surface. The lack of bridges permits the entire design to be applied with a single stencil in a single session. The stencil is cleanable and reusable to apply additional designs. | 04-16-2015 |
Patent application number | Description | Published |
20090073402 | LITHOGRAPHIC APPARATUS AND EXPOSURE METHOD - A lithographic apparatus includes a control unit arranged to perform a first position measurement of the patterning device, apply an asymmetric acceleration profile to the support supporting the patterning device, perform a second position measurement of the patterning device, determine a slip characteristic of the pattering device based on the two position measurements and the applied acceleration profile, and perform a scanning exposure of a substrate taking into account the slip characteristic of the patterning device. | 03-19-2009 |
20090086180 | LITHOGRAPHIC APPARATUS, STAGE APPARATUS AND DEVICE MANUFACTURING METHOD - A lithographic apparatus is described, the apparatus comprising an illumination system configured to condition a radiation beam; a support constructed to support a patterning device, the patterning device being capable of imparting the radiation beam with a pattern in its cross-section to form a patterned radiation beam; a substrate table constructed to hold a substrate; a projection system configured to project the patterned radiation beam onto a target portion of the substrate, a chuck constructed to hold the substrate table; a positioning device for, in use, displacing the chuck; a control unit configured to control the positioning device, wherein the control unit is arranged to drive the positioning device to excite the chuck by a substantially dynamic force to enable deformation of the chuck, prior to aligning the patterning device. | 04-02-2009 |
20090147236 | Servo Control System, Lithographic Apparatus and Control Method - A servo control system to control a position of an object supported by a movable support includes a first measurement system to measure a position of the movable support, a comparative device to provide an error signal based on the comparison between a measured movable support position and a desired movable support position, a controller unit to provide a control signal based on the error signal, and an actuator configured to actuate the movable support based on the control signal. The servo control system further includes a slip compensation device to compensate a slip between the object and the movable support, the slip compensation device including a second measurement system to measure an object position with respect to the movable support, and an addition device to add a slip compensation signal to the measured movable support position or the error signal based on the measured object position. | 06-11-2009 |
20090231567 | LITHOGRAPHIC APPARATUS HAVING A CHUCK WITH A VISCO-ELASTIC DAMPING LAYER - A lithographic apparatus includes an illumination system configured to condition a radiation beam, a support constructed to support a patterning device, the patterning device being capable of imparting the radiation beam with a pattern in its cross-section to form a patterned radiation beam, a substrate table constructed to hold a substrate, a projection system configured to project the patterned radiation beam onto a target portion of the substrate, a chuck configured to hold and position an object, for example, the patterning device onto the support or the substrate onto the substrate table, the chuck including a base and a constraining layer. A damping layer including a viscoelastic material is provided between the base and the constraining layer. | 09-17-2009 |
20100102413 | LITHOGRAPHIC APPARATUS, DEVICE MANUFACTURING METHOD AND POSITION CONTROL METHOD - A lithographic apparatus includes a support configured to support a patterning device, the patterning device configured to pattern a beam of radiation to form a patterned beam of radiation; a positioning device configured to move the support in a first direction; a measurement device configured to measure a relative position of the patterning device with respect to the support and to generate a measuring signal, the measurement device including a reference unit constructed and arranged to be coupled to the patterning device at a fixed relative position, and a position sensor configured to measure the position of the reference unit with respect to the support, wherein the positioning device is constructed and arranged to correct a position of the support based on the measuring signal. | 04-29-2010 |
20100129741 | LITHOGRAPHIC APPARATUS AND METHODS FOR COMPENSATING SUBSTRATE UNFLATNESS, DETERMINING THE EFFECT OF PATTERNING DEVICE UNFLATNESS, AND DETERMINING THE EFFECT OF THERMAL LOADS ON A PATTERNING DEVICE - A lithographic apparatus includes an illumination system configured to condition a radiation beam; a support constructed to support a patterning device, the patterning device being capable of imparting the radiation beam with a pattern in its cross-section to form a patterned radiation beam; a substrate table constructed to hold a substrate; a projection system configured to project the patterned radiation beam onto a target portion of the substrate, and a sensor configured to measure a height level, curvature and/or angle of a surface of a patterning device supported on the support. | 05-27-2010 |
20100271611 | LITHOGRAPHIC APPARATUS HAVING A SUBSTRATE SUPPORT WITH OPEN CELL PLASTIC FOAM PARTS - A lithographic apparatus includes an illumination system configured to condition a radiation beam, a support constructed to support a patterning device, the patterning device being capable of imparting the radiation beam with a pattern in its cross-section to form a patterned radiation beam, a substrate support constructed to hold a substrate, and a projection system configured to project the patterned radiation beam onto a target portion of the substrate, wherein the substrate support includes parts that are made of an open cell plastic foam material. | 10-28-2010 |
Patent application number | Description | Published |
20080296197 | METHOD AND APPARATUS FOR CONTAINING, STORING AND/OR TRANSPORTING CURVED WIND TURBINE ROTOR BLADES - A retaining apparatus for securing curved wind turbine rotor blades for at least one of storage and transport is described. The retaining apparatus comprises an end frame configured to be connected to a root of a first blade, a connecting frame having a first end and a second end, the first end of the connecting frame rotatably connected to the end frame, a portion of the retaining apparatus configured to be positioned at least partially around a tip of a second blade, the portion rotatably connected to the second end of the connecting frame, the a turnbuckle having a first end and a second end, the first end of the turnbuckle rotatably connected to the end frame, the second end of the turnbuckle rotatably connected to the second end of the connecting frame. | 12-04-2008 |
20100109309 | LIGHT WEIGHT BEAM AND TRAILER - A light weight trailer for carrying elongated goods, especially for carrying at least two rotor blades of a wind energy system, having a front support frame; a rear support frame, with said front support frame and said rear support frame being adapted for supporting an elongated good; and a beam connecting said front support frame with said rear support frame, wherein said beam consists substantially of a light weight material. Further, a telescopic beam for a light weight trailer for carrying elongated goods and a method of constructing a light weight trailer are provided. | 05-06-2010 |
20110299995 | WIND TURBINE ROTOR BLADE JOINT - A blade joint for joining a first blade segment and a second blade segment, each having an aerodynamic profile, in a rotor blade is disclosed. The blade joint includes a first joint segment and a second joint segment each having an outer surface, an inner surface, and a thickness therebetween. The outer surface of each joint segment has an aerodynamic profile. The first joint segment and the second joint segment each further have a joint interface end, a blade interface end, and a length therebetween. The joint interface end of the first joint segment and the joint interface end of the second joint segment are configured to couple the first joint segment and second joint segment together. | 12-08-2011 |
Patent application number | Description | Published |
20130052873 | BACKWARD COMPATIBLE CONTACTLESS SOCKET CONNECTOR, AND BACKWARD COMPATIBLE CONTACTLESS SOCKET CONNECTOR SYSTEM - The invention relates to socket connectors and socket connector systems for electrically connecting a first corresponding plug connector and for capacitively connecting a second corresponding plug connector. Further, the invention relates to a plug connector for capacitively connecting a corresponding socket connector. In order to allow for an electrical connection or a capacitive connection, the invention suggest providing a connecting element, arranged within the housing of the socket connector, including contact portion for contacting a connection area of the first plug connector, and a non-contact portion arranged such that, in the mated state, the surface thereof covers at least parts of a connection area of the second plug connector. | 02-28-2013 |
20140248801 | CONTACTLESS PLUG CONNECTOR AND CONTACTLESS PLUG CONNECTOR SYSTEM - The invention relates to contactless plug connectors and contactless plug connector systems for electromagnetically connecting a corresponding mating plug connector. In order to allow for an electromagnetic connection, the invention suggest providing at least one input terminal for inputting a baseband input signal; an antenna element arranged at the mating end of the contactless plug connector; and a transmitting circuit for modulating the inputted baseband input signal on a predetermined carrier frequency and for transmitting the modulated baseband input signal via the antenna element as a radio wave with the predetermined carrier frequency. In particular, the contactless plug connector and contactless plug connector system include an electromagnetic shielding element arranged to surround the transmitting circuit and the antenna element with a rim portion forming an opening at the mating end of the contactless plug connector. | 09-04-2014 |
20140252876 | CONTACTLESS PLUG CONNECTOR AND CONTACTLESS PLUG CONNECTOR SYSTEM - The invention relates to contactless plug connectors and contactless plug connector systems for electromagnetically connecting a correspondrng mating plug connector. In order to allow for an electromagnetic connection, the invention suggest providing at least one antenna element arranged within the mating end of the contactless plug connector to transmit and/or to receive radio waves modulated with a predetennined carrier frequency, a transmitting/receiving circuit for modulating an inputted baseband input signal onto the predeteimined carrier frequency and transmitting the modulated baseband input signal and/or for demodulating a received radio wave into a baseband output signal. In particular, the contactless plug connector and contactless plug connector system include a securing element for securing the mating end of the contactless plug connector at close proximity to a corresponding mating end of the mating connector such that an electromagnetic connection can be established with the corresponding mating connector. | 09-11-2014 |
20150310988 | Contactless Connector - A contactless connector is provided and includes an inductive coupling element, a first contact lead, a second contact lead, a base plate, and an outer ferrite element. The inductive coupling element includes a plurality of windings, and the first contact lead and the second contact lead are connected to the plurality of windings and carry electric currents in opposing directions. The base plate includes a lead receiving passageway receiving both the first contact lead and the second contact lead, and the outer ferrite element is magnetically coupled to the base plate and partially surrounds the inductive coupling element. | 10-29-2015 |
Patent application number | Description | Published |
20080259726 | Mitigation of Noise in Marine Multicomponent Seismic Data through the Relationship between Wavefield Components at the Free Surface - A method and apparatus implementing a technique for mitigating noise in seismic data are presented. The technique includes estimating a noise component in a set of multicomponent seismic data representing a recorded wavefield from the relationship at the free surface of an upgoing component and a downgoing component decomposed from the recorded wavefield; and removing the estimated noise component from the seismic data. The noise component can be estimated by decomposing a recorded wavefield into an upgoing component and a downgoing component and isolating a noise component in the recorded wavefield from the relationship of the decomposed upgoing and downgoing components at the free surface. | 10-23-2008 |
20090043545 | Processing Data Representing Energy Propagating Through A Medium - The present invention relates to a method of processing data representing energy propagating through a medium (e.g., acoustic, elastic or electromagnetic energy) and describes an efficient and flexible e approach to forward modeling and inversion of such energy for a given medium. The representation theorem for the wave-equation is used, in combination with time-reversal invariance and reciprocity, to express the Green's function between two points in the interior of the model as an integral over the response in those points due to sources regularly distributed on a surface surrounding the medium and the points. | 02-12-2009 |
20090097357 | Seismic Data Acquisition and Source-Side Derivatives Generation and Application - The technologies described herein include systems and methods for encoding/decoding seismic sources and responses, generating and using of source-side derivatives while also generating and using the conventional source response. Sources in an array may be encoded such that activation of each source in the array constitutes a single spike in a sequence orthogonal to another sequence emitted by another source. The responses to these different sources that are in close spatial proximity can be decoded and separated. Source-side derivatives may be calculated and utilized in various applications in combination with the monopole response from the source location, including source-side deghosting, spatial (horizontal and vertical) interpolation and imaging. | 04-16-2009 |
20110110188 | Seismic Data Acquisition and Source-Side Derivatives Generation and Application - The technologies described herein include systems and methods for performing a first seismic survey and performing a second seismic survey after a predetermined amount of time has lapsed between the first seismic survey and the second seismic survey. The shot times and the shot positions of the second seismic survey may be substantially the same as the shot times and the shot positions of the first seismic survey. After performing the seismic surveys, seismic data generated by the first seismic survey may be processed to generate a first image, and seismic data generated by the second seismic survey may be processed to generate a second image. After generating the first and second images, a difference between the first image and the second image may be computed to generate a time lapse difference image. | 05-12-2011 |
20110310700 | Seismic Data Acquisition and Source-Side Derivatives Generation and Application - The technologies described herein include systems and methods for performing a first seismic survey and performing a second seismic survey after a predetermined amount of time has lapsed between the first seismic survey and the second seismic survey. The shot times and the shot positions of the second seismic survey may be substantially the same as the shot times and the shot positions of the first seismic survey. After performing the seismic surveys, seismic data generated by the first seismic survey may be processed to generate a first image, and seismic data generated by the second seismic survey may be processed to generate a second image. After generating the first and second images, a difference between the first image and the second image may be computed to generate a time lapse difference image. | 12-22-2011 |
20120140592 | 3D DEGHOSTING OF MULTICOMPONENT OR OVER/UNDER STREAMER RECORDINGS USING CROSS-LINE WAVENUMBER SPECTRA OF HYDROPHONE DATA - A technique includes obtaining pressure data that was acquired by seismic sensors towed as part of a three-dimensional spread of streamers and obtaining particle motion data, which are indicative of particle motion at locations of the sensors. The technique includes estimating cross-line spectra of the pressure data based at least in part on the pressure data, and the technique includes deghosting the particle motion data based at least in part on the estimated cross-line spectra. | 06-07-2012 |
20130100762 | SEISMIC DATA ACQUISITION AND SOURCE-SIDE DERIVATIVES GENERATION AND APPLICATION - The technologies described herein include systems and methods for performing a first seismic survey and performing a second seismic survey after a predetermined amount of time has lapsed between the first seismic survey and the second seismic survey. The shot times and the shot positions of the second seismic survey may be substantially the same as the shot times and the shot positions of the first seismic survey. After performing the seismic surveys, seismic data generated by the first seismic survey may be processed to generate a first image, and seismic data generated by the second seismic survey may be processed to generate a second image. After generating the first and second images, a difference between the first image and the second image may be computed to generate a time lapse difference image. | 04-25-2013 |
20130100763 | Seismic Data Acquisition and Source-Side Derivatives Generation and Application - The technologies described herein include systems and methods for performing a first seismic survey and performing a second seismic survey after a predetermined amount of time has lapsed between the first seismic survey and the second seismic survey. The shot times and the shot positions of the second seismic survey may be substantially the same as the shot times and the shot positions of the first seismic survey. After performing the seismic surveys, seismic data generated by the first seismic survey may be processed to generate a first image, and seismic data generated by the second seismic survey may be processed to generate a second image. After generating the first and second images, a difference between the first image and the second image may be computed to generate a time lapse difference image. | 04-25-2013 |
20130128696 | NOISE REMOVAL FROM 3D SEISMIC REPRESENTATION - A method for removing noise from a three-dimensional representation of seismic data. The method includes receiving seismic data acquired in a seismic survey. The method may organize the acquired seismic data into a three-dimensional representation of the acquired seismic data. The method may then remove a noise from the three-dimensional representation of the acquired seismic data based on at least one criterion. | 05-23-2013 |
20130182536 | WAVEFIELD DEGHOSTING - A technique includes receiving sensor acquired data, which includes pressure data representative of at least one pressure measurement of a wavefield and particle motion data representative of at least one particle motion measurement of the wavefield. The technique includes filtering the pressure data and the particle motion data with a plurality of directional filters to provide a plurality of filtered datasets. The filtered datasets are associated with different directional ranges. The technique includes estimating an angle of incidence for at least one of the directional ranges based at least in part on at least one of the filtered datasets; and processing the acquired data to determine at least one of an upgoing component of the wavefield and a downgoing component of the wavefield based at least in part on the at least one estimated angle of incidence. | 07-18-2013 |
20130261980 | USING CROSSLINE MEASUREMENT DATA FOR AN ACTION RELATING TO SURVEY OF A TARGET STRUCTURE - Methods and systems for survey operations are provided. In some embodiments, crossline measurement data measured by at least one survey receiver is received. Based at least in part on a characteristic of the crossline measurement data, an option from among a plurality of candidate options is selected, where the selected option is for use in an action relating to survey of a target structure. | 10-03-2013 |
20140029378 | RECONSTRUCTING SEISMIC WAVEFIELDS - A technique includes receiving seismic data acquired in a seismic survey in the vicinity of a reflecting interface. The survey has an associated undersampled direction. The technique includes providing second data indicative of discrete samples of incident and reflected components of a continuous seismic wavefield along the undersampled direction and relating the discrete samples to a linear combination of the continuous incident and reflected seismic wavefields using at least one linear filter. Based on the relationship, an unaliased representation of the linear combination of the continuous incident and reflected seismic wavefields is constructed. | 01-30-2014 |
20140200854 | METHODS AND COMPUTING SYSTEMS FOR SURVEY DESIGN AND MODELING WORKFLOW FOR TOWED MULTIMEASUREMENT SEISMIC STREAMER DATA - Modular workflows for determining acquisition geometry and efficiency using 3D deghosting and wavefield reconstruction methods enabled by multicomponent seismic information are disclosed, which may be performed as methods. In some embodiments, such methods may be performed on computing systems. | 07-17-2014 |
20140278297 | PROCESSING DATA REPRESENTING ENERGY PROPAGATING THROUGH A MEDIUM - The present invention relates to a method of processing data representing energy propagating through a medium (e.g., acoustic, elastic or electromagnetic energy) and describes an efficient and flexible approach to forward modeling and inversion of such energy for a given medium. The representation theorem for the wave-equation is used, in combination with time-reversal invariance and reciprocity, to express the Green's function between two points in the interior of the model as an integral over the response in those points due to sources regularly distributed on a surface surrounding the medium and the points. | 09-18-2014 |