Patent application number | Description | Published |
20130139419 | MOTION GREETING CARDS - The present invention and related disclosure describes greeting cards with moving elements or devices which are operable to create motion in connection with some portion of the greeting card. The greeting card may include a multi-panel greeting card body or a three-dimensional foam greeting card body. At least one movable object is contained upon or within the greeting card body. A sound module having at least one pre-recorded digital audio file saved therein and a motor module are contained and concealed within the greeting card body. One or more switches may be used to activate the sound and motor modules, causing the pre-recorded audio file to play and causing movement of the movable or mobile object. | 06-06-2013 |
20130192104 | MOTORIZED GIFT PACKAGE ACCESSORY - The present invention and related disclosure describes greeting cards with moving elements or devices which are operable to create motion in connection with some portion of the greeting card. The greeting card may include a multi-panel greeting card body or a three-dimensional foam greeting card body. At least one movable object is contained upon or within the greeting card body. A sound module having at least one pre-recorded digital audio file saved therein and a motor module are contained and concealed within the greeting card body. One or more switches may be used to activate the sound and motor modules, causing the pre-recorded audio file to play and causing movement of the movable or mobile object. This movement may be up-and-down or “bouncing” motion, spinning or rotational motion, side-to-side motion or any other reciprocating motion. | 08-01-2013 |
20130283650 | BLOW SENSOR FOAM NOVELTIES - Three-dimensional lightweight foam greeting cards are described herein having a foam body with a perimeter wall that extends between two spaced apart parallel pieces of planar sheet material such as heavy gauge paper, cardboard, or other such material. The greeting cards have a partially hollowed foam body or one or more cavities in the foam body concealed in the front and back by the planar sheet material which may be pre-cut in the shape of the foam body are decorated consistent with the design of the foam body. The cavities in the foam body may contain various electronic components that enable the greeting card to produce sound, record and playback a personalized message, trigger light activation, trigger the movement of moveable parts, display digital video, photographs or slideshows, or a combination thereof. | 10-31-2013 |
20140144052 | Motion Greeting Cards - The present invention and related disclosure describes greeting cards with moving elements or devices which are operable to create motion in connection with some portion of the greeting card. The greeting card may include a multi-panel greeting card body or a three-dimensional foam greeting card body. At least one movable object is contained upon or within the greeting card body. A sound module having at least one pre-recorded digital audio file saved therein and a motor module are contained and concealed within the greeting card body. One or more switches may be used to activate the sound and motor modules, causing the pre-recorded audio file to play and causing movement of the movable or mobile object. | 05-29-2014 |
20150197117 | Motorized Gift Card Holders - The present disclosure and related inventions are directed to various types of motorized gift card holders. Each gift card holder embodiment creates added entertainment value to the act of presenting a recipient with a gift card. In some embodiments, the gift card holder is in the form of a greeting card having a motor therein to which a gift card or gift card sleeve is attached. In other embodiments, the gift card holder is in the form of a box having a motor therein to which a gift card or gift card sleeve is attached. Audio playback accompanies the motor movement of the gift card or gift card sleeve. | 07-16-2015 |
Patent application number | Description | Published |
20120224751 | AUTOMATIC CALIBRATION SYSTEMS AND METHODS OF USE - The disclosed automatic calibration systems and methods provide a repeatable way to detect internal catheter reflections and to shift the internal catheter reflections to calibrate an image. | 09-06-2012 |
20130123577 | Devices, Systems, and Methods for Controlling Field of View in Imaging Systems - Devices, systems, and methods for controlling the field of view in imaging systems are provided. For example, in one embodiment an imaging system includes a flexible elongate member sized and shaped for use within an internal structure of a patient, an imaging transducer positioned within the distal portion of the flexible elongate member, an imaging marker positioned to be detectable within a field of view of the imaging transducer, and a controller in communication with the flexible elongate member and configured to adjust a control signal of the flexible elongate member based on the detection of the imaging marker in data received from the flexible elongate member in order to achieve a desired field of view for the imaging transducer. | 05-16-2013 |
20130137981 | Devices, Systems, and Methods for Controlling Field of View in Imaging Systems - Devices, systems, and methods for controlling the field of view in imaging systems are provided. For example, in one embodiment an imaging system includes a flexible elongate member sized and shaped for use within an internal structure of a patient, an imaging transducer positioned within the distal portion of the flexible elongate member, an imaging marker positioned to be detectable within a field of view of the imaging transducer, and a controller in communication with the flexible elongate member and configured to adjust a control signal of the flexible elongate member based on the detection of the imaging marker in data received from the flexible elongate member in order to achieve a desired field of view for the imaging transducer. | 05-30-2013 |
20130137985 | Devices, Systems, and Methods for Controlling Field of View in Imaging Systems - Devices, systems, and methods for controlling the field of view in imaging systems are provided. For example, in one embodiment an imaging system includes a flexible elongate member sized and shaped for use within an internal structure of a patient, an imaging transducer positioned within the distal portion of the flexible elongate member, an imaging marker positioned to be detectable within a field of view of the imaging transducer, and a controller in communication with the flexible elongate member and configured to adjust a control signal of the flexible elongate member based on the detection of the imaging marker in data received from the flexible elongate member in order to achieve a desired field of view for the imaging transducer. | 05-30-2013 |
20130178746 | Devices, Systems, and Methods for Controlling Field of View in Imaging Systems - Devices, systems, and methods for controlling the field of view in imaging systems are provided. For example, in one embodiment an imaging system includes a flexible elongate member sized and shaped for use within an internal structure of a patient, an imaging transducer positioned within the distal portion of the flexible elongate member, an imaging marker positioned to be detectable within a field of view of the imaging transducer, and a controller in communication with the flexible elongate member and configured to adjust a control signal of the flexible elongate member based on the detection of the imaging marker in data received from the flexible elongate member in order to achieve a desired field of view for the imaging transducer. | 07-11-2013 |
20130184589 | Devices, Systems, and Methods for Controlling Field of View in Imaging Systems - Devices, systems, and methods for controlling the field of view in imaging systems are provided. For example, in one embodiment an imaging system includes a flexible elongate member sized and shaped for use within an internal structure of a patient, an imaging transducer positioned within the distal portion of the flexible elongate member, an imaging marker positioned to be detectable within a field of view of the imaging transducer, and a controller in communication with the flexible elongate member and configured to adjust a control signal of the flexible elongate member based on the detection of the imaging marker in data received from the flexible elongate member in order to achieve a desired field of view for the imaging transducer. | 07-18-2013 |
20140099011 | REMOVAL OF A-SCAN STREAKING ARTIFACT - This invention generally relates to the removal of streaking artifacts and periodic noise from tomographic images. The method comprises obtaining an A-scan from an imaging data set. The A-scan having a signal and the signal defining an amplitude. Noise specific to the A-scan is estimated. The amplitude of the A-scan is scaled based on its specific estimated noise floor. In another aspect, a plurality of A-scans is obtained from an imaging data set. Each of the plurality of A-scans has a signal and the signal defines an amplitude. Noise specific to each A-scan of the plurality of A-scans is estimated. Each A-scan of the plurality of A-scans is scaled by the A-scan's specific estimated noise floor. | 04-10-2014 |
20140099012 | SYSTEMS FOR CORRECTING DISTORTIONS IN A MEDICAL IMAGE AND METHODS OF USE THEREOF - The invention relates generally systems for correcting distortion in a medical image and methods of use thereof. Methods and systems for displaying a medical image of a lumen of a biological structure, generally comprise obtaining image data of a lumen of a biological structure from an imaging device, correcting the image data for translational distortions, in which correcting is accomplished without reference to another data set, and displaying a corrected image. | 04-10-2014 |
20140100439 | GUIDEWIRE ARTIFACT REMOVAL IN IMAGES - This invention relates generally to methods and systems for removing an artifact within an image. Typically, the artifact is a guidewire artifact. In one aspect, at least two images of an imaging surface are acquired. Each acquired image comprises a set of data. A guidewire artifact is detected in one of the at least two images. The guidewire artifact is replaced with data representing the imaging surface obtained from another one of the at least two images. In certain embodiments, the at least two images are of the same imaging surface having a guidewire or object causing the artifact moved to a different position. | 04-10-2014 |
20140100440 | SYSTEM AND METHOD FOR INSTANT AND AUTOMATIC BORDER DETECTION - The invention generally relates to medical imaging systems that instantly and/or automatically detect borders. Embodiments of the invention provide an imaging system that automatically detects a border at a location within a vessel in response only to navigational input moving the image to that location. In some embodiments, systems and methods of the invention operate such that when a doctor moves an imaging catheter to a new location with in tissue, the system essentially instantly finds, and optionally displays, the border(s), calculates an occlusion, or both. | 04-10-2014 |
20140100442 | SYSTEMS FOR INDICATING PARAMETERS IN AN IMAGING DATA SET AND METHODS OF USE - Systems and methods for aiding users in viewing, assessing and analyzing images, especially images of lumens and medical devices contained within the lumens. Systems and methods for interacting with images of lumens and medical devices, for example through a graphical user interface. | 04-10-2014 |
20140100449 | AUTOMATIC STENT DETECTION - This invention relates generally to the detection of objects, such as stents, within intraluminal images using principal component analysis and/or regional covariance descriptors. In certain aspects, a training set of pre-defined intraluminal images known to contain an object is generated. The principal components of the training set can be calculated in order to form an object space. An unknown input intraluminal image can be obtained and projected onto the object space. From the projection, the object can be detected within the input intraluminal image. In another embodiment, a covariance matrix is formed for each pre-defined intraluminal image known to contain an object. An unknown input intraluminal image is obtained and a covariance matrix is computed for the input intraluminal image. The covariances of the input image and each image of the training set are compared in order to detect the presence of the object within the input intraluminal image. | 04-10-2014 |
20140193057 | METHODS AND SYSTEMS FOR TRANSFORMING LUMINAL IMAGES - The invention provides methods and systems for correcting translational distortion in a medical image of a lumen of a biological structure. The method facilitates vessel visualization in intravascular images (e.g. IVUS, OCT) used to evaluate the cardiovascular health of a patient. Using the methods and systems described herein it is simpler for a provider to evaluate vascular imaging data, which is typically distorted due to cardiac vessel-catheter motion while the image was acquired. | 07-10-2014 |
20150342573 | Devices, Systems, and Methods for Controlling Field of View in Imaging Systems - Devices, systems, and methods for controlling an intravascular imaging device are provided. For example, in one embodiment a method includes communicating a control signal to an actuator of the intravascular imaging device to cause oscillation of an imaging element of the intravascular imaging device, wherein the intravascular imaging device further includes an acoustic marker; receiving imaging data from the imaging element of the intravascular imaging device; identifying the acoustic marker in the imaging data by determining a correlation between the imaging data and a template representative of the acoustic marker; adjusting an aspect of the control signal based on identifying the acoustic marker; and communicating the adjusted control signal to the actuator of the intravascular imaging device. | 12-03-2015 |
Patent application number | Description | Published |
20080282907 | Rechargeable Food Chilling Device - A food chilling device has a generally cylindrical elongate body with an outer wall, a closed end, an open end, a reservoir within the outer wall between the open and closed ends, and a reference axis oriented lengthwise between the open and closed ends. A closure assembly is removably installed on the device to close off the open end of the body and to seal the reservoir. In one example, a first handle extends outward in a radial direction relative to the reference axis of the body and has a first grip spaced outward beyond the outer wall. A second handle extends in a lengthwise direction and has a second grip spaced from the open end of the body. In another example, the closure assembly has an annular collar surrounding the open end of the body and with an inward extending circumferential shoulder. A cap with a stopper section engages the collar to close off the open end of the body. A seal is compressed against the step such that the step and seal are sandwiched between the shoulder of the collar and a surface on the stopper section to seal the reservoir. | 11-20-2008 |
20090140536 | One-Handed Ice Scoop - An ice scoop is disclosed and has a scoop section with a bottom, a leading edge, two spaced apart side walls extending up from opposed sides of the bottom, and a back between the two side walls extending up from the bottom opposite the leading edge. The scoop has a cavity formed within the bottom, the side walls, and the back, and having an open front end and extending rearward therefrom. The scoop has a handle connected to and extending rearward from the back. The scoop cavity has an extended cavity section disposed under the handle that is a contiguous part of the cavity. The handle is spaced above the extended cavity section. | 06-04-2009 |
20090167038 | Two-Handed Ice Scoop - An ice scoop is disclosed and has a scoop section and a handle section. The scoop section includes a bottom with a forward end, a rear end, and opposed side edges, two opposed side walls extending up from the side edges of the bottom, and a back wall connecting the side walls and connected to the rear end of the bottom. A scoop cavity is defined within the scoop section. The handle section extends rearward from the back wall and has two elongate, opposed, and spaced apart rails. First and second grips extend laterally between the two rails. The first grip is spaced from the back wall. The second grip is spaced from the first grip further from the back wall. The handle section is oriented at an oblique angle relative to the bottom and angles upward away from the back. The handle has an offset step formed in the side rails. The forward end is a reinforced edge. The scoop has a hand shield at the back wall and spaced from the first grip. | 07-02-2009 |
20090206569 | Ice Transport System - An ice transport system includes a cart and a plurality of ice totes. The cart includes a bed and a plurality of retention structures mounted on the bed. The plurality of ice totes are arranged on a platform of the bed and contained on the platform by the plurality of retention structures. The plurality of retention structures are configured and positioned relative to the platform to contain the plurality of ice totes on the platform while leaving an access side of a plurality of sides of the platform open for loading and unloading the plurality of ice totes. In some cases, each ice tote may include a hang hook removably disposed within a recess in the exterior surface of the tote and configured to extend outward from the exterior surface. | 08-20-2009 |
Patent application number | Description | Published |
20120301278 | ENGINE ASSEMBLY INCLUDING TURBOCHARGER - A turbocharger includes a housing, a first rotor wheel, a second rotor wheel, a driveshaft, a first bearing and a second bearing. The housing defines a first region, a second region, an intake air inlet, an intake air outlet and an exhaust gas inlet. The first rotor wheel is located in the first region and the second rotor wheel is located in the second region. The first bearing is located on a first axial side of the first rotor wheel axially between the first and second rotor wheels and supports the driveshaft for rotation relative to the housing. The second bearing is located on a second axial side of the first rotor wheel and supports the first rotor wheel for rotation relative to the housing. | 11-29-2012 |
20130205775 | TURBOCHARGER BEARING ANTI-ROTATION PLATE - A turbocharger for an internal combustion engine includes a bearing housing with a bearing bore and a semi-floating bearing disposed within the bore. The turbocharger also includes a shaft having a first end and a second end, wherein the shaft is supported by the bearing for rotation about an axis within the bore. The turbocharger also includes a turbine wheel fixed to the shaft proximate to the first end and configured to be rotated about the axis by post-combustion gasses emitted by the engine. Additionally, the turbocharger includes a compressor wheel fixed to the shaft proximate to the second end and configured to pressurize an airflow being received from the ambient for delivery to the engine. Furthermore, the turbocharger includes a plate secured within the bearing housing and configured to prevent rotation of the bearing about the axis. An internal combustion engine employing such a turbocharger is also disclosed. | 08-15-2013 |
20130255252 | CONTROL OF BALANCE DRIFT IN TURBOCHARGER ROTATING ASSEMBLY - A turbocharger for an internal combustion engine includes a bearing housing with a bearing bore and a thrust wall. The bearing housing includes a journal bearing disposed within the bore. The turbocharger also includes a shaft supported by the journal bearing for rotation about an axis within the bore. The turbocharger also includes a turbine wheel fixed to the shaft and configured to be rotated about the axis by the engine's post-combustion gasses. The turbocharger additionally includes a compressor wheel fixed to the shaft and configured to pressurize an ambient airflow. Furthermore, the turbocharger includes a thrust bearing assembly pressed onto the shaft and configured to transmit thrust forces developed by the turbine wheel to the thrust wall. Pressing the thrust bearing assembly onto the shaft minimizes radial motion between the thrust bearing assembly and the shaft. An internal combustion engine employing such a turbocharger is also disclosed. | 10-03-2013 |
20130255253 | FLUID DRIVE MECHANISM FOR TURBOCHARGER - A turbocharger for an internal combustion engine includes a shaft, a first turbine wheel, a compressor wheel, and a second turbine wheel. The shaft includes a first end and a second end and is supported for rotation about an axis. The first turbine wheel is mounted on the shaft proximate to the first end and configured to be rotated about the axis by post-combustion gasses emitted by the engine. The compressor wheel is mounted on the shaft between the first and second ends and configured to pressurize an airflow being received from the ambient for delivery to the engine. The second turbine wheel is mounted on the shaft proximate to the second end and configured to be rotated about the axis by a pressurized fluid. An internal combustion engine employing such a turbocharger is also disclosed. | 10-03-2013 |
20140178188 | Turbo Wheel And Shaft Assembly - A turbine wheel and shaft assembly is provided for a turbocharger including a turbine wheel including a body portion supporting a plurality of blades on a first axial face thereof. A hub extends from a body portion on a second axial face. A shaft is welded to the hub at a weld location spaced from the second axial face. The weld location is spaced axially from the second axial face by a distance sufficient to provide a significant reduction in the residual stresses in the welded parts. This design is intended to mitigate turbine wheel imbalance problems. | 06-26-2014 |
20150226110 | TURBOCHARGER WASTE-GATE VALVE ASSEMBLY WEAR REDUCTION - A turbocharger for an internal combustion engine includes a rotating assembly having a turbine wheel disposed inside a turbine housing and a compressor wheel disposed inside a compressor cover. The turbocharger also includes a waste-gate assembly configured to selectively redirect at least a portion of the engine's post-combustion gases away from the turbine wheel. The waste-gate assembly includes a valve, a rotatable shaft connected to the valve, and a bushing fixed relative to the turbine housing and disposed concentrically around the shaft such that the shaft rotates inside the bushing to thereby selectively open and close the valve. The shaft is defined by an outer surface in contact with the bushing and the outer surface includes a coating composed of a ceramic-based material. An internal combustion engine employing such a turbocharger is also disclosed. | 08-13-2015 |
20150285301 | TURBOCHARGER BEARING HOUSING OIL GROOVE - A turbocharger for an internal combustion engine includes a bearing housing and a bearing bore defined by the bearing housing. The bearing bore has an annular bearing groove configured to receive a fluid. A journal bearing is disposed within the bore such that the annular bearing groove encircles the journal bearing and feeds the fluid thereto. The turbocharger also includes a rotating assembly having a shaft with a turbine wheel and a compressor wheel. The shaft has a longitudinal axis and is supported by the journal bearing for rotation within the bore about the axis. The annular bearing groove is characterized by a trapezoidal shape in a cross-sectional view of the bearing bore taken along and through the longitudinal axis. The trapezoidal shape is configured to generate Taylor vortices in the fluid for capturing debris carried by the fluid and keeping the debris from being fed to the journal bearing. | 10-08-2015 |
20150361985 | TURBINE OUTLET DIFFUSER - A turbocharger for an internal combustion engine includes a rotating assembly having a turbine wheel disposed inside a turbine housing and a compressor wheel disposed inside a compressor cover. The turbine housing defines a turbine outlet cavity, a turbine housing inlet, and a turbine housing outlet. The turbine housing inlet is configured to channel engine post-combustion gases to the turbine wheel and the turbine housing outlet is configured to exhaust the gases aft of the turbine wheel. A diffuser arranged inside the turbine outlet cavity is configured to channel the post-combustion gases aft of the turbine wheel and out to the turbine housing outlet, without discharging into the turbine outlet cavity. | 12-17-2015 |
20160084163 | TURBOCHARGER WASTE-GATE VALVE BUSHING - A turbocharger for an internal combustion engine includes a rotating assembly having a turbine wheel disposed inside a turbine housing and a compressor wheel disposed inside a compressor cover. The turbocharger also includes a waste-gate assembly configured to selectively redirect at least a portion of the engine's post-combustion gases away from the turbine wheel. The waste-gate assembly includes a valve, a rotatable shaft connected to the valve, and a bushing fixed relative to the turbine housing and disposed concentrically around the shaft such that the shaft rotates inside the bushing for opening and closing the valve. The bushing is defined by a length, an outer surface in contact with the turbine housing, and an inner surface in contact with the shaft. The inner surface includes a plurality of longitudinal grooves configured to counteract friction between the bushing and the shaft and avoid seizure of the shaft relative to the bushing. | 03-24-2016 |