Entries |
Document | Title | Date |
20080236286 | Non-destructive tubular testing - A shoe apparatus for a tubular inspection, the shoe apparatus including a body, a circuit board attached to the body, a film on the backing body, the film made of piezoelectric material, a plurality of ultrasonic transducers on the film, and each ultrasonic transducer of the plurality of ultrasonic transducers connected to the circuit board. | 10-02-2008 |
20080264171 | Reconfigurable array with multi-level transmitters - An imaging probe having multi-level transmitter cells. The imaging probe includes a plurality of acoustical sub-elements for transmitting and receiving acoustic energy for imaging. Each of the multi-level transmitter cells is arranged along a respective transmitter cell path between a switching matrix and one of the acoustical sub-elements. The multi-level transmitter cells in the probe are capable of producing signals having multiple voltage levels. | 10-30-2008 |
20080307887 | RAPID PROTOTYPE INTEGRATED MATRIX ULTRASONIC TRANSDUCER ARRAY INSPECTION APPARATUS, SYSTEMS, AND METHODS - Apparatus, systems, and methods for inspecting a structure are provided which use a sensor holder constructed from rapid prototyping, such as stereolithography, and which is configured to support a plurality of inspection sensors typically arranged in an ordered matrix array and possibly with one or more additional inspection sensors aligned for inspection of difficult to inspect features of a structure such as radius corner or edge features. Rapid prototype integrated matrix array inspection apparatus, systems, and methods provide fast and efficient methods of constructing custom inspection devices. | 12-18-2008 |
20090084183 | SLIP RING POSITIVE Z FORCE LIQUID ISOLATION FIXTURE PERMITTING ZERO NET FORCE ON WORKPIECE - Apparatus for Scanning Acoustic Microscopy (SAM) of a semiconductor device including a substrate with an acoustic probe, The substrate has upper and lower surfaces. A sealed lower space provides an environment surrounding the lower surface. An upper ring structure formed above the upper surface includes an upper sealing ring in contact with the upper surface, with the upper sealing structure and the seal forming a dam for retaining the acoustic transmission fluid above the upper surface. A fixture base retains a lower sealing ring in contact with the lower surface surrounding the lower surface. An acoustic scanning probe positioned confronting the upper surface of the semiconductor device extending into the acoustic transmission fluid retained in contact with the upper surface. | 04-02-2009 |
20090126493 | NONDESTRUCTIVE INSPECTION HEADS FOR COMPONENTS HAVING LIMITED SURROUNDING SPACE - An inspection head where non-destructive inspection is structured to fit into narrow spaces, and to accurately and repeatably move an inspection probe along a surface to be inspected. Movement of the inspection head along an X, Y, Z, Θ, and Φ-axis is precisely controlled by individual drive mechanisms. | 05-21-2009 |
20090133500 | INTEGRATED ULTRASONIC INSPECTION PROBES, SYSTEMS, AND METHODS FOR INSPECTION OF COMPOSITE ASSEMBLIES - Apparatus, systems, and methods for inspecting a structure are provided which permit inspection of uniquely shaped structures such as fuselage frames and shear ties. Probes may be constructed from rapid prototyping. Inspection may be performed manually and may use a portable function support system for delivering fluid couplant, controlling transmit and receive functions of the inspection sensors, and delivering immediate visual analysis for an operator. Integrated ultrasonic inspection apparatus, systems, and methods facilitate fast and efficient custom inspection devices and inspecting otherwise difficult-to-inspect structures. | 05-28-2009 |
20090165562 | MECHANISM FOR ADAPTIVE CONTOUR COMPLIANCE - An apparatus for inspecting samples that may include a curvature that varies from sample to sample comprises a scanning element, a feed mechanism, and a pivot mechanism. The scanning element transmits and receives a signal to and from the sample as the sample passes by, thereby building an image or profile of the sample. The feed mechanism includes a drive motor coupled to a series of pulleys and belts that form an open-ended chain. The pulleys rotate when driven by the drive motor and are coupled to an array of rollers that rotate as well to propel a inspection sample past the scanning element. The pivot mechanism includes a series of primary and secondary links that also form an open-ended chain. The primary links are coupled to the rollers and the combination pivots in unison to form an arc that matches the curvature of the sample in order to maintain a fixed distance between the sample and the scanning element. | 07-02-2009 |
20090272191 | Opto-acoustic methods and apparatus for performing high resolution acoustic imaging and other sample probing and modification operations - One aspect of the present invention concerns scanning acoustic microscopes in which sound waves used for imaging purposes are generated by an opto-acoustical process. A scanning acoustic microscope of the present invention includes an opto-acoustic transducer assembly having a substrate. Formed on or in the substrate of the opto-acoustic transducer assembly is a layer of opto-acoustic material. When pulsed light waves impinge the layer of opto-acoustic material, pulsed sound waves are created. An acoustic lens also formed in the substrate focuses the pulsed sound waves which are then used to probe the physical and mechanical properties of a sample object. Pulsed sound waves reflecting off the sample object return to the opto-acoustic transducer where the pulsed sound waves impinge the layer of opto-acoustic material. The impinging sound waves change at least one optical property of the layer of opto-acoustic material. This change, which is dependent on changes to the pulsed sound waves caused by the interaction of the pulsed sound waves and the sample object, is then sensed using pulsed light waves. In one possible embodiment of the present invention, the layer of opto-acoustic material is deposited on the substrate in a plurality of non-contiguous concentric rings. The plurality of non-contiguous concentric rings operates as an acoustic analogue of a Fresnel lens. | 11-05-2009 |
20100011863 | METHOD AND APPARATUS FOR COMPUTED TOMOGRAPHY - An apparatus for performing tomographic imaging of an object comprising means for conveying the object through a first imaging means and a second imaging means which are static relative to the conveying means and are comprised of at least one source and detector. The source illuminates the detector with a beam to obtain a tomographic slice with the tomographic slice of the first and second imaging means being coplanar. Between the two imaging means the movement involves a change of direction of motion of the object in the same plane as the tomographic slice whilst maintaining the objects orientation relative to the apparatus. | 01-21-2010 |
20100126278 | FLAW DETECTION TRACKING DEVICE FOR PIPE OR TUBE AND AUTOMATIC FLAW DETECTING APPARATUS FOR PIPE OR TUBE USING THE SAME - A tracking device is provided with a non-contact type displacement gauge, a positioner which moves a flaw detecting sensor within a plane perpendicular to an axial direction of a pipe or tube, and a positioning controller which controls the positioner. The positioning controller predicts a time until a portion of the pipe or tube whose displacement is measured by the displacement gauge reaches a predetermined position on a straight line extending in a Z-axis direction through a rotational center of the pipe or tube on the basis of the positional relationship between the displacement gauge and the flaw detecting sensor and a rotational speed of the pipe or tube; controls the positioner on the basis of the displacement measured by the displacement gauge and an operational delay time of the positioner in such a manner that the relative position of the flaw detecting sensor to the pipe or tube after the lapse of the predicted time becomes substantially constant in the Z-axis direction; and moves the flaw detecting sensor along the Z-axis direction. The positioning controller performs the same control in an X-axis direction. | 05-27-2010 |
20100175474 | SYSTEM AND METHOD FOR ADAPTABLE APERTURE PLANAR PHASED ARRAY - A system for an adaptable aperture planar array for maintaining source resolution is provided. The system includes a first nested array defining a first aperture responsive to a first range of frequencies. The first aperture is sized based on an angle between the array and the source, and includes a first subset of sensor elements. The system includes a second nested array defining a second aperture responsive to a second range of frequencies that is less than the first range of frequencies. The second aperture is sized based on the angle between the array and the source, and includes a second subset of sensor elements. The first aperture and second aperture change in size as the angle changes, which results in a change in the sensor elements within the first subset and the second subset to maintain the source resolution for the array. | 07-15-2010 |
20100180683 | METHOD AND APPARATUS FOR THE MANUAL NON-DESTRUCTIVE TESTING OF TUBULAR AXLE SHAFTS WITH VARIABLE INTERNAL AND EXTERNAL RADIUS PROFILES - An apparatus testing axle shafts including i) at least one ultrasonic probe to analyze, in a selected angular sector, selected portions of a wall exhibiting known variable internal and external radius profiles of a tubular axle shaft and thus acquire analysis data, ii) a controller to determine, as a function of the profiles and possible loading and environment of the shaft, at least one first and at least one second selected site on the external or internal surface of the wall where each probe is to be placed manually, to analyze at least one first and at least one second selected portion of the wall respectively in at least one first and at least one second selected angular sector oriented in first and second opposing longitudinal or transverse directions, and thus acquiring analysis data for various relative angular positions of the shaft in relation to the probe, and iii) a processor to create from these acquired analysis data maps representing the transverse or longitudinal orientations and the positions of indications of echoes within the wall. | 07-22-2010 |
20100288050 | MECHANISM FOR ADAPTIVE CONTOUR COMPLIANCE - An apparatus for inspecting samples that may include a curvature that varies from sample to sample comprises a scanning element, a feed mechanism, and a pivot mechanism. The scanning element transmits and receives a signal to and from the sample as the sample passes by, thereby building an image or profile of the sample. The feed mechanism includes a drive motor coupled to a series of pulleys and belts that form an open-ended chain. The pulleys rotate when driven by the drive motor and are coupled to an array of rollers that rotate as well to propel a inspection sample past the scanning element. The pivot mechanism includes a series of primary and secondary links that also form an open-ended chain. The primary links are coupled to the rollers and the combination pivots in unison to form an arc that matches the curvature of the sample in order to maintain a fixed distance between the sample and the scanning element. | 11-18-2010 |
20110120223 | ULTRASONIC INSPECTION METHOD - A method for ultrasonically inspecting components with wavy or uneven surfaces. A multi-element array ultrasonic transducer is operated with a substantial fluid layer, such as water, between the array transducer and the component surface. This fluid layer may be maintained by immersing the component in liquid or by using a captive couplant column between the probe and the component surface. The component is scanned, measuring the two dimensional surface profile using either a mechanical stylus, laser, or ultrasonic technique. Once an accurate surface profile of the component's surface has been obtained, data processing parameters are calculated for processing the ultrasonic signals reflected from the interior of the component that eliminate beam distortion effects and reflector mis-location that would otherwise occur due to the uneven surfaces. | 05-26-2011 |
20110259105 | METHOD AND DEVICE FOR ULTRASONIC TESTING OF A COMPONENT - A device and a method for ultrasonic testing by means of a local immersion technique of a stringer component section of a flat component are provided. The device includes a test head assembly mounted as moving floatingly by a holding device in the Y-direction longitudinally. The test head assembly includes: a test head that can be connected to an automatically actuated handling device and that can be moved by the handling device along the stringer; a test head holder; and a counter-holder coupled with the test head holder by an actuation element, wherein the actuation element is configured to steer the test head holder and the counter-holder from a closed position to an open position, the test head holder and the counter-holder being mounted floatingly along a guiding rail running in the X-direction transversely to the stringer, and fit, in a force-loaded manner, to each side surface of the stringer. | 10-27-2011 |
20120073375 | METHOD FOR CHECKING THE MECHANICAL INTEGRITY OF STABILIZING ELEMENTS ON THE ROTOR BLADES OF A TURBINE AND SCANNING DEVICE FOR IMPLEMENTING THE METHOD - A method for checking a mechanical integrity of at least two stabilizing elements includes providing the at least two stabilizing elements that mechanically interconnect blade airfoils of rotor blades of a turbine in a circumferential direction of the turbine in an installed state of the turbine. The at least two stabilizing elements are adjacent to one another and inter-engage to form an engagement section having a material volume of the at least two stabilizing elements in the engagement section. The material volume of the at least two stabilizing elements is scanned, in an automated manner using ultrasound, so as to determine whether cracks are present. The scanning is performed from an outside of the at least two stabilizing elements. | 03-29-2012 |
20120304773 | ESTIMATION OF PRESENCE OF VOID IN THROUGH SILICON VIA (TSV) BASED ON ULTRASOUND SCANNING - A method and apparatus to detect a defect in a three-dimensional integrated structure by ultrasound scanning and to non-destructively detect the presence of a void that can occur in a process in a through silicon via (TSV) arranged in a board, such as a silicon wafer. To avoid measurement by ultrasound scanning over a board surface from being impeded by an object, such as a (solder) bump, scattering ultrasound, one or more TSVs belonging to a test element group (TEG) are selected from among a plurality of TSVs such that physical obstruction in the vicinity of the TEG. | 12-06-2012 |
20120325004 | APPARATUS FOR PIPELINE INSPECTION AND METHOD OF PIPELINE INSPECTION - An apparatus for pipeline inspection is provided. The apparatus comprising a body comprising a longitudinal axis a sensor unit in association with the body, wherein the sensor unit comprises an array of ultrasonic sensors configured to inspect a pipe wall and a skid comprising an outer surface configured to run adjacent to, or in contact with, the pipe wall, wherein the array of ultrasonic sensors are arranged at a stand off from the outer surface of the skid, and a mechanism configured to bias the outer surface of the skid into contact with the pipe wall, and to move the sensor unit between a first radial position and a second radial position in response to changes in pipe diameter. | 12-27-2012 |
20130220018 | APPARATUS AND METHOD FOR INSPECTING A LAMINATED STRUCTURE - Systems and methods for inspecting a hole in a laminated structure. An exemplary system includes a transducer assembly configured to direct sound waves substantially parallel to a surface of the hole. The system further includes a controller that collects A-scan data for multiple rotational positions of the transducer assembly as the transducer assembly is rotated within the hole. The controller processes the A-scan data for the multiple rotational positions of the transducer assembly to generate B-scan data, and displays the B-scan data. | 08-29-2013 |
20130298682 | Variable Radius Inspection Using Sweeping Linear Array - Method and apparatus for enabling ultrasonic inspection of a changing, insufficiently defined or unknown shape (e.g., a variable radius or a noncircular radius caused by the use of soft tooling) at a rate that meets production requirements. The apparatus comprises a linear ultrasonic array (i.e., sensor) incorporated in a toppler, which in turn is slidably supported by an oscillating sensor mechanism carried by a traveling trailer vehicle. As a result of this arrangement, the sensor can undergo a back-and-forth sweeping motion coupled with motion along the spar radius. The sensor is further able to displace radially relative to a sweep pivot axis and rotate (hereinafter “topple”) about a topple pivot axis. In this manner, the orientation of the sensor can adjust to the contour of the inspected surface as the sensor scans. | 11-14-2013 |
20140007689 | ULTRASONIC WHEEL SCANNER - A scanner comprises a scanning array mounted within a rotatable assembly having a first wheel on a first side, a second wheel on a second side and a membrane forming a drum around the array wherein a load path is provided between the wheels to divert load from the membrane such that it can be made thinner. | 01-09-2014 |
20140020469 | TESTING OF ACOUSTIC IMAGING SYSTEMS OR PROBES - Appliances and methods are disclosed for testing operation of an acoustic device that generates beams of acoustic energy. An imaging array generates electrical signals in response to impinging receipt of acoustic energy. An acoustic-energy direction system is disposed to focus acoustic energy onto the imaging array. A controller is electrically coupled with the acoustic device and with the imaging array. The controller has instructions to generate an image on a display from electrical signals received by the controller from the imaging array. The electrical signals are received by the controller in response to generation of a beam of acoustic energy by the acoustic device. The beam of acoustic energy is directed towards the acoustic-energy direction system. The image provides a representation of the generated beam of acoustic energy. | 01-23-2014 |
20140083192 | Systems and Methods for Viewing Data Generated By Rotational Scanning in Non-Destructive Testing - The present application relates to a non-destructive testing system. The non-destructive testing system may include an ultrasonic probe and a hand-held display in communication with the ultrasonic probe. The hand-held display may be configured to display C-scan images or S-scan images. | 03-27-2014 |
20140116143 | Single channel scanning acoustic microscope with multiple focused ultrasonic transducers - A single channel scanning acoustic microscope that increases the throughput of the acoustic imaging system by connecting a multi-transducer assembly in parallel to a single channel electronic circuit. The single channel scanning acoustic microscope includes multiple transducers configured to generate a time delay for individual ultrasonic waves generated by each transducer, wherein a pulse generator simultaneously sends a pulse signal to the multi-transducer assembly. | 05-01-2014 |
20140260627 | CMM WITH FLAW DETECTION SYSTEM - A flaw detection system includes a CMM having a base and one or more transfer members, one or more articulation members connecting the one or more transfer members to the base, and a flaw detection sensor at a distal end, the CMM being configured to measure a location of the flaw detection sensor, and a processor configured to correlate the location of the flaw detection sensor as measured by the CMM with data detected by the flaw detection sensor. | 09-18-2014 |
20140305217 | Apparatus for Automated Rastering of an End Effector Over an Airfoil-Shaped Body - A mechanism for adjusting the orientation of an end effector (e.g., a non-destructive inspection sensor) during movement over a contoured surface, comprising: (1) a pneumatic or spring-loaded plunger shaft that facilitates positioning of an end effector onto a highly contoured surface by allowing a wide range of vertical motion; (2) a rocker pivotably coupled to a distal end of the plunger shaft, the rocker being pivotable about a horizontal axis to allow a pair of follower wheels coupled to distal ends of the rocker arms to follow the contoured surface and keep the end effector oriented correctly relative to the surface without tipping over; and (3) a hozzle (i.e., an end effector holder) attached to the rocker for rotation therewith, the end effector being coupled to the hozzle by an elastomeric gasket or a plurality of springs which allow the orientation of the end effector relative to the hozzle to change in response to contact forces. | 10-16-2014 |
20150053012 | Ultrasonic Testing Sensor and Ultrasonic Testing Method - An ultrasonic testing sensor and an ultrasonic testing method are provided which achieve a high sensitivity of three-dimensional ultrasonic testing and a high S/N ratio, do not require development of a sensor for each inspection object, and reduce the cost of developing a sensor. | 02-26-2015 |
20150082890 | BIOMETRIC SENSORS FOR PERSONAL DEVICES - Methods and systems may provide for a system having a flexible substrate, an ultrasonic transducer array coupled to the flexible substrate and a processor coupled to the ultrasonic transducer array. The processor may identify a fingerprint based on a signal from the ultrasonic transducer array. The system may also include an external component having a curved profile, wherein the ultrasonic transducer array is embedded in the external component and includes a read surface that conforms to the curved profile. In one example, the external component includes a button having a function that is separate from identification of the fingerprint. | 03-26-2015 |
20150300991 | MANUALLY OPERATED SMALL ENVELOPE SCANNER SYSTEM - A scanner system and method for acquisition of position-based ultrasonic inspection data are described. The scanner system includes an inspection probe and a first non-contact linear encoder having a first sensor and a first scale to track inspection probe position. The first sensor is positioned to maintain a continuous non-contact Interface between the first sensor and the first scale and to maintain a continuous alignment of the first sensor with the inspection probe. The scanner system may be used to acquire two-dimensional inspection probe position data by including a second non-contact linear encoder having a second sensor and a second scale, the second sensor positioned to maintain a continuous non-contact interface between the second sensor and the second scale and to maintain a continuous alignment of the second sensor with the first sensor. | 10-22-2015 |
20150300994 | CRANKSHAFT FLAW DETECTION DEVICE - A crankshaft flaw detection device ( | 10-22-2015 |
20150369780 | SYSTEMS AND METHODS FOR VIEWING DATA GENERATED BY ROTATIONAL SCANNING IN NON-DESTRUCTIVE TESTING - The present application relates to a non-destructive testing system. The non-destructive testing system may include an ultrasonic probe and a hand-held display in communication with the ultrasonic probe. The hand-held display may be configured to display C-scan images or S-scan images. | 12-24-2015 |
20160103115 | SCANNING SYSTEM FOR WOOD - A scanning system to analyze wood and determine defects includes at least two ultrasonic transducers configured to scan the wood from edge to edge by triangulating the wood. The at least two ultrasonic transducers are configured to find splits and shakes. | 04-14-2016 |
20160377578 | METHOD AND AN APPARATUS FOR BOLT INSPECTION - A method and an apparatus for bolt inspection are presented. The bolt has a cylindrical threaded surface delimited by a pair of end faces that are opposite to each other. An ultrasonic transducer device contacts one of the pair of end faces for performing a scan operation. A guide structure is engaged with the bolt that guides a motion of the ultrasonic transducer device such that only a portion of a transducer contact surface contacts the one of the pair of end faces during the scan operation. The guide structure delimits a radial extent of the motion of the ultrasonic transducer device during the scan operation. | 12-29-2016 |
20160377579 | SYSTEMS AND METHODS FOR VIEWING DATA GENERATED BY ROTATIONAL SCANNING IN NON-DESTRUCTIVE TESTING - A non-destructive testing system for testing a work piece. The non-destructive testing system includes an ultrasonic probe, including a matrix of transducers, and a control unit including a display. The control unit is configured to control the ultrasonic probe. The ultrasonic probe and the control unit are configured to obtain multiple S-scan images. The ultrasonic probe and the control unit are configured to obtain a first S-scan image at a first direction orientation, and the ultrasonic probe and the control unit are configured to obtain a second S-scan image at a second direction orientation different from the first direction orientation. The control unit is configured to process the first and second S-scan images to provide at least an image upon the display. | 12-29-2016 |