Patent application number | Description | Published |
20080314154 | Method, Apparatus And System For Inspecting A Workpiece Having A Curved Surface - A non-destructive inspection method, apparatus and system are provided for inspecting a workpiece having a curved surface with at least one predefined radius of curvature. The apparatus, such as an inspection probe, includes a plurality of transducer elements positioned in an arcuate configuration having a predefined radius of curvature and a curved delay line. The curved delay line has an outer arcuate surface having a predefined radius of curvature that matches the predefined radius of curvature of the transducer elements. The curved delay line also has an inner arcuate surface that has at least one predefined radius of curvature that matches the at least one predefined radius of curvature of the curved surface of the workpiece. In addition to the inspection probe, the system includes an excitative source for triggering the transducer elements to emit signals into the workpiece and a computing device to receive the return signals. | 12-25-2008 |
20090025479 | METHOD AND APPARATUS FOR QUANTIFYING POROSITY IN A COMPONENT - A computer implemented method, or hardware filtration apparatus, and computer usable program code for measuring porosity in materials. An ultrasonic signal is emitted from a transmitting transducer in an ultrasonic measurement system into a material. A response signal is received at a receiving transducer in the ultrasonic measurement system from the material. The response signal is filtered to pass only frequencies in the response signal within a selected frequency range to form a filtered response signal. A porosity level of the material is identified using the filtered response signal. | 01-29-2009 |
20090107244 | APPARATUS AND METHOD FOR NONDESTRUCTIVE INSPECTION OF PARTS - A method of inspecting a radius area of composite parts with an ultrasonic inspection system, the system includes at least one ultrasonic probe, an upper sliding surface, a lower sliding surface, an adjustable guide rail, and an adjustable encoder wheel rotatably coupled to a rotary encoder, is provided. The method includes generating a high frequency sound wave using the probe including a radius of curvature extending from a center point, the sound wave travels partially through the part, adjusting the guide rail to align the center point of the probe with a center axis of a part corner portion, sliding the part through the inspection system to inspect the corner portion using the sound wave by rotating the wheel and rotary encoder such that the arcuate distance of the part is recorded, adjusting the wheel to avoid any apertures defined within the part, and processing the sound wave information. | 04-30-2009 |
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 |
20100064812 | ULTRASONIC PROBE - An ultrasonic probe includes a probe body having a contact surface and a cavity that is open at the contact surface, an ultrasonic transducer carried by the body, and a spacer within the cavity. The spacer has a first surface acoustically coupled to the transducer, and a second (coupling) surface within the cavity. The spacer propagates an acoustic signal between the transducer and the coupling surface. The coupling surface is spaced apart from the contact surface to form a recess within the body. The body further has at least one port for circulating a coupling fluid into the recess. Depth of the recess is selected to balance gravitational force on the coupling fluid versus surface tension of the coupling fluid so a bead of the fluid forms over an edge of a structure under inspection as the probe is moved over the edge. | 03-18-2010 |
20100198076 | Ultrasonic Aperture Scanning System and Method - An ultrasonic aperture scanning system includes a transducer insert having an insert plug, an ultrasonic transducer carried by the transducer insert and an indicator unit having at least one indicator interfacing with the ultrasonic transducer. | 08-05-2010 |
20120174674 | GEOMETRY COMPENSATING TRANSDUCER ATTACHMENTS FOR ULTRASONIC INSPECTION OF CHAMFERS OR COUNTERSUNK SURFACES - A geometry compensating transducer attachment for ultrasonic inspection of a structure includes a geometry-compensating structure having at least one angled surface configured to engage the structure to be inspected, and the geometry-compensating structure having an acoustic velocity generally matching an acoustic velocity of the structure to be inspected. | 07-12-2012 |
20130319120 | APPARATUS AND METHOD FOR INSPECTING A TUBE - An apparatus for inspecting a tubular workpiece may include a probe assembly and a rotation mechanism. The probe assembly may include a transducer array positionable adjacent to an inner surface of the tubular workpiece. The probe assembly may generate transmitted sound waves and may receive reflected sound waves. The rotation mechanism may rotate the probe assembly relative to the tubular workpiece in a manner such that the transducer array passes over the inner surface in a circumferential direction during transmission of the transmitted sound waves. | 12-05-2013 |
20130340531 | Method for Ultrasonic Inspection of Irregular and Variable Shapes - System and method for enabling ultrasonic inspection of a variable and irregular shape. The system comprises one or more ultrasonic pulser/receivers, one or more ultrasonic transducer arrays, a shoe or jig to hold and position the array(s), data acquisition software to drive the array(s), and data analysis software to select a respective best return signal for each pixel to be displayed. This system starts with information about the general orientation of the array relative to the part and a general predicted part shape. More specific orientation of the transmitted ultrasound beams relative to the part surface is done electronically by phasing the elements in the array(s) to cover the expected (i.e., predicted) surface as well as the full range of part surface variability. | 12-26-2013 |
20140005840 | Automated Inspection of Soft-Tooled Hollow Structure | 01-02-2014 |
20140060197 | ULTRASONIC ARRAY TRANSDUCER HOLDER AND GUIDE FOR FLANGES HAVING CUTOUTS AND ASYMMETRIC GEOMETRY - An ultrasonic inspection device employs a transducer incorporating an ultrasonic array and a positioner/holder having abase with a rail extending from the base to support the transducer in at least two lateral positions. A guide extends from the base for contact with a web of a composite shape, the guide maintaining the rail substantially perpendicular to the web. An encoder supported by the base and contacts a flange of the composite shape. The Positioner/holder is adapted for longitudinal motion along the composite shape to create C-scans with the transducer. | 03-06-2014 |
20140116144 | THIN-FILM ULTRASONIC PROBE HAVING A FLEXIBLE MEMBRANE - A method comprises positioning an ultrasonic probe against a surface of an item. The probe includes a chamber formed in part by a flexible membrane, which is opposite the surface. The method further comprises moving the probe along the surface while varying chamber pressure to flex the membrane to accommodate the surface. | 05-01-2014 |
20150053014 | APPARATUS FOR INSPECTING A TUBE - An apparatus for inspecting a tubular workpiece may include a probe assembly and a rotation mechanism. The probe assembly may include a transducer array positionable adjacent to an inner surface of the tubular workpiece. The probe assembly may generate transmitted sound waves and may receive reflected sound waves. The rotation mechanism may rotate the probe assembly relative to the tubular workpiece in a manner such that the transducer array passes over the inner surface in a circumferential direction during transmission of the transmitted sound waves. | 02-26-2015 |