Patents Assigned to Renishaw, PLC
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Patent number: 11009374Abstract: A sealed encoder module for mounting onto a machine so as to measure relative displacement of first and second parts of the machine. The sealed encoder module can comprise, a scale, a readhead comprising a scale signal receiver, and an integral protective housing which encapsulates at least the scale and said scale signal receiver. The sealed encoder module can be configured to determine and output diagnostic information regarding a scale signal detected by the readhead.Type: GrantFiled: December 1, 2016Date of Patent: May 18, 2021Assignee: RENISHAW PLCInventors: Finlay Jonathan Evans, James Reynolds Henshaw, Stephen Lindsey Tocknell, Richard David James Gearing
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Publication number: 20210129426Abstract: A method of laser processing including generating a laser beam having, at different longitudinal positions in a propagation direction, first and second transverse beam profiles of energy density. The first transverse beam profile is different to the second transverse beam profile and is non-Gaussian. The method includes carrying out a scan of the laser beam across a working surface, wherein, during the scan, the laser beam and/or working surface is adjusted such that, for a first part of the scan, the first transverse beam profile is located at the working surface and, for a second part of the scan, the second transverse beam profile is located at the working surface.Type: ApplicationFiled: August 8, 2018Publication date: May 6, 2021Applicant: RENISHAW PLCInventor: Ian James THOMSON
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Patent number: 10994335Abstract: A selective solidification apparatus includes a build chamber, a build platform lowerable in the build chamber, a wiper for spreading powder material across the build platform to form successive powder layers of a powder bed, an energy beam unit for generating an energy beam for consolidating the powder material, a scanner for directing and focusing the energy beam onto each powder layer and a processor for controlling the scanner. The processor is arranged to control the scanner to scan the energy beam across the powder bed to consolidate powder material either side of the wiper when the wiper is moving across the powder bed and to scan the energy beam across at least one of the powder layers during two or more strokes of the wiper across the powder bed.Type: GrantFiled: March 18, 2015Date of Patent: May 4, 2021Assignee: RENISHAW PLCInventors: Ceri Brown, Geoffrey McFarland
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Publication number: 20210123774Abstract: An encoder apparatus comprising a scale and a readhead assembly comprising a scale signal receiver. The scale and the scale signal receiver are located within a protective housing which is configured to protect them from contamination located outside the protective housing and comprises a seal through which the scale signal receiver can be connected to a part outside the protective housing. The arrangement of the scale signal receiver inside the protective housing is independent of the scale and protective housing.Type: ApplicationFiled: December 21, 2020Publication date: April 29, 2021Applicant: RENISHAW PLCInventors: Finlay Jonathan EVANS, James Reynolds HENSHAW, Stephen Lindsey TOCKNELL
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Patent number: 10989567Abstract: A method of operating a position encoder apparatus, including a scale having features defining position information and a readhead for reading the scale. The method includes: calculating extrapolated position information from at least one previous reading of the scale; comparing an extrapolated position with a position calculated from a reading of the scale to determine any discrepancy between them; using the extrapolated position information whether or not there is a discrepancy; and maintaining a record of any discrepancies.Type: GrantFiled: June 4, 2010Date of Patent: April 27, 2021Assignee: RENISHAW PLCInventor: Andrew Paul Gribble
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Publication number: 20210116897Abstract: A method of producing a workpiece which is successively loaded onto two or more machine tools and one or more machining operations are performed to produce one or more features of the workpiece on each machine tool. After the machining operations on both or all of the machine tools, the workpiece is passed to a common dimensional inspection station. At the common dimensional inspection station, dimensions of the features of the workpiece produced by the machining operations on the two or more machine tools are measured. Based on the results of measuring the dimensions of the features, two or more output signals are produced which respectively relate to the performance of the two or more machine tools which performed the machining operations. Each of the output signals is fed back to the machine tool which performed the respective operation, to adjust the production process of each corresponding machine tool.Type: ApplicationFiled: December 12, 2018Publication date: April 22, 2021Applicant: RENISHAW PLCInventor: Kevyn Barry JONAS
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Patent number: 10983504Abstract: This invention concerns apparatus for generating instructions for machines of a manufacturing chain used to manufacture a workpiece. The apparatus comprising a processor arranged to receive a model based definition (MBD) of a workpiece including geometric dimensions and tolerances; receive inputs setting an additive build design for building the workpiece based upon the geometric dimensions; generate additive instructions for an additive manufacturing machine of the manufacturing chain based upon the additive build design; determine a prospective intermediate workpiece product expected from an additive build in accordance with the additive build design; determine differences between the prospective intermediate workpiece product and the model based definition of the workpiece; and generate further instructions for at least one further machine of the manufacturing chain based upon the differences.Type: GrantFiled: September 29, 2016Date of Patent: April 20, 2021Assignee: RENISHAW PLCInventors: Geoffrey McFarland, Ramkumar Revanur, Mark Buckingham
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Patent number: 10982334Abstract: The invention provides a substrate treatment method and apparatus. Embodiments show a substrate in the form of a rotary encoder ring having a pattern of marks producable by means of a laser treatment device controllable to produce the pattern in the correct manner while there is continuous relative displacement between the ring and the laser treatment device.Type: GrantFiled: March 8, 2010Date of Patent: April 20, 2021Assignee: RENISHAW PLCInventors: Alexander David Scott Ellin, James Reynolds Henshaw, David Roberts McMurtry
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Patent number: 10974184Abstract: A filter assembly for an additive manufacturing apparatus has a housing defining a gas inlet and a gas outlet. A filter element is located within the housing between the gas inlet and the gas outlet. The assembly includes valves that can be actuated to seal the gas inlet and the gas outlet. Additionally the assembly has a fluid inlet for allowing ingress of a fluid into the housing. The assembly allows a filter element, which may contain volatile particles, to be changed safely. By sealing the gas inlet and outlet and flooding the housing with a suitable fluid, volatile particles captured by the filter can be neutralised.Type: GrantFiled: June 17, 2014Date of Patent: April 13, 2021Assignee: RENISHAW PLCInventors: Simon Peter Scott, Christopher Sutcliffe
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Patent number: 10967502Abstract: A coordinate positioning machine that includes: a structure moveable within a working volume of the machine, a hexapod metrology arrangement for measuring the position of the structure within the working volume, and a non-hexapod drive arrangement for moving the structure around the working volume. Also, a coordinate positioning machine including a structure moveable within a working volume of the machine, a drive arrangement for moving the structure around the working volume in fewer than six degrees of freedom, and a metrology arrangement for measuring the position of the structure within the working volume in more degrees of freedom than the drive arrangement.Type: GrantFiled: October 12, 2018Date of Patent: April 6, 2021Assignee: RENISHAW PLCInventor: Stephen Mark Angood
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Patent number: 10933468Abstract: A method of monitoring an additive manufacturing apparatus. The method includes receiving one or more sensor signals from the additive manufacturing apparatus during a build of a workpiece, comparing the one or more sensor signals to a corresponding acceptable process variation of a plurality of acceptable process variations and generating a log based upon the comparisons. Each acceptable process variation of the plurality of acceptable process variations is associated with at least one state of progression of the build of the workpiece and the corresponding acceptable process variation is the acceptable process variation associated with the state of progression of the build when the one or more sensor signals are generated.Type: GrantFiled: November 14, 2016Date of Patent: March 2, 2021Assignee: RENISHAW PLCInventors: Nicholas Henry Hannaford Jones, Ceri Brown, Ramkumar Revanur, Geoffrey McFarland
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Patent number: 10933620Abstract: This invention concerns an additive manufacturing apparatus for building a part by selectively consolidating flowable material in a layer-by-layer process comprising a build chamber (101) for building the part, a module (105, 106) for providing a focussed energy beam for consolidating flowable material in the build chamber, a gas flow circuit for generating a gas flow through the build chamber (101). At least one filter assembly (200, 201) may be arranged in the gas flow circuit, the or each filter assembly (200, 201) having associated therewith a valve (V-4, V-8) operable to seal the gas circuit upstream from the filter assembly (200, 201) and a valve (V-5, V-9) operable to seal the gas flow circuit downstream of the filter assembly (200, 201), the arrangement allowing a filter element (E-5, E-7) of the filter assembly (200, 201) to be changed whilst maintaining a controlled atmosphere in the build chamber (101).Type: GrantFiled: November 17, 2015Date of Patent: March 2, 2021Assignee: RENISHAW PLCInventors: Christopher John Sutcliffe, Jason Joannou, Jack Dunkley, Ramkumar Revanur
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Patent number: 10926327Abstract: An additive manufacturing apparatus including a build chamber in which an object is built and a flow device. The flow device comprises a body having a Coand{hacek over (a)} surface and a passageway connectable to a pressurised gas source. The passageway has an opening located adjacent to the Coand{hacek over (a)} surface to, in use, direct a jet of gas over the Coand{hacek over (a)} surface. A space adjacent the Coand{hacek over (a)} surface is in fluid communication with the build chamber such that gas drawn into and/or propelled from the space causes gas flow through the build chamber.Type: GrantFiled: June 11, 2015Date of Patent: February 23, 2021Assignee: RENISHAW PLCInventors: Christopher Sutcliffe, Ceri Brown
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Publication number: 20210039259Abstract: A method of calibrating a coordinate positioning machine is described. The machine is controlled into a pivot pose in which a target point associated with a moveable part of the machine and a pivot point associated with a fixed part of the machine are separated from one another by a known separation. An error value for that pose is determined based on the known separation and a separation expected for that pose from the existing model parameters of the machine. The machine is controlled into a plurality of different target poses, and for each target pose a separation between the target point and the pivot point is measured and an error value for that pose is determined based on the measured separation and a separation expected for that pose from the existing model parameters.Type: ApplicationFiled: February 25, 2019Publication date: February 11, 2021Applicant: RENISHAW PLCInventors: Julius DUPREZ, Clive Michael WARREN
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Publication number: 20210039167Abstract: This invention concerns a laser solidification apparatus for building objects by layerwise solidification of powder material. The apparatus including a build chamber containing a build platform, a device for depositing layers of powder material on to the build platform, an optical unit for directing a laser beam to selectively solidify areas of each powder layer and a spectrometer for detecting characteristic radiation emitted by plasma formed during solidification of the powder by the laser beam. The invention also relates to a spectrometer for detecting characteristic radiation generated by interaction of the metal with the or a further laser beam. The spectra recorded using the spectrometer may be used for feedback control during the solidification process.Type: ApplicationFiled: October 26, 2020Publication date: February 11, 2021Applicant: RENISHAW PLCInventors: Ian Robert Thomas ASHTON, Stephan KLOSS, Christopher SUTCLIFFE, Ben Ian FERRAR
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Publication number: 20210039323Abstract: A method of verifying a build of a part, in which the part is built in an additive manufacturing process by layerwise consolidation of material and a verification artefact for use in the method including building a verification artefact together with the part in the additive manufacturing process, measuring a feature of the verification artefact with a surface sensing probe to determine measured geometric dimensions of the feature, and qualifying the build of the part based upon a comparison between the measured geometric dimension and an expected dimension for the feature.Type: ApplicationFiled: January 31, 2019Publication date: February 11, 2021Applicant: RENISHAW PLCInventor: Thomas David FARR
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Publication number: 20210033379Abstract: A surface finish stylus and associated methods for a multi-directional scanning probe the stylus having an elongate stylus shaft having a longitudinal axis and one or more contact elements protruding from the elongate shaft for contacting a surface to be measured. The one or more contact elements are configured to enable measurement of surface finish during motion of the stylus shaft relative to a surface along a measurement direction that is non-parallel to the longitudinal axis. The multi-directional scanning probe may be carried by a coordinate measuring machine or machine tool.Type: ApplicationFiled: April 23, 2019Publication date: February 4, 2021Applicant: RENISHAW PLCInventors: Stephen Edward LUMMES, Mark James Andrew HOLMES
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Publication number: 20210033376Abstract: A non-Cartesian coordinate positioning machine that includes an extendable leg assembly for positioning a component such as a measurement probe within a working volume of the machine. The extendable leg assembly includes a first member and a second member which move relative to one another when the extendable leg assembly changes length. The first member including an axial arrangement of magnets forming part of a linear motor for extending and retracting the extendable leg assembly, and at least one resilient member for absorbing at least some of any axial thermal expansion or contraction of the magnets in use.Type: ApplicationFiled: October 8, 2020Publication date: February 4, 2021Applicant: RENISHAW PLCInventor: Stephen Mark ANGOOD
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Publication number: 20210031446Abstract: A method of selecting a scanning sequence of a laser beam in a selective laser solidification process, in which one or more objects are formed layer-by-layer by, repeatedly, depositing a layer of powder on a powder bed and scanning a plurality of laser beams over the deposited powder to selectively solidify the powder layers, wherein a gas flow is passed over the powder bed in a gas flow direction. The method including selecting a scanning sequence for the plurality of laser beams to include the simultaneous exposure of an upstream point together with a downstream point located downstream of a flow of debris carried from the upstream point by the gas flow, the downstream and upstream points selected for simultaneous exposure based upon the downstream point being within a maximum separation distance from the upstream point.Type: ApplicationFiled: April 29, 2019Publication date: February 4, 2021Applicant: RENISHAW PLCInventors: Ravi ASWATHANARAYANASWAMY, Marc Thomas Berkeley SAUNDERS
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Patent number: 10907997Abstract: An encoder apparatus comprising a scale and a readhead assembly comprising a scale signal receiver. The scale and the scale signal receiver are located within a protective housing which is configured to protect them from contamination located outside the protective housing and comprises a seal through which the scale signal receiver can be connected to a part outside the protective housing. The arrangement of the scale signal receiver inside the protective housing is independent of the scale and protective housing.Type: GrantFiled: December 1, 2016Date of Patent: February 2, 2021Assignee: RENISHAW PLCInventors: Finlay Jonathan Evans, James Reynolds Henshaw, Stephen Lindsey Tocknell