A welding system includes a motion tracking system comprising a camera having a lens. The welding system also includes a cover disposed over the lens of the camera. The cover is configured to enable infrared light to pass therethrough and to block environmental elements from contacting the lens of t
A welding system includes a motion tracking system comprising a camera having a lens. The welding system also includes a cover disposed over the lens of the camera. The cover is configured to enable infrared light to pass therethrough and to block environmental elements from contacting the lens of the camera. The cover is disposed over the lens of the camera at an angle relative to a face of the camera, and the angle is between approximately 10 and 60 degrees.
대표청구항▼
1. A welding system comprising: a welding stand comprising: a support structure configured to support a motion tracking system;a first rotatable arm coupled to the support structure and configured to rotate to a first position of a first plurality of positions to facilitate vertical welding, overhea
1. A welding system comprising: a welding stand comprising: a support structure configured to support a motion tracking system;a first rotatable arm coupled to the support structure and configured to rotate to a first position of a first plurality of positions to facilitate vertical welding, overhead welding, horizontal welding, or some combination thereof; anda linking assembly coupled to the motion tracking system and to the first rotatable arm, wherein the linking assembly is configured to rotate the motion tracking system relative to the support structure based at least in part on the first position of the plurality of positions of the first rotatable arm, the motion tracking system is configured to track a welding surface coupled to the first rotatable arm, and the first rotatable arm is mechanically linked to the motion tracking system. 2. The welding system of claim 1, wherein the welding stand comprises a second rotatable arm coupled to the support structure, wherein the second rotatable arm is configured to rotate to a second position of a second plurality of positions to facilitate vertical welding, overhead welding, horizontal welding, or some combination thereof. 3. The welding system of claim 2, wherein the first and second rotatable arms are configured to rotate separately. 4. The welding system of claim 2, wherein the first and second rotatable arms are configured to rotate together. 5. The welding system of claim 2, wherein the linking assembly is mechanically coupled to the first rotatable arm, to the second rotatable arm, and to the motion tracking system. 6. The welding system of claim 1, wherein the welding system comprises a brake to lock the first rotatable arm in a selected position of the first plurality of positions. 7. The welding system of claim 1, wherein the first rotatable arm comprises a welding plate, a clamp, or some combination thereof. 8. The welding system of claim 7, wherein the first rotatable arm comprises three first markers on a first surface of the first rotatable arm, and a second marker on second surface of the first rotatable arm, wherein the first surface is in a different plane than the second surface. 9. The welding system of claim 1, wherein the welding stand comprises a motor and the motion tracking system comprises a sensing device coupled to the motor, wherein the motor is configured to rotate the sensing device based at least in part on the first position of the first rotatable arm. 10. The welding system of claim 9, wherein the first rotatable arm comprises markers configured to be detected by the sensing device, and the motor is configured to rotate the sensing device based at least in part on the markers of the first rotatable arm detected by the sensing device. 11. The welding system of claim 1, wherein the welding stand comprises a horizontal welding surface, the support structure extends vertically from the horizontal welding surface, and the motion tracking system is configured to track the horizontal welding surface when the first rotatable arm is in a second position of a second plurality of positions configured to facilitate welding on the horizontal welding surface. 12. The welding system of claim 1, wherein the welding stand comprises a display coupled to the support structure, and the display is configured to display welding data related to a welding operation on the welding surface. 13. A welding system comprising: a welding stand comprising: a support structure configured to support a motion tracking system;an arm coupled to the support structure and configured to rotate to a position of a plurality of positions to facilitate vertical welding, overhead welding, horizontal welding, or some combination thereof;a linking assembly coupled to the arm and the motion tracking system; anda plate, a clamp, or some combination thereof coupled to the arm, wherein the vertical welding, the overhead welding, the horizontal welding, or some combination thereof is configured to be performed on a workpiece coupled to the plate, the clamp, or some combination thereof, wherein the plate, the clamp, or some combination thereof comprises a plurality of markers configured to be detected by the motion tracking system at the position of the plurality of positions, and the linking assembly is configured to rotate the motion tracking system relative to the support structure based at least in part on the plurality of markers detected by the motion tracking system. 14. The welding system of claim 13, comprising the motion tracking system, wherein the motion tracking system is configured to track the position of the arm using the plurality of markers to compensate for movement of the plate, the clamp, or some combination thereof that occurs before a welding operation, during the welding operation, or some combination thereof. 15. The welding system of claim 13, wherein the welding stand is a welding training stand. 16. The welding system of claim 13, wherein the welding stand comprises a motor and the motion tracking system comprises a sensing device coupled to the motor, wherein the motor is configured to rotate the sensing device based at least in part on a position of the arm. 17. A welding system comprising: a welding stand comprising: a support structure configured to support a motion tracking system;the motion tracking system rotatably coupled to the support structure, wherein the motion tracking system is configured to track a welding surface;a first rotatable arm coupled to the support structure and to the welding surface, wherein the first rotatable arm is configured to rotate the welding surface to a first position of a first plurality of positions to facilitate vertical welding, overhead welding, horizontal welding, or some combination thereof; anda linking assembly coupled to the motion tracking system and to the first rotatable arm, wherein the linking assembly is configured to rotate the motion tracking system relative to the support structure based at least in part on the first position of the plurality of positions of the first rotatable arm. 18. The welding system of claim 17, wherein the welding stand comprises a motor and the motion tracking system comprises a sensing device coupled to the motor, wherein the motor is configured to rotate the sensing device based at least in part on the first position of the first rotatable arm. 19. The welding system of claim 18, wherein the first rotatable arm comprises markers configured to be detected by the sensing device, and the motor is configured to rotate the sensing device based at least in part on the markers of the first rotatable arm detected by the sensing device. 20. The welding system of claim 17, wherein the welding stand comprises a second rotatable arm coupled to the support structure and to the linking assembly, wherein the second rotatable arm is configured to rotate to a second position of a second plurality of positions to facilitate vertical welding, overhead welding, horizontal welding, or some combination thereof.
James A. Goff ; Carl Fisherman ; Howard Scott Ryan ; Paul Eric Carlson, Adjustable magnifying apparatus and method for viewing video or computer screens.
Bloch Christopher J. ; Harrison Don ; Hill John, Apparatus and method for computerized interactive control, measurement and documentation of arc welding.
Friedl, Helmut; Feichtinger, Josef; Rumpl, Manuel; Mitterhauser, Martin; Niedereder, Franz, Assessing and/or determining of user authorizations using a transponder, a finger print recognition routine or the like.
Takayasu Ishikawa ; Takashi Kawabe ; James R. White ; Marla G. Tanimoto ; Jeffrey T. Batt, Attachable protective screen for image display device and installation method therefor.
Brush George W. (Maywood NJ) Strickland Lee T. (Great Neck NY) Hon David C. (Seattle WA) Harding Ronald E. (Seattle WA) Sallis Jane (Seattle WA), Audio visual instructional system.
Chen, Steven L.; Eliazar, Austin, Augmented reality (AR) system and method for tracking parts and visually cueing a user to identify and locate parts in a scene.
Cecil Dimitrios G. (1277 Ashover Dr. Bloomfield Hills MI 48304) Mumford William E. (2517 Gay La. Lansing MI 48912-4405) Chen Yajie (469 W. Forest ; Apr. #3 Detroit MI 48201), Automatic welder control system.
Westerman, Larry Alan; Coleman, Jeffrey Norris; Feather, Gary Alan; Florence, James M., Camera with spatially adjustable variable density optical filter and method for controlling the same.
Herbst Donald J. (Cape Girardeau MO) Fay Richard D. (Jackson MO) Frericks David L. (Jackson MO) Blair Bruce A. (Jackson MO), Device for training welders.
Mello Mark D. (Providence RI) Iemma Steven C. (N. Scituate RI) Hill Ray M. (Smithfield RI) Miller ; Jr. Charles W. (Johnston RI) Blais Louis G. (N. Providence RI) Andersen Carl E. (N. Providence RI) , Eddy current tool positioning system.
Paton Boris E. (Kiev SUX) Vasiliev Vsevolod V. (Kiev SUX) Bogdanovsky Valentin A. (Kiev SUX) Danilyak Sergei N. (Kiev SUX) Gavva Viktor M. (Kiev SUX) Roiko Jury P. (Kiev SUX) Nushko Valery A. (Kiev S, Electric-arc trainer for welders.
Clausen Eivind (Bellingham WA) Allsop James D. (Bellingham WA) Yeakel Michael W. (Bellingham WA) LaCelle LeRoy J. (Renton WA) Pierson Theodore F. (Seattle WA), Glare filter.
Zboray, David Anthony; Bennett, Matthew Alan; Wallace, Matthew Wayne; Hennessey, Jeremiah; Dudac, Yvette Christine; Lenker, Zachary Steven; Lundell, Andrew Paul; Dana, Paul; Preisz, Eric A., Importing and analyzing external data using a virtual reality welding system.
Zboray, David Anthony; Bennett, Matthew Alan; Wallace, Matthew Wayne; Hennessey, Jeremiah; Dudac, Yvette Christine; Lenker, Zachary Steven; Lundell, Andrew Paul; Dana, Paul; Preisz, Eric A., Importing and analyzing external data using a virtual reality welding system.
Kidwell J. Jeffrey (Louisville OH) Reed Stuart E. (Homeworth OH) Ryan Patrick M. (Alliance OH) Harwig Dennis D. (Canton OH) Womack ; Jr. E. Allen (Akron OH), Manual arc welding speed pacer.
Pryor Timothy R. (6360 Hawthrone Drive Windsor ; Ontario CAX N8T 1J9), Method and apparatus for assembly of car bodies and other 3-dimensional objects.
Smartt Herschel B. ; Kenney Kevin L. ; Johnson John A. ; Carlson Nancy M. ; Clark Denis E. ; Taylor Paul L. ; Reutzel Edward W., Method and apparatus for assessing weld quality.
Lantieri Louis T. (Mission Viejo CA) Kensrue Douglas M. (Irvine CA), Method and apparatus for controlling and simultaneously displaying arc welding process parameters.
Grabkowski Stephen E. (Schenectady NY) Schulz ; Jr. Max W. (Scotia NY) Williamson Robert D. (Bloomington IL), Method and apparatus for determining weld quality in percussion welding.
Boies Stephen J. (Mahopac NY) Comerford Liam D. (Carmel NY) Gould John D. (Yorktown Heights NY) Spraragen Susan L. (Ossining NY) Ukelson Jacob P. (Bronx NY), Method and apparatus for user control by deriving next states of a process from a current state and by providing a visua.
Herve Lepeltier FR, Method for automatically selecting the welding sequence for manual welding electrode holders; manual welding electrode holder for implementing the method.
Artelsmair, Josef; Brunner, Michael; Etzenberger, Rudolf, Method for continuously regulating or tracking a position of a welding torch or a welding head.
Vinzenz Jank AT; Manfred Ruhrnossl AT; Rupert Frauenschuh AT; Helmut Friedl AT, Method for controlling a welding apparatus and corresponding control device.
Nanjundan, Ashok; Dong, Pingsha; Zhang, Jinmiao; Brust, Frederick W.; Dong, Yi, Method for determining a model for a welding simulation and model thereof.
Allehaux, Delphine; Gatti, Jean-Loup, Method of assembling metal parts by friction welding, with the welding temperature being controlled using thermally conductive elements.
DiMatteo Paul (Huntington NY) Rademacher Paul (Glen Head NY) Stern Howard (Greenlawn NY), Method of sensing the position and orientation of elements in space.
Hu, Shixin Jack; Chu, Yunxian; Hou, Wenkao; Marin, Samuel Paul; Wang, Pei-Chung, Online monitoring system and method for a short-circuiting gas metal arc welding process.
Yao Kenji,JPX ; Miyamoto Masahiko,JPX ; Takegawa Ichiro,JPX ; Aida Michiko,JPX, Process for producing high-molecular-weight polycarbonate and electrophotographic photoreceptor using polycarbonate obtained by the process.
Marks, Richard L., Prop input device and method for mapping an object from a two-dimensional camera image to a three-dimensional space for controlling action in a game program.
Vasiliev Vsevolod V. (Kiev SUX) Danilyak Sergei N. (Kiev SUX) Levina Anna I. (Kiev SUX) Nushko Valery A. (Kiev SUX) Roiko Jury P. (Kiev SUX), Spark trainer for welders.
Zboray, David Anthony; Bennett, Matthew Alan; Wallace, Matthew Wayne; Hennessey, Jeremiah; Dudac, Yvette Christine; Lenker, Zachary Steven; Lundell, Andrew Paul; Dana, Paul; Preisz, Eric A., System and method providing arc welding training in a real-time simulated virtual reality environment using real-time weld puddle feedback.
Peters, Carl; Postlethwaite, Deanna; Wallace, Matthew Wayne, Systems and methods providing an enhanced user experience in a real-time simulated virtual reality welding environment.
Bangs Edmund R. (Indian Head Park IL) Longinow Nicholas E. (Oak Park IL) Blaha James R. (Palos Heights IL), Using infrared imaging to monitor and control welding.
LeMay,Steven G.; Benbrahim,Jamal; Rowe,Richard E.; Breckner,Robert E.; Beaulieu,Nicole M.; Schlottmann,Greg A., Virtual cameras and 3-D gaming environments in a gaming machine.
Ebensberger, Jason M.; Bolick, Michael J.; Treloar, Jeremiah G.; Klein, II, Richard J.; Peterson, Eric C.; Zalkin, Chad J.; Fisher, James B.; Hughes, Leslie C., Virtual coatings application system.
Wallace, Matthew Wayne; Zboray, David Anthony; Aditjandra, Antonius; Webb, Adam Lee; Postlethwaite, Deanna; Lenker, Zachary Steven, Virtual reality GTAW and pipe welding simulator and setup.
Zboray, David Anthony; Bennett, Matthew Alan; Wallace, Matthew Wayne; Hennessey, Jeremiah; Dudac, Yvette Christine; Lenker, Zachary Steven; Lundell, Andrew Paul; Dana, Paul; Preisz, Eric A.; Briggs, Lynn; Droller, Richard B.; Briggs, Eric C., Virtual reality pipe welding simulator.
John E. White ; Hollis Ambrose ; Brent A. Stancil, Virtual reality simulation-based training of telekinegenesis system for training sequential kinematic behavior of automated kinematic machine.
Tunnell George (667 Sandy Hook Ct. Foster City CA 94404) Pomernacki Charles L. (4162 Barner Ave. Oakland CA 94602) Gregg Jack P. (2371 Lockwood Ave. Fremont CA 94538), Voice controlled welding system.
Kennedy Larry Z. (Huntsville AL) Rodgers Michael H. (Huntsville AL) Powell Bradley W. (Athens AL) Burroughs Ivan A. (Gurley AL) Goode K. Wayne (Madison AL), Weld analysis and control system.
Paton Boris E. (Kiev SUX) Vasiliev Vsevolod V. (Kiev SUX) Bogdanovsky Valentin A. (Kiev SUX) Baranov Alexandr I. (Kiev SUX) Danilyak Sergei N. (Kiev SUX) Schegolev Viktor A. (Moskovskaya SUX) Chernoi, Welder\s trainer.
Koch Martin,DEX ; Stegemann-Auhage Thomas,DEX ; Bies Hermann,DEX, Welding device for two work pieces to be joined together by a weld seam which is closed in itself.
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