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Multifunction coaxial objective system for a rangefinder

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G01C-003/08
  • H01J-031/50
  • G02B-021/06
출원번호 US-0945743 (1992-09-16)
발명자 / 주소
  • Wallace Robert E. (Garland TX) Isbell Wayne E. (Dallas TX)
출원인 / 주소
  • Varo Inc. (Garland TX 02)
인용정보 피인용 횟수 : 57  인용 특허 : 9

초록

There is provided a multifunction coaxial objective system (16) for a laser rangefinder (10). The transmitter, receiver, and viewing optical systems have a common, coaxial optical axis (48). The multifunction coaxial objective system (16) includes lenses (28), (30) and mirror (32) each having a cent

대표청구항

An improved optical catadioptric lens system for a rangefinder suitable for use as part of a night vision goggles system, comprising: a transmitter optical system having an optical axis; a receiver optical system having an optical axis; an image intensifier; and a viewing optical system adapted for

이 특허에 인용된 특허 (9)

  1. Siebecker Hans (Heidelberg DEX) Weigel Wolfgang (Dossenheim DEX), Apparatus for harmonizing a plurality of optical/optronic axis of sighting apparatus to a common axis.
  2. Moyers ; Jr. Thomas E. (Woodbridge VA), Automatic focus pulse gated system.
  3. Eisenring Josef (Altstatten CH) Hildebrand Klaus W. (Heerbrugg CH) Tanner Jakob (Balgach CH), Coaxial transmitting and receiving optics for an electro-optic range finder.
  4. Schmidt Horst (Wetzlar DEX), Device for the photoelectric determination of the position of at least one focal plane of an image.
  5. Weber ; Claude Edmond Georges, Observation and aiming apparatus, particularly on a vehicle.
  6. Heinze Rudi (Jena DDX) Rder Rolf (Jena DDX) Feist Wieland (Jena DDX), Optical arrangement for an opto-electronic range-finder.
  7. Grage Ludger (Eichenau DEX), Optical system for the simultaneous reception of thermal and laser radiation.
  8. Epstein ; James Stephen, Surveying instrument and method.
  9. Salonimer ; David J., Target designation system.

이 특허를 인용한 특허 (57)

  1. Ditte, Andreas; Woloschyn, Andreas, 3-D measuring device with battery pack.
  2. Houde-Walter William R., Alignment of optical elements in telescopes using a laser beam with a holographic projection reticle.
  3. Ulmer, Kevin, Apparatus and methods for analyzing samples.
  4. Ulmer, Kevin, Apparatus and methods for analyzing samples.
  5. Ulmer,Kevin, Apparatus and methods for analyzing samples.
  6. William R. Houde-Walter, Apparatus for aligning optical elements in response to the display of a reflected reticle image and method of aligning.
  7. Bridges, Robert E.; Atwell, Paul C., Articulated arm coordinate measurement machine having a 2D camera and method of obtaining 3D representations.
  8. Bridges, Robert E.; Atwell, Paul C., Articulated arm coordinate measurement machine having a 2D camera and method of obtaining 3D representations.
  9. Bridges, Robert E.; Atwell, Paul C., Articulated arm coordinate measurement machine having a 2D camera and method of obtaining 3D representations.
  10. Shani, Tomer; Malka, Isaac, Auxiliary optical unit attachable to optical devices, particularly telescopic gun sights.
  11. Bernacki Bruce E. ; Miller ; Jr. Arthur C. ; Nuspliger Robert J., Catadioptric zoom scattering collector.
  12. Pixton, Bruce M.; Vizgaitis, Jay N., Compact wide field-of-view optical imaging method capable of electrically switching to a narrow field of view.
  13. Bridges, Robert E.; Parker, David H., Coordinate measurement machine with distance meter and camera to determine dimensions within camera images.
  14. Briggs, Clark H.; Bailey, Brent; Campbell, Kenneth, Coordinate measuring machines with dual layer arm.
  15. Becker, Reinhard; Homann, Norbert, Device for optically scanning and measuring an environment.
  16. Becker, Reinhard; Ossig, Martin, Device for optically scanning and measuring an environment.
  17. Ditte, Andreas; Ossig, Martin, Device for optically scanning and measuring an environment.
  18. Greiner, Alexander; Schumann, Philipp, Device for optically scanning and measuring an environment.
  19. Neundorf, Christoph; Becker, Reinhard, Device for optically scanning and measuring an environment.
  20. Ruhland, Axel; Becker, Reinhard; Becker, Bernd-Dietmar, Device for optically scanning and measuring an environment.
  21. Schumann, Philipp; Becker, Reinhard; Ossig, Martin; Gittinger, Jürgen, Device for optically scanning and measuring an environment.
  22. Schumann, Philipp; Greiner, Alexander, Device for optically scanning and measuring an environment.
  23. Schumann, Philipp; Ossig, Martin; Becker, Reinhard, Device for optically scanning and measuring an environment.
  24. Schumann, Philipp; Ossig, Martin; Zeller, Joachim, Device for optically scanning and measuring an environment.
  25. Woloschyn, Andreas, Device for optically scanning and measuring an environment.
  26. Pixton, Bruce M.; Vizgaitis, Jay N., Dual field of view annular folded optics with switchable mirrored surface.
  27. Lawson, John; Ter Louw, Jan David, Dual-band lens.
  28. Shirai, Masami; Suzuki, Shinichi; Takayama, Homu, Electronic distance meter.
  29. Armstrong, J. Joseph, External beam delivery system for laser dark-field illumination in a catadioptric optical system.
  30. Ossig, Martin; Becker, Reinhard; Ditte, Andreas, Interface for communication between internal and external devices.
  31. Zweigle, Oliver; Becker, Bernd-Dietmar; Becker, Reinhard, Intermediate two-dimensional scanning with a three-dimensional scanner to speed registration.
  32. Steffey, Kenneth; Becker, Reinhard; Becker, Bernd-Dietmar, Laser scanner.
  33. Steffey, Kenneth; Becker, Reinhard; Becker, Bernd-Dietmar; Gittinger, Jurgen, Laser scanner.
  34. Steffey, Kenneth; Becker, Reinhard; Becker, Bernd-Dietmar; Gittinger, Jurgen, Laser scanner.
  35. Bridges, Robert E.; Becker, Reinhard, Laser scanner having a multi-color light source and real-time color receiver.
  36. Staley, III,John R.; Sulzbach,Frank C., Method and apparatus for range finding with a single aperture.
  37. York, Frederick John; Bailey, Brent, Method for evaluating mounting stability of articulated arm coordinate measurement machine using inclinometers.
  38. Ossig, Martin; Frommhold, Dag; Flohr, Daniel, Method for optically scanning and measuring an environment.
  39. Ossig, Martin; Frommhold, Dag; Flohr, Daniel, Method for optically scanning and measuring an environment.
  40. Ossig, Martin; Schumann, Philipp, Method for optically scanning and measuring an object.
  41. Wallace Robert E., Multi-function day/night observation, ranging, and sighting device and method of its operation.
  42. Wallace Robert E. ; Isbell Wayne, Multi-function day/night observation, ranging, and sighting device and method of its operation.
  43. Snyder, Chris W., Multiple-wavelength capable laser receiver.
  44. Snyder, Chris W., Multiple-wavelength capable laser receiver.
  45. Aburmad, Shimon, Optical instrument.
  46. Briggs, Clark H.; York, Frederick, Portable articulated arm coordinate measuring machine with optical communications bus.
  47. Zweigle, Oliver; Becker, Bernd-Dietmar; Becker, Reinhard, Registration calculation between three-dimensional (3D) scans based on two-dimensional (2D) scan data from a 3D scanner.
  48. Zweigle, Oliver; Becker, Bernd-Dietmar; Becker, Reinhard, Registration calculation of three-dimensional scanner data performed between scans based on measurements by two-dimensional scanner.
  49. Masami Shirai JP; Shunichiro Wakamiya JP, Surveying instrument having an optical distance meter.
  50. Bernd Donath DE; Ludwin-Heinz Monz DE, Telescope for geodetic instruments, particularly for video tachymeters.
  51. Bridges, Robert E.; Becker, Reinhard, Three-dimensional scanner with dichroic beam splitters to capture a variety of signals.
  52. Bridges, Robert E.; Becker, Reinhard, Three-dimensional scanner with enhanced spectroscopic energy detector.
  53. Bridges, Robert E.; Becker, Reinhard, Three-dimensional scanner with spectroscopic energy detector.
  54. Zweigle, Oliver; Becker, Bernd-Dietmar; Becker, Reinhard, Using a two-dimensional scanner to speed registration of three-dimensional scan data.
  55. Zweigle, Oliver; Becker, Bernd-Dietmar; Becker, Reinhard, Using a two-dimensional scanner to speed registration of three-dimensional scan data.
  56. Zweigle, Oliver; Becker, Bernd-Dietmar; Becker, Reinhard, Using depth-camera images to speed registration of three-dimensional scans.
  57. Zweigle, Oliver; Becker, Bernd-Dietmar; Becker, Reinhard, Using two-dimensional camera images to speed registration of three-dimensional scans.
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