Image combining viewer
First Claim
Patent Images
1. An image combining viewer, comprising:
- a housing defining an optical path therethrough;
a sensor disposed within the housing, the sensor being structured to receive a wavelength outside the visible spectrum;
a display disposed within the housing, the display being adapted to display an image received by the sensor using a portion of the visible spectrum;
at least one mirror disposed within the housing, the at least one mirror having a front surface and a back surface, the front surface having a dichroic coating adapted to transmit visible light and to reflect the wavelength outside the visible spectrum, the front surface being adapted to direct the reflected wavelength from the optical path towards the sensor, the back surface having a dichroic coating adapted to transmit a portion of the visible spectrum and to reflect another portion of the visible spectrum, the back surface being adapted to reflect light transmitted by the display to a direction substantially along the optical path;
whereby an image transmitted by the at least one mirror and the image displayed by the display are combined into a single image; and
means for focusing the sensor.
3 Assignments
0 Petitions
Accused Products
Abstract
An image combining viewer transmits a daylight image directly through the viewer, while reflecting at least one wavelength other than visible light towards a sensor. A display for displaying the image received by the sensor in a visible wavelength is reflected by the back surface of the mirror back along the optical path, combining the displayed image with the daylight image so that they appear to be a single image.
47 Citations
52 Claims
-
1. An image combining viewer, comprising:
-
a housing defining an optical path therethrough; a sensor disposed within the housing, the sensor being structured to receive a wavelength outside the visible spectrum; a display disposed within the housing, the display being adapted to display an image received by the sensor using a portion of the visible spectrum; at least one mirror disposed within the housing, the at least one mirror having a front surface and a back surface, the front surface having a dichroic coating adapted to transmit visible light and to reflect the wavelength outside the visible spectrum, the front surface being adapted to direct the reflected wavelength from the optical path towards the sensor, the back surface having a dichroic coating adapted to transmit a portion of the visible spectrum and to reflect another portion of the visible spectrum, the back surface being adapted to reflect light transmitted by the display to a direction substantially along the optical path;
whereby an image transmitted by the at least one mirror and the image displayed by the display are combined into a single image; andmeans for focusing the sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
-
-
20. An image combining viewer, comprising:
-
a housing defining an optical path therethrough; a sensor disposed within the housing, the sensor being structured to receive a wavelength outside the visible spectrum; a display disposed within the housing, the display being adapted to display an image received by the sensor using a portion of the visible spectrum; at least one mirror disposed within the housing, the at least one mirror having a front surface and a back surface, the front surface having a dichroic coating adapted to transmit visible light and to reflect the wavelength outside the visible spectrum, the front surface being adapted to direct the reflected wavelength from the optical path towards the sensor, the back surface having a dichroic coating adapted to transmit a portion of the visible spectrum and to reflect another portion of the visible spectrum, the back surface being adapted to reflect light transmitted by the display to a direction substantially along the optical path;
whereby an image transmitted by the at least one mirror and the image displayed by the display are combined into a single image; andan objective lens disposed within a front of the housing, the objective lens comprising a central portion that is optimized for visible light and an annular portion that is optimized for a wavelength other than visible light. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32)
-
-
33. An image combining viewer, comprising:
-
a housing defining an optical path therethrough; a sensor disposed within the housing, the sensor being structured to receive a wavelength outside the visible spectrum; a display disposed within the housing, the display being adapted to display an image received by the sensor using a portion of the visible spectrum; at least one mirror disposed within the housing, the at least one mirror having a front surface and a back surface, the front surface having a dichroic coating adapted to transmit visible light and to reflect the wavelength outside the visible spectrum, the front surface being adapted to direct the reflected wavelength from the optical path towards the sensor, the back surface having a dichroic coating adapted to transmit a portion of the visible spectrum and to reflect another portion of the visible spectrum, the back surface being adapted to reflect light transmitted by the display to a direction substantially along the optical path;
whereby an image transmitted by the at least one mirror and the image displayed by the display are combined into a single image; andmeans for adjusting a position of the sensor. - View Dependent Claims (34, 35, 36, 37, 38, 39, 40)
-
-
41. The viewer according to claim 38, wherein the means for adjusting a position of the display include a carrier structured to permit lateral movement of the display.
-
42. The viewer according to claim 33, wherein the front surface and back surface of the at least one mirror are formed on a single mirror.
-
43. The viewer according to claim 33, wherein the dichroic coating applied to the front surface of the at least one mirror is selected from the group consisting of thin film dielectric, ion beam assisted deposition hard dielectric, chemical vapor deposition coatings and rugate filters, and the dichroic coating applied to the back surface of the at least one mirror is selected from the group consisting of chemical vapor deposition coatings, dielectric, rugate filters, silvered coatings, and partial reflective coatings.
-
44. The viewer according to claim 33, wherein the wavelength outside the visible spectrum is infrared.
-
45. An image combining viewer, comprising:
-
a housing defining an optical path therethrough; a sensor disposed within the housing, the sensor being structured to receive a wavelength outside the visible spectrum; a display disposed within the housing, the display being adapted to display an image received by the sensor using a portion of the visible spectrum; at least one mirror disposed within the housing, the at least one mirror having a front surface and a back surface, the front surface having a dichroic coating adapted to transmit visible light and to reflect the wavelength outside the visible spectrum, the front surface being adapted to direct the reflected wavelength from the optical path towards the sensor, the back surface having a dichroic coating adapted to transmit a portion of the visible spectrum and to reflect another portion of the visible spectrum, the back surface being adapted to reflect light transmitted by the display to a direction substantially along the optical path;
whereby an image transmitted by the at least one mirror and the image displayed by the display are combined into a single image; andmeans for adjusting a position of the display.
-
-
46. The viewer according to claim 45, further comprising an objective lens disposed within a front of the housing.
-
47. The viewer according to claim 45, wherein the means for adjusting a position of the display includes a spherical bearing disposed between the display and the housing, the spherical bearing being structured to permit adjustment of the angle of the display with respect to the housing.
-
48. The viewer according to claim 47, wherein the means for adjusting a position of the display includes a carrier structured to permit lateral movement of the display.
-
49. The viewer according to claim 45, wherein the means for adjusting a position of the display includes a carrier structured to permit lateral movement of the display.
-
50. The viewer according to claim 45, wherein the front surface and back surface of the at least one mirror are formed on a single mirror.
-
51. The viewer according to claim 45, wherein the dichroic coating applied to the front surface of the at least one mirror is selected from the group consisting of thin film dielectric, ion beam assisted deposition hard dielectric, chemical vapor deposition coatings and rugate filters, and the dichroic coating applied to the back surface of the at least one mirror is selected from the group consisting of chemical vapor deposition coatings, dielectric, rugate filters, silvered coatings, and partial reflective coatings.
-
52. The viewer according to claim 45, wherein the wavelength outside the visible spectrum is infrared.
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeFlir Surveillance, Inc. (Teledyne Technologies Incorporated)
-
Original AssigneeOmniTech Partners
-
InventorsPochapsky, Eugene
-
Primary Examiner(s)Ben; Loha
-
Application NumberUS11/389,404Publication NumberTime in Patent Office1,040 DaysField of Search359/350, 359/618, 359/583, 359/589, 359/399, 359/351, 359/353, 359/630, 359/631, 359/633, 359/407, 359/809, 359/482, 359/363, 353/100, 353/101, 353/30, 353/69, 353/121, 353/122, 250/330, 250/332, 250/333, 250/339.13, 250/343, 250/345, 250/214.VT, 396/309, 396/333, 348/33, 348/162, 348/345, 118/664, 118/712, 118/720, 118/726, 118/730US Class Current359/618CPC Class CodesG03B 33/12 using beam-splitting or bea...
