In certain embodiments, a gimbal assembly includes an enclosure, a window, and a pivot assembly. The enclosure is centered on a first axis and the window is coupled to the enclosure. The pivot assembly is coupled to an interior portion of the enclosure and configured to pivot within the enclosure ab
In certain embodiments, a gimbal assembly includes an enclosure, a window, and a pivot assembly. The enclosure is centered on a first axis and the window is coupled to the enclosure. The pivot assembly is coupled to an interior portion of the enclosure and configured to pivot within the enclosure about a second axis, the second axis being perpendicular to the first axis. The pivot assembly includes a base portion, a mirror coupled at an angle to the base portion and configured to reflect light received through the window, and a sensor configured to receive the light reflected by the mirror. The pivot assembly is further configured to move within the enclosure in a direction that is perpendicular to the first axis and rotate about the first axis.
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1. A gimbal assembly, comprising: an enclosure centered on a first axis;a window frame coupled to the enclosure;a window centered on the first axis and coupled to the window frame of the enclosure;one or more guide rails coupled within the enclosure to an interior portion of the enclosure; anda pivo
1. A gimbal assembly, comprising: an enclosure centered on a first axis;a window frame coupled to the enclosure;a window centered on the first axis and coupled to the window frame of the enclosure;one or more guide rails coupled within the enclosure to an interior portion of the enclosure; anda pivot assembly coupled to the interior portion of the enclosure and configured to pivot within the enclosure about a second axis using the one or more guide rails, the second axis being perpendicular to the first axis, the pivot assembly comprising:a base portion;a mirror coupled at an angle to the base portion and configured to reflect light received through the window; anda sensor removably coupled to the base portion and configured to receive the light reflected by the mirror;wherein:the second axis is located proximate to an end of the base portion and proximate to an end of the mirror; andthe pivot assembly is further configured to:move within the enclosure in a direction that is perpendicular to the first axis; androtate about the first axis. 2. The gimbal assembly of claim 1, wherein the pivot assembly is further configured to: rotate 360 degrees about the first axis; andpivot 45 degrees within the enclosure about the second axis. 3. The gimbal assembly of claim 1, wherein a 360 degree rotation of the pivot assembly about the first axis in combination with a 45 degree rotation of the pivot assembly about the second axis provide the sensor with an unobstructed 90 degree field of regard. 4. The gimbal assembly of claim 1, wherein the first axis does not intersect the second axis. 5. The gimbal assembly of claim 1, wherein the first axis of rotation is configured to tilt to avoid gimbal lock. 6. A gimbal assembly, comprising: an enclosure configured to rotate about a first axis;a window coupled to the enclosure; anda pivot assembly coupled to an interior portion of the enclosure and configured to pivot within the enclosure about a second axis, the second axis being perpendicular to the first axis, the pivot assembly comprising:a base portion;a mirror coupled at an angle to the base portion and configured to reflect light received through the window; anda sensor configured to receive the light reflected by the mirror, andfurther comprising one or more guide rails coupled within the enclosure to an interior portion of the enclosure. 7. The gimbal assembly of claim 6, wherein the enclosure is configured to rotate 360 degrees about the first axis and the pivot assembly is configured to pivot 45 degrees within the enclosure about the second axis. 8. The gimbal assembly of claim 6, wherein a 360 degree rotation of the enclosure about the first axis in combination with a 45 degree rotation of the pivot assembly about the second axis provide the sensor with an unobstructed 90 degree field of regard. 9. The gimbal assembly of claim 6, wherein the first axis does not intersect the second axis. 10. The gimbal assembly of claim 6, wherein the first axis of rotation is configured to tilt to avoid gimbal lock. 11. The gimbal assembly of claim 6, wherein the pivot assembly is configured to move within the enclosure in a direction that is perpendicular to the first axis. 12. The gimbal assembly of claim 6, wherein the second axis is located proximate to an end of the base portion and proximate to an end of the mirror. 13. A gimbal assembly, comprising: a pivot assembly configured to be coupled to an interior portion of an enclosure, the pivot assembly further configured to rotate about a first axis and to pivot within the enclosure about a second axis, the pivot assembly comprising:a base portion;a mirror coupled at an angle to the base portion and configured to reflect light received through a window of the enclosure;a payload receptacle configured to house a sensor for receiving the light reflected by the mirror, andwherein the second axis is located proximate to an end of the base portion and proximate to an end of the mirror. 14. A gimbal assembly, comprising: a pivot assembly configured to be coupled to an interior portion of an enclosure, the pivot assembly further configured to rotate about a first axis and to pivot within the enclosure about a second axis, the pivot assembly comprising:a base portion;a mirror coupled at an angle to the base portion and configured to reflect light received through a window of the enclosure;a payload receptacle configured to house a sensor for receiving the light reflected by the mirror; andwherein the pivot assembly is configured to: rotate 360 degrees about the first axis; andpivot 45 degrees within the enclosure about the second axis. 15. The gimbal assembly of claim 13, wherein a 360 degree rotation of the pivot assembly about the first axis in combination with a 45 degree rotation of the pivot assembly about the second axis provide the sensor with an unobstructed 90 degree field of regard. 16. The gimbal assembly of claim 13, wherein the first axis does not intersect the second axis. 17. The gimbal assembly of claim 13, wherein the first axis of rotation is configured to tilt to avoid gimbal lock. 18. The gimbal assembly of claim 13, the pivot assembly further configured to move within the enclosure in a direction that is perpendicular to the first axis.
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이 특허에 인용된 특허 (22)
Cooper Erwin E., Compact flir optical configuration.
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