Bi-polymer infrared optics for high-G applications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G02B-007/182
G02B-017/00
출원번호
US-0370543
(2012-02-10)
등록번호
US-8567969
(2013-10-29)
발명자
/ 주소
Thomas, John A.
Lind, Thomas H.
Roncone, Ronald L.
Johnson, Gary H.
출원인 / 주소
Raytheon Company
대리인 / 주소
Lando & Anastasi, LLP
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
Optical systems configured to withstand operation in high acceleration and varying temperature environments, and methods of assembling the same. In one example, an imaging optical apparatus includes a primary minor made of an unreinforced polymer, a secondary mirror made of the unreinforced polymer
Optical systems configured to withstand operation in high acceleration and varying temperature environments, and methods of assembling the same. In one example, an imaging optical apparatus includes a primary minor made of an unreinforced polymer, a secondary mirror made of the unreinforced polymer and optically coupled to the primary minor, a field lens optically coupled to the secondary minor, and a strut having a plurality of cross-struts and mounting features configured to mount the primary minor, the secondary mirror and the field lens. In some examples, the imaging optical apparatus further includes an outer retainer disposed behind the primary minor and coupled to the strut, and an inner retainer disposed behind the field lens and coupled to the strut, the outer and inner retainers configured to structurally support the primary minor and the field lens and to accommodate deflections of the primary minor.
대표청구항▼
1. An imaging optical apparatus comprising: a primary mirror made of an unreinforced polymer;a secondary minor made of the unreinforced polymer and optically coupled to the primary minor;a field lens optically coupled to the secondary mirror;a strut having a plurality of cross-struts and mounting fe
1. An imaging optical apparatus comprising: a primary mirror made of an unreinforced polymer;a secondary minor made of the unreinforced polymer and optically coupled to the primary minor;a field lens optically coupled to the secondary mirror;a strut having a plurality of cross-struts and mounting features configured to mount the primary mirror, the secondary mirror and the field lens;an outer retainer disposed behind the primary mirror and coupled to the strut; andan inner retainer disposed behind the field lens and coupled to the strut, the outer and inner retainers configured to structurally support the primary minor and the field lens and to accommodate deflections of the primary mirror. 2. The imaging optical apparatus in claim 1, wherein the strut, the outer retainer and the inner retainer are made of a reinforced polymer. 3. The imaging optical apparatus in claim 2, wherein the unreinforced polymer is unfilled polyetherimide plastic and the reinforced polymer is carbon-fiber filled polyetherimide plastic. 4. The imaging optical apparatus in claim 3, wherein the field lens is made of germanium. 5. The imaging optical apparatus in claim 2, wherein each of the primary mirror, the secondary mirror and the field lens is bonded to the strut using room temperature vulcanized (RTV) bonds and each of the outer retainer and the inner retainer is bonded to the strut with structural adhesive bonds. 6. The imaging optical apparatus in claim 5, wherein the primary minor includes a plurality of outer lobes configured to increase a collecting area of the primary mirror, each of the plurality of outer lobes being isolated from the strut, and wherein the primary mirror further includes an inner edge within the primary minor, the primary minor being bonded to the strut at the inner edge. 7. The imaging optical apparatus in claim 6, further comprising a plurality of mechanical stop features formed on each of the strut and the primary minor to limit deflections of the primary minor, the plurality of stop features of the primary mirror being disposed between the plurality of stop features of the strut and the outer retainer. 8. The imaging optical apparatus in claim 7, wherein each of the plurality of stop features of the primary minor further includes: a set-forward stop feature to limit forward axial deflection; anda set-back stop feature to limit backward axial deflection. 9. The imaging optical apparatus in claim 8, wherein the primary mirror is disposed relative to the strut and the outer retainer to form: a plurality of forward gaps between the plurality of set-forward stop features of the primary minor and the plurality of stop features of the strut; anda plurality of backward gaps between the plurality of set-back stop features of the primary mirror and the outer retainer. 10. The imaging optical apparatus in claim 9, wherein the primary mirror includes a protrusion formed at a radius between the inner edge and the plurality of outer lobes of the primary minor, the protrusion being configured to form the plurality of stop features of the primary minor to limit deflections of the outer lobes. 11. The imaging optical apparatus in claim 5, wherein the primary mirror has a first coefficient of thermal expansion (CTE), the strut has a second CTE, the field lens has a third CTE, the first CTE being higher than the second CTE and the second CTE being higher than the third CTE, and wherein: the primary minor includes an inner edge within the primary mirror, the primary minor being bonded to the strut at the inner edge;the RTV bonds between the inner edge of the primary minor and the strut are configured to athermalize the interface between the inner edge of the primary minor and the strut; andthe RTV bonds between the field lens and the strut are configured to athermalize the interface between the field lens and the strut. 12. The imaging optical apparatus in claim 2, wherein a reinforcing material to polymer proportion of the reinforced polymer is selected to reduce mismatch between a coefficient of thermal expansion (CTE) of the reinforced polymer and a CTE of the unreinforced polymer. 13. The imaging optical apparatus in claim 1, the strut including: at least one primary baffle feature disposed between the field lens and the secondary mirror and configured to block stray light. 14. The imaging optical apparatus in claim 13, the strut mounting features including a mounting feature for the secondary mirror, the strut further comprising: at least one secondary baffle feature disposed between the secondary mirror and the mounting feature for the secondary mirror and configured to block stray light. 15. The imaging optical apparatus in claim 1, the strut including: at least one interface mount to attach the imaging optical apparatus to an external platform, the at least one interface mount being disposed such that the primary minor is isolated from the external platform. 16. An imaging optical apparatus comprising: a primary mirror made of an unreinforced polymer;a secondary minor made of the unreinforced polymer and optically coupled to the primary minor;a field lens optically coupled to the secondary mirror;a strut made of a reinforced polymer and having a plurality of cross-struts and mounting features configured to mount the primary minor, the secondary mirror and the field lens.
Jeffrey R. Charles, Solid catadioptric omnidirectional optical system having central coverage means which is associated with a camera, projector, medical instrument, or similar article.
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