초록 ▼

A cover assembly is provided, for use with an instrument package having a common aperture. The cover assembly includes an inner cover member and an outer radome member. The inner cover member is substantially transparent to electromagnetic (EM) radiation of at least a first wavelength range. The rad

A cover assembly is provided, for use with an instrument package having a common aperture. The cover assembly includes an inner cover member and an outer radome member. The inner cover member is substantially transparent to electromagnetic (EM) radiation of at least a first wavelength range. The radome member is configured for selectively and reversibly covering the inner cover member and transparent to EM radiation of at least a second wavelength range different from the first wavelength range. The second wavelength range includes a radio frequency wavelength range. The outer radome member is configured for being mounted in overlying relationship with respect to the common aperture of the instrument package. The radome member is configured for being initially in overlying relationship with respect to the inner cover member and for being selectively removed from the overlying relationship with respect to the inner cover member at least during flight conditions.

대표청구항 ▼

1. A seeker head for an air vehicle, the seeker head comprising: a cover assembly; andan instrument package;wherein the cover assembly includes an inner cover member and an outer radome member, said inner cover member and said outer radome member being associated with a common aperture, and wherein:

1. A seeker head for an air vehicle, the seeker head comprising: a cover assembly; andan instrument package;wherein the cover assembly includes an inner cover member and an outer radome member, said inner cover member and said outer radome member being associated with a common aperture, and wherein: said inner cover member is substantially transparent to electromagnetic (EM) radiation of at least a first wavelength range;said outer radome member is configured for selectively and reversibly covering the inner cover member and transparent to EM radiation of at least a second wavelength range different from said first wavelength range, the second wavelength range including a radio frequency (RF) wavelength range;said outer radome member is configured for being initially in overlying relationship with respect to said inner cover member and for being selectively removed from said overlying relationship with respect to said inner cover member at least during flight conditions; andsaid outer radome member is in overlying relationship with respect to said common aperture when said outer radome member is mounted in overlying relationship with respect to said instrument package; wherein the instrument package includes: at least one first sensing/emitting unit configured for operating in said first wavelength range via emission/reception of EM radiation in said first wavelength range through at least said inner cover member via said common aperture; andat least one second sensing/emitting unit configured for operating in said second wavelength range, via emission/reception of EM radiation in said second wavelength range through at least said outer radome via said common aperture. 2. The seeker head according to claim 1, wherein said first wavelength range and said second wavelength range exhibit a lack of overlap therebetween. 3. The seeker head according to claim 1, wherein said first wavelength range includes wavelengths corresponding to at least one of: the visible spectrum; infra red (IR) spectrum; or ultraviolet (UV) spectrum. 4. The seeker head according to claim 1, wherein said second wavelength range includes RF wavelengths corresponding to at least one of: L-band, S-band, C-band, X-band, K-band, V-band, W-band, Multi-band, or Y-band. 5. The seeker head according to claim 1, wherein said inner cover member is further substantially transparent to EM radiation of said second wavelength range. 6. The seeker head according to claim 1, wherein the inner cover member is made from a material transparent to said radiation of at least said first wavelength range. 7. The seeker head according to claim 1, wherein the inner cover radome cover is made from any one of: Silicon, Silicon oxide (SiO), or other Silicon-based materials; Copper oxide (CuO); Manganese Oxide (MnO); Germanium; Sapphire; Magnesium aluminate spinel (MgAl2O4); Yttria; AlON (Al23O27N5); Alumina; YAG, Nd:YAG; plastic; glass; composite materials; or transparent spinel. 8. The seeker head according to claim 1, wherein the outer radome cover is made from a material transparent to said radiation of said second wavelength range. 9. The seeker head according to claim 1, wherein the outer radome cover is made from any one of: Slip Cast Fused Silica; ceramic materials; composite materials such as for example quartz-based composite materials; Teflon; some plastics; Ultem; fiberglass; PTFE-coated fabrics; boron carbide, alumina, glass, or silicon carbide. 10. The seeker head according to claim 1, wherein the inner member is formed as a transparent dome. 11. The seeker head according to claim 1, wherein the outer member has an ogive form. 12. The seeker head according to claim 1, wherein said outer radome member is reversibly engageable with respect to the inner cover member. 13. The seeker head according to claim 1, wherein: the outer radome member is formed from a plurality of radome segments;in said overlying relationship with respect to the inner cover member said radome segments are mutually engaged together;said outer radome member is selectively removable from said inner cover member by mutually disengaging said radome segments. 14. The seeker head according to claim 13, wherein said radome segments are reversibly connected to one another along longitudinal edges thereof when mutually engaged together. 15. The seeker head according to claim 13, wherein said radome segments are held together via explosive bolts, which are configured for being selectively activated to separate the radome segments from one another. 16. The seeker head according to claim 13, wherein said radome segments include reactive material, wherein upon activation of the reactive material, a mechanical connection between said radome segments is weakened or destroyed, enabling said radome segments to become separated from one another. 17. The seeker head according to claim 1, wherein the cover assembly is configured for use with a seeker head accommodating the instrument package, and wherein at least the inner cover member is configured for being affixed to the seeker head. 18. The seeker head according to claim 1, further comprising a radome cover for selectively and reversibly covering the outer radome member. 19. The seeker head according to claim 1, wherein the outer radome member is configured for being concurrently in overlying relationship with respect to the common aperture when initially in said overlying relationship with respect to the inner cover member. 20. The seeker head according to claim 1, wherein each said sensing/emitting unit is adapted for at least one of sensing and emitting energy along a respective sensing/emitting unit line of sight aligned with respect to said common aperture. 21. The seeker head according to claim 1, wherein said at least one first sensing/emitting unit includes any one of: an imaging camera, CCD, CMOS, configured for video imaging and/or still picture imaging, in any one or more of the visible spectrum, the infra red spectrum (IR), or in the ultraviolet spectrum (UV); a visual unit, an IR sensor, a thermal sensor, a NIR sensor; laser-based module optionally including LADAR or LIDAR; or bolometric sensor. 22. The seeker head according to claim 1, wherein said at least one second sensing/emitting unit includes any one of: a passive RF seeker; an active or semi active RADAR seeker; an RF range sensor; a Doppler radar; a synthetic aperture radar (SAR); passive phased array/passive electronically scanned array (PESA) seeker; active phased array/active electronically steered array/active electronically scanned array (AESA) seeker/DBF (digital beam forming) seeker/proximity sensor; or an anti-radiation RF sensor. 23. The seeker head according to claim 1, further comprising a controller for selectively causing the outer radome member to be removed from said overlying relationship with the inner cover member according to preset criteria. 24. The seeker head according to claim 23, wherein said controller is further configured for concurrently operating said at least one first sensing/emitting unit and said at least one second sensing/emitting unit for at least a predetermined time interval after said outer radome member is removed to thereby synchronize operation of said at least one first sensing/emitting unit with said at least one second sensing/emitting unit. 25. An air vehicle comprising the seeker head as defined in claim 1. 26. The air vehicle according to claim 25, wherein the air vehicle includes any one of an air-to-air missile, an air-to-surface missile, a surface-to-air missile, a surface-to-surface missile, a cruise missile, an anti-missile interceptor, munitions, a gliding bomb, a guided bomb, a rocket, a MK bomb including a homing kit, or a UAV. 27. A method for operating a seeker head, the method comprising: providing the seeker head as defined in claim 1; andoperating the seeker head to selectively remove the outer radome member from said overlying relationship with the inner cover member according to preset criteria.