Vehicle rearview mirror assembly including a high intensity display
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G02F-001/1335
B60R-001/12
출원번호
US-0684366
(2007-03-09)
등록번호
US-8339526
(2012-12-25)
발명자
/ 주소
Minikey, Jr., Danny L.
Newton, Mark W.
Lee, Ethan J.
Tonar, William L.
Tuttle, Darin D.
Cammenga, David J.
Anderson, John S.
Ostreko, John B.
Kemperman, Christian M.
Blaker, David A.
출원인 / 주소
Gentex Corporation
대리인 / 주소
Price Heneveld LLP
인용정보
피인용 횟수 :
96인용 특허 :
190
초록▼
An inventive rearview assembly for a vehicle may comprise a mirror element and a display including a light management subassembly. The subassembly may comprise an LCD placed behind a transflective layer of the mirror element. Despite a low transmittance through the transflective layer, the inventive
An inventive rearview assembly for a vehicle may comprise a mirror element and a display including a light management subassembly. The subassembly may comprise an LCD placed behind a transflective layer of the mirror element. Despite a low transmittance through the transflective layer, the inventive display is capable of generating a viewable display image having an intensity of at least 250 cd/m2 and up to 3500 cd/m2. The display includes a novel backlighting subassembly and novel optical components including a magnifying system, a depolarizer, a reflector, and a reflective polarizer. The display may be configured to display an image having edges contoured to correspond to the edges of the mirror element.
대표청구항▼
1. A rearview assembly for a vehicle comprising: a mirror element having a partially reflective, partially transmissive coating;a video display having a plurality of pixels and positioned behind said mirror element such that a display image is directly viewable through said partially reflective, par
1. A rearview assembly for a vehicle comprising: a mirror element having a partially reflective, partially transmissive coating;a video display having a plurality of pixels and positioned behind said mirror element such that a display image is directly viewable through said partially reflective, partially transmissive coating, said video display having an output intensity such that the viewable display image has an intensity of at least 250 cd/m2;a depolarizing device formed using an polycarbonate positioned between the video display and the mirror element;at least one polarizing device positioned between a light emitting diode (LED) backlight assembly and the depolarizing device for increasing an on-axis brightness of the video display;a diffuser spaced from an plurality of LED devices mounted to a substrate of the LED backlight assembly such that light from said plurality of LED devices is refracted through said diffuser and reflected back towards said substrate;a reflector provided over said substrate and around and between said plurality of LED devices so that at least one LED device is aligned with an optic formed using a plurality of reflectors;wherein light reflected back from said diffuser is reflected by said optic towards said diffuser; anda baffle positioned between at least one segmented area of the diffuser for separating areas associated with the at least one LED device from areas associated with other LED devices that are not energized. 2. The rearview assembly of claim 1, wherein said partially reflective, partially transmissive coating has a reflectance of at least 45 percent. 3. The rearview assembly of claim 2, wherein said intensity of the viewable display image is at least 750 cd/m2. 4. The rearview assembly of claim 2, wherein said intensity of the viewable display image is at least 1000 cd/m2. 5. The rearview assembly of claim 2, wherein said intensity of the viewable display image is at least 1500 cd/m2. 6. The rearview assembly of claim 2, wherein said intensity of the viewable display image is at least 2000 cd/m2. 7. The rearview assembly of claim 2, wherein said intensity of the viewable display image is at least 2750 cd/m2. 8. The rearview assembly of claim 2, wherein said intensity of the viewable display image is at least 3500 cd/m2. 9. The rearview assembly of claim 1, wherein said intensity of the viewable display image is at least 750 cd/m2. 10. The rearview assembly of claim 1, wherein said intensity of the viewable display image is at least 1000 cd/m2. 11. The rearview assembly of claim 1, wherein said intensity of the viewable display image is at least 1500 cd/m2. 12. The rearview assembly of claim 1, wherein said intensity of the viewable display image is at least 2000 cd/m2. 13. The rearview assembly of claim 1, wherein said intensity of the viewable display image is at least 2750 cd/m2. 14. The rearview assembly of claim 1, wherein said intensity of the viewable display image is at least 3500 cd/m2. 15. The rearview assembly of claim 1, wherein said video display comprises at least one liquid crystal display component. 16. The rearview assembly of claim 15, wherein said at least one liquid crystal display component comprises: a first substrate component having a front surface and a rear surface; anda second substrate component having a front surface and a rear surface, the front surface of said second substrate component and the rear surface of said first substrate component being juxtaposed in spaced relation with a liquid crystalline material component disposed therebetween. 17. The rearview assembly of claim 16, wherein the at least one polarizing device acts as a reflective polarizer and is disposed on a surface of said second substrate component of said at least one liquid crystal display component. 18. A rearview assembly for a vehicle as in claim 1, wherein the at least one polarizing device acts as a reflective polarizer. 19. The rearview assembly of claim 18 further comprising said reflective polarizer is provided on a front surface of said video display. 20. The rearview assembly of claim 19, wherein said reflective polarizer is provided on a rear surface of said mirror element. 21. The rearview assembly of claim 19, wherein said mirror element is an electrochromic mirror element comprising: a first substrate having a front surface and a rear surface; anda second substrate having a front surface and a rear surface, the front surface of said second substrate and the rear surface of said first substrate being juxtaposed in spaced relation with an electrochromic medium disposed therebetween. 22. The rearview assembly of claim 21, wherein said reflective polarizer is provided on the rear surface of said second substrate of said electrochromic mirror element. 23. The rearview assembly of claim 21, wherein said reflective polarizer is provided on the front surface of said second substrate of said electrochromic mirror element. 24. The rearview assembly of claim 21, wherein said reflective polarizer is disposed on one of the surfaces of said second substrate of said electrochromic mirror element. 25. The rearview assembly of claim 1, wherein said mirror element is an electrochromic mirror element. 26. A rearview assembly for a vehicle as in claim 1, wherein the LED backlight assembly is comprised of a first subassembly on a first circuit board and a second subassembly on a second circuit board. 27. A rearview assembly for a vehicle as in claim 26, wherein the first subassembly is comprised of the plurality of LED devices and the second subassembly is comprised of a driver. 28. A rearview assembly as in claim 1, wherein the plurality of reflectors of the optic are concentric reflectors, each having a substantially conic surface. 29. A rearview assembly as in claim 1, wherein the plurality of reflectors of the optic are concentric reflectors configured to reduce the light intensity at their center for creating a uniformly lit appearance across the diffuser. 30. A rearview assembly as in claim 1, wherein light rays reflected by the reflector are directed to a refracting portion of the diffuser. 31. A rearview assembly as in claim 1, wherein the plurality of reflectors of the optic are concentric reflectors and wherein the LED devices are mounted to the substrate in a predetermined pattern such that the plurality of concentric reflectors are arranged in the predetermined pattern. 32. A rearview assembly as in claim 1, wherein said reflector includes a sidewall configured to support the diffuser, such that a top edge of the diffuser supports the diffuser, and the sidewall is reflective. 33. A rearview assembly as in claim 1, wherein said diffuser includes at least one deviator portion for directing light rays emitted off an optical axis of the at least one LED device to a predetermined portion of said diffuser. 34. A rearview assembly as in claim 1, wherein light passing through said diffuser is reflected and/or refracted non-parallel to an optical axis, and light that is reflected off of the diffuser is redirected towards and reflected off of said reflector and continues through said diffuser. 35. A display comprising: a display device having a plurality of pixels for generating a polarized display image that is directly viewable;a depolarizing device formed using an polycarbonate positioned between the display device and a mirror element;at least one polarizing device positioned between a light emitting diode (LED) backlight assembly and the depolarizing device for increasing an on-axis brightness of the display device;a diffuser spaced from an plurality of LED devices mounted to a substrate of the LED backlight assembly such that light from said plurality of LED devices is refracted through said diffuser and reflected back towards said substrate;a reflector provided over said substrate and around and between said plurality of LED devices so that at least one LED device is aligned with an optic formed using a plurality of reflectors and light reflected back from said diffuser is reflected by said optic towards said diffuser;wherein the reflector includes a sidewall configured to support the diffuser; anda baffle positioned between at least one segmented area of the diffuser for separating areas associated with the at least one LED device from areas associated with other LED devices that are not energized. 36. The display of claim 35, wherein said display device comprises a liquid crystal display. 37. The display of claim 35, wherein said polycarbonate is provided on a front surface of said display device. 38. The display as in claim 35, wherein the at least one polarizing device acts as a reflective polarizer. 39. A display as in claim 35, further comprising at least one brightness enhancement film for increasing the brightness of the display in at least one plane. 40. A display as in claim 39, wherein the at least one plane includes a first plane that is substantially vertical and a second plane is substantially horizontal. 41. A display as in claim 35, wherein the LED backlight assembly is comprised of a first subassembly on a first circuit board and a second subassembly on a second circuit board. 42. A display as in claim 41, wherein the first subassembly comprises the plurality of LED devices and the second subassembly comprises a driver. 43. A display as in claim 35, wherein the plurality of reflectors of the optic are concentric reflectors, each having a substantially conic surface. 44. A display as in claim 35, wherein the plurality of reflectors of the optic are concentric reflectors configured to reduce the light intensity at their center for creating a uniformly lit appearance across the diffuser. 45. A display as in claim 35, wherein light rays reflected by the reflector are directed to a refracting portion of the diffuser. 46. A display as in claim 35, wherein the LED devices are mounted to the substrate in a predetermined pattern such that the plurality of concentric reflectors are arranged in the predetermined pattern. 47. A rearview assembly for a vehicle comprising: a housing;a video display having a plurality of pixels and positioned in said housing for generating a polarized display image;a depolarizing device positioned in front of said video display for depolarizing the polarized display image;at least one polarizing device positioned between a light emitting diode (LED) backlight assembly and the depolarizing device for increasing an on-axis brightness of the display device;at least one brightness enhancement film for increasing the brightness of the display in at least one plane;a substrate having a plurality of LED devices mounted thereto in a predetermined pattern;a diffuser spaced from said plurality of LED devices mounted to said substrate such that light from said plurality of LED devices is refracted through said diffuser and reflected back towards said substrate;a reflector provided over said substrate and around and between said plurality of LED devices so that at least one LED device is aligned with an optic formed using a plurality of reflectors;wherein light reflected back from said diffuser is reflected by said optic towards said diffuser; anda baffle positioned between at least one segmented area of the diffuser for separating areas associated with the at least one LED device from areas associated with other LED devices that are not energized. 48. A rearview assembly for a vehicle as in claim 47, wherein the at least one plane includes a first plane that is substantially vertical and the second plane is substantially horizontal. 49. A rearview assembly as in claim 47, wherein the at least one plane includes a first plane that is substantially vertical and a second plane is substantially horizontal. 50. A rearview assembly for a vehicle as in claim 47, wherein the LED backlight assembly is comprised of a first subassembly on a first circuit board and a second subassembly on a second circuit board. 51. A display as in claim 50, wherein the first subassembly comprises the plurality of LED devices and the second subassembly comprises a driver. 52. A rearview assembly as in claim 47, wherein the plurality of reflectors of the optic are concentric reflectors, each having a substantially conic surface. 53. A rearview assembly as in claim 47, wherein the plurality of reflectors of the optic are concentric reflectors configured to reduce the light intensity at their center for creating a uniformly lit appearance across the diffuser. 54. A rearview assembly as in claim 47, wherein light rays reflected by the reflector are directed to a refracting portion of the diffuser. 55. A rearview assembly as in claim 47, wherein the LED devices are mounted to the substrate in a predetermined pattern such that the plurality of concentric reflectors are arranged in the predetermined pattern.
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