최소 단어 이상 선택하여야 합니다.
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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0595524 (2012-08-27) |
등록번호 | US-8503062 (2013-08-06) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 10 인용 특허 : 1550 |
A rearview mirror element assembly includes an electrochromic reflective element having a primary viewing region operable to exhibit electrically variable reflectivity, with a specularly reflective mirror reflector established at a third surface of a rear substrate at the primary viewing region. An
A rearview mirror element assembly includes an electrochromic reflective element having a primary viewing region operable to exhibit electrically variable reflectivity, with a specularly reflective mirror reflector established at a third surface of a rear substrate at the primary viewing region. An auxiliary viewing region provides an auxiliary wide angle view of a blind spot to the side of a vehicle when the electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle. A specularly reflective demarcating layer is established at a second surface of a front substrate of the electrochromic reflective element and, at least in part, is visible through the front substrate to a viewer when viewing the first surface of the front substrate of the electrochromic reflective element. The demarcating layer at least partially traverses the reflective element adjacent the auxiliary viewing region.
1. A rearview mirror element assembly suitable for use in a vehicular exterior rearview mirror assembly, said rearview mirror element assembly comprising: an electrochromic reflective element having a primary viewing region operable to exhibit electrically variable reflectivity between a high reflec
1. A rearview mirror element assembly suitable for use in a vehicular exterior rearview mirror assembly, said rearview mirror element assembly comprising: an electrochromic reflective element having a primary viewing region operable to exhibit electrically variable reflectivity between a high reflectance state and a dimmed reflectance state when an electrical voltage is applied thereto;said electrochromic reflective element comprising a front substrate having a first surface and a second surface;said electrochromic reflective element comprising a rear substrate having a third surface and a fourth surface;said second surface of said front substrate and said third surface of said rear substrate opposing each other in said electrochromic reflective element and spaced apart by a seal, and with an electrochromic medium disposed therebetween;a specularly reflective mirror reflector established at said third surface of said rear substrate;wherein said mirror reflector is established at said primary viewing region;an auxiliary viewing region, wherein said auxiliary viewing region provides an auxiliary wide angle view of a blind spot to the side of a vehicle when said electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle and is normally viewed by a driver of the vehicle when operating the vehicle;said primary viewing region of said electrochromic reflective element providing a primary view generally rearward of the vehicle when said electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle and is normally viewed by a driver of the vehicle when operating the vehicle;a specularly reflective demarcating layer established at said second surface of said front substrate of said electrochromic reflective element;wherein said demarcating layer, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element and wherein said demarcating layer at least partially traverses said reflective element adjacent said auxiliary viewing region;wherein said demarcating layer comprises at least one metal thin film coating;wherein a specularly reflective perimeter layer is established at least partially around a perimeter border region of said second surface of said front substrate of said electrochromic reflective element and, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element;wherein said perimeter layer comprises at least one metal thin film coating; andwherein said demarcating layer joins with said perimeter layer and at least partially circumscribes said auxiliary viewing region. 2. The rearview mirror element assembly of claim 1, wherein, at said auxiliary viewing region, said electrochromic reflective element is devoid of at least one of (i) said electrochromic medium and (ii) said mirror reflector. 3. The rearview mirror element assembly of claim 1, wherein said perimeter layer and said demarcating layer comprise a common metal thin film coating. 4. The rearview mirror element assembly of claim 1, wherein said perimeter layer and said demarcating layer together generally circumscribe said auxiliary viewing region. 5. The rearview mirror element assembly of claim 1, wherein, when said electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle and is normally viewed by a driver of the vehicle when operating the vehicle, at least a portion of said perimeter layer conceals at least a portion of said seal from direct view by the driver. 6. The rearview mirror element assembly of claim 1, wherein at least one of (a) said at least one metal thin film coating of said demarcating layer comprises chromium, (b) said at least one metal thin film coating of said perimeter layer comprises chromium and (c) said at least one metal thin film coating of said demarcating layer comprises chromium and said at least one metal thin film coating of said perimeter layer comprises chromium. 7. The rearview mirror element assembly of claim 1, wherein at least one of (a) said at least one metal thin film coating of said demarcating layer is established at said second surface of said front substrate by sputter deposition in a vacuum deposition process, (b) said at least one metal thin film coating of said perimeter layer is established at said second surface of said front substrate by sputter deposition in a vacuum deposition process, and (c) said at least one metal thin film coating of said demarcating layer and said at least one metal thin film coating of said perimeter layer are commonly established at said second surface of said front substrate by sputter deposition in a vacuum deposition process. 8. The rearview mirror element assembly of claim 1, wherein at least one of (a) said at least one metal thin film coating of said demarcating layer comprises a stack of thin film coatings, (b) said at least one metal thin film coating of said perimeter layer comprises a stack of thin film coatings and (c) said at least one metal thin film coating of said demarcating layer comprises a stack of thin film coatings and said at least one metal thin film coating of said perimeter layer comprises a stack of thin film coatings. 9. The rearview mirror element assembly of claim 1, wherein an average width dimension of said perimeter layer is generally about the same as an average width dimension of said demarcating layer. 10. The rearview mirror element assembly of claim 1, wherein an average width dimension of said perimeter layer is different than an average width dimension of said demarcating layer. 11. The rearview mirror element assembly of claim 1, wherein an average width dimension of said perimeter layer is larger than an average width dimension of said demarcating layer. 12. The rearview mirror element assembly of claim 1, wherein reflectance of light at said auxiliary viewing region is unaffected by reflectance dimming at said primary viewing region when a voltage is applied to said electrochromic medium. 13. The rearview mirror element assembly of claim 1, wherein no part of said rear substrate extends beyond said front substrate. 14. The rearview mirror element assembly of claim 13, wherein a dimension of said front substrate is larger than a corresponding dimension of said rear substrate so as to provide an overhang region. 15. The rearview mirror element assembly of claim 1, wherein a specularly reflecting indicia reflector is locally established at said second surface of said front substrate to form indicia at said electrochromic reflective element and wherein said indicia is significantly more discernible by a person viewing said electrochromic reflective element when said electrochromic reflective element is at a dimmed reflectance state than when said electrochromic reflective element is at a high reflectance state. 16. The rearview mirror element assembly of claim 15, wherein said indicia reflector comprises a reflective metal coating, and wherein said indicia reflector is overcoated by a transparent electrically conductive coating at said second surface so as to be disposed between said second surface and said overcoating transparent electrically conductive coating. 17. The rearview mirror element assembly of claim 1, wherein an auxiliary mirror element is disposed at said auxiliary viewing region, and wherein said auxiliary mirror element comprises a light-transmitting substantially flat face and an opposing light-reflecting curved face, and wherein light incident on said first surface that passes through said front substrate passes through said flat face to be reflected off said curved face, and wherein said flat face of said auxiliary mirror element is adhered to said electrochromic reflective element by an optical adhesive. 18. The rearview mirror element assembly of claim 17, wherein said flat face of said auxiliary mirror element is adhered to said fourth surface of said rear substrate of said electrochromic reflective element by said optical adhesive. 19. The rearview mirror element assembly of claim 17, wherein said demarcating layer conceals at least one edge of said auxiliary mirror element from direct view by the driver. 20. The rearview mirror element assembly of claim 1, wherein a display element is disposed behind said mirror reflector, said display element emitting light when activated that passes through said electrochromic medium. 21. The rearview mirror element assembly of claim 20, wherein said display element comprises a turn signal display element. 22. The rearview mirror element assembly of claim 20, wherein said display element comprises a blind spot alert display element. 23. The rearview mirror element assembly of claim 20, wherein said mirror reflector established at said third surface of said rear substrate comprises a transflective mirror reflector. 24. The rearview mirror element assembly of claim 23, wherein said display element is disposed behind said transflective mirror reflector, said display element emitting light when activated that passes through said transflective mirror reflector and through said electrochromic medium. 25. A rearview mirror element assembly suitable for use in a vehicular exterior rearview mirror assembly, said rearview mirror element assembly comprising: an electrochromic reflective element having a primary viewing region operable to exhibit electrically variable reflectivity between a high reflectance state and a dimmed reflectance state when an electrical voltage is applied thereto;said electrochromic reflective element comprising a front substrate having a first surface and a second surface;said electrochromic reflective element comprising a rear substrate having a third surface and a fourth surface;said second surface of said front substrate and said third surface of said rear substrate opposing each other in said electrochromic reflective element and spaced apart by a seal, and with an electrochromic medium disposed therebetween;a specularly reflective mirror reflector established at said third surface of said rear substrate;wherein said mirror reflector is established at said primary viewing region;an auxiliary viewing region, wherein said auxiliary viewing region provides an auxiliary wide angle view of a blind spot to the side of a vehicle when said electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle and is normally viewed by a driver of the vehicle when operating the vehicle;said primary viewing region of said electrochromic reflective element providing a primary view generally rearward of the vehicle when said electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle and is normally viewed by a driver of the vehicle when operating the vehicle;a specularly reflective demarcating layer established at said second surface of said front substrate of said electrochromic reflective element;wherein said demarcating layer, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element and wherein said demarcating layer at least partially traverses said reflective element adjacent said auxiliary viewing region;wherein said demarcating layer comprises at least one metal thin film coating;wherein reflectance of light at said auxiliary viewing region is unaffected by reflectance dimming at said primary viewing region when a voltage is applied to said electrochromic medium; andwherein said demarcating layer at least partially circumscribes said auxiliary viewing region. 26. The rearview mirror element assembly of claim 25, wherein an auxiliary mirror element is disposed at said auxiliary viewing region, and wherein said auxiliary mirror element comprises a light-transmitting substantially flat face and an opposing light-reflecting curved face, and wherein light incident on said first surface that passes through said front substrate passes through said flat face to be reflected off said curved face, and wherein said demarcating layer conceals at least one edge of said auxiliary mirror element from direct view by the driver, and wherein at least one of (i) said flat face of said auxiliary mirror element is adhered to said electrochromic reflective element by an optical adhesive and (ii) said flat face of said auxiliary mirror element is adhered to said fourth surface of said rear substrate of said electrochromic reflective element by an optical adhesive. 27. The rearview mirror element assembly of claim 25, wherein, at said auxiliary viewing region, said electrochromic reflective element is devoid of at least one of (i) said electrochromic medium and (ii) said mirror reflector. 28. The rearview mirror element assembly of claim 25, wherein at least one of (a) said at least one metal thin film coating of said demarcating layer comprises chromium, (b) said at least one metal thin film coating of said demarcating layer is established at said second surface of said front substrate by sputter deposition in a vacuum deposition process, and (c) said at least one metal thin film coating of said demarcating layer comprises a stack of thin film coatings. 29. The rearview mirror element assembly of claim 25, wherein at least one of (i) no part of said rear substrate extends beyond said front substrate and (ii) a dimension of said front substrate is larger than a corresponding dimension of said rear substrate so as to provide an overhang region. 30. The rearview mirror element assembly of claim 25, wherein a display element is disposed behind said mirror reflector, said display element emitting light when activated that passes through said electrochromic medium, and wherein said mirror reflector established at said third surface of said rear substrate comprises a transflective mirror reflector, and wherein said display element is disposed behind said transflective mirror reflector, said display element emitting light when activated that passes through said transflective mirror reflector and through said electrochromic medium, and wherein at least one of (i) said display element comprises a turn signal display element and (ii) said display element comprises a blind spot alert display element. 31. The rearview mirror element assembly of claim 25, wherein a specularly reflective perimeter layer is established at least partially around a perimeter border region of said second surface of said front substrate of said electrochromic reflective element and, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element, and wherein said perimeter layer comprises at least one metal thin film coating. 32. The rearview mirror element assembly of claim 31, wherein said perimeter layer and said demarcating layer together generally circumscribe said auxiliary viewing region. 33. The rearview mirror element assembly of claim 31, wherein said perimeter layer and said demarcating layer comprise a common metal thin film coating. 34. The rearview mirror element assembly of claim 31, wherein at least one of (i) an average width dimension of said perimeter layer is generally about the same as an average width dimension of said demarcating layer, (ii) an average width dimension of said perimeter layer is different than an average width dimension of said demarcating layer, and (iii) an average width dimension of said perimeter layer is larger than an average width dimension of said demarcating layer. 35. A rearview mirror element assembly suitable for use in a vehicular exterior rearview mirror assembly, said rearview mirror element assembly comprising: an electrochromic reflective element having a primary viewing region operable to exhibit electrically variable reflectivity between a high reflectance state and a dimmed reflectance state when an electrical voltage is applied thereto;said electrochromic reflective element comprising a front substrate having a first surface and a second surface;said electrochromic reflective element comprising a rear substrate having a third surface and a fourth surface;said second surface of said front substrate and said third surface of said rear substrate opposing each other in said electrochromic reflective element and spaced apart by a seal, and with an electrochromic medium disposed therebetween;a specularly reflective mirror reflector established at said third surface of said rear substrate;wherein said mirror reflector is established at said primary viewing region;an auxiliary viewing region, wherein said auxiliary viewing region provides an auxiliary wide angle view of a blind spot to the side of a vehicle when said electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle and is normally viewed by a driver of the vehicle when operating the vehicle;said primary viewing region of said electrochromic reflective element providing a primary view generally rearward of the vehicle when said electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle and is normally viewed by a driver of the vehicle when operating the vehicle;a specularly reflective demarcating layer established at said second surface of said front substrate of said electrochromic reflective element;wherein said demarcating layer, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element and wherein said demarcating layer at least partially traverses said reflective element adjacent said auxiliary viewing region;wherein said demarcating layer comprises at least one metal thin film coating;wherein reflectance of light at said auxiliary viewing region is unaffected by reflectance dimming at said primary viewing region when a voltage is applied to said electrochromic medium;wherein said demarcating layer at least partially circumscribes said auxiliary viewing region; andwherein at least one of (a) said electrochromic reflective element comprises a frameless reflective element, (b) a bezel is disposed along a periphery of said first surface of said front substrate, (c) a specularly reflective perimeter layer is established at least partially around a perimeter border region of said second surface of said front substrate of said electrochromic reflective element and, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element, (d) said electrochromic reflective element comprises a frameless reflective element and wherein a specularly reflective perimeter layer is established at least partially around a perimeter border region of said second surface of said front substrate of said electrochromic reflective element and, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element, and (e) a bezel is disposed along a periphery of said first surface of said front substrate and wherein a specularly reflective perimeter layer is established at least partially around a perimeter border region of said second surface of said front substrate of said electrochromic reflective element and, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element. 36. The rearview mirror element assembly of claim 35, wherein at least one of (a) said at least one metal thin film coating of said demarcating layer comprises chromium, (b) said at least one metal thin film coating of said demarcating layer is established at said second surface of said front substrate by sputter deposition in a vacuum deposition process, and (c) said at least one metal thin film coating of said demarcating layer comprises a stack of thin film coatings. 37. The rearview mirror element assembly of claim 35, wherein a specularly reflective perimeter layer is established at least partially around a perimeter border region of said second surface of said front substrate of said electrochromic reflective element and, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element, and wherein a display element is disposed behind said perimeter layer and said display element, when activated, emits light that passes through said perimeter layer. 38. The rearview mirror element assembly of claim 35, wherein, at said auxiliary viewing region, said electrochromic reflective element is devoid of at least one of (i) said electrochromic medium and (ii) said mirror reflector. 39. The rearview mirror element assembly of claim 35, wherein at least one of (i) no part of said rear substrate extends beyond said front substrate and (ii) a dimension of said front substrate is larger than a corresponding dimension of said rear substrate so as to provide an overhang region. 40. The rearview mirror element assembly of claim 35, wherein a display element is disposed behind said mirror reflector, said display element emitting light when activated that passes through said electrochromic medium. 41. The rearview mirror element assembly of claim 40, wherein said mirror reflector established at said third surface of said rear substrate comprises a transflective mirror reflector, and wherein said display element is disposed behind said transflective mirror reflector, said display element emitting light when activated that passes through said transflective mirror reflector and through said electrochromic medium. 42. The rearview mirror element assembly of claim 40, wherein at least one of (i) said display element comprises a turn signal display element and (ii) said display element comprises a blind spot alert display element. 43. A rearview mirror element assembly suitable for use in a vehicular exterior rearview mirror assembly, said rearview mirror element assembly comprising: an electrochromic reflective element having a primary viewing region operable to exhibit electrically variable reflectivity between a high reflectance state and a dimmed reflectance state when an electrical voltage is applied thereto;said electrochromic reflective element comprising a front substrate having a first surface and a second surface;said electrochromic reflective element comprising a rear substrate having a third surface and a fourth surface;wherein at least one of (i) no part of said rear substrate extends beyond said front substrate and (ii) a dimension of said front substrate is larger than a corresponding dimension of said rear substrate so as to provide an overhang region;said second surface of said front substrate and said third surface of said rear substrate opposing each other in said electrochromic reflective element and spaced apart by a seal, and with an electrochromic medium disposed therebetween;a specularly reflective mirror reflector established at said third surface of said rear substrate;wherein said mirror reflector is established at said primary viewing region;an auxiliary viewing region, wherein said auxiliary viewing region provides an auxiliary wide angle view of a blind spot to the side of a vehicle when said electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle and is normally viewed by a driver of the vehicle when operating the vehicle;said primary viewing region of said electrochromic reflective element providing a primary view generally rearward of the vehicle when said electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle and is normally viewed by a driver of the vehicle when operating the vehicle;a specularly reflective demarcating layer established at said second surface of said front substrate of said electrochromic reflective element;wherein said demarcating layer, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element and wherein said demarcating layer at least partially traverses said reflective element adjacent said auxiliary viewing region;wherein said demarcating layer comprises at least one metal thin film coating;wherein reflectance of light at said auxiliary viewing region is unaffected by reflectance dimming at said primary viewing region when a voltage is applied to said electrochromic medium; andwherein said demarcating layer at least partially circumscribes said auxiliary viewing region. 44. The rearview mirror element assembly of claim 43, wherein at least one of (a) said at least one metal thin film coating of said demarcating layer comprises chromium, (b) said at least one metal thin film coating of said demarcating layer is established at said second surface of said front substrate by sputter deposition in a vacuum deposition process, and (c) said at least one metal thin film coating of said demarcating layer comprises a stack of thin film coatings. 45. The rearview mirror element assembly of claim 43, wherein a display element is disposed behind said mirror reflector, said display element emitting light when activated that passes through said electrochromic medium. 46. The rearview mirror element assembly of claim 43, wherein a specularly reflective perimeter layer is established at least partially around a perimeter border region of said second surface of said front substrate of said electrochromic reflective element and, at least in part, is visible through said front substrate to a viewer when viewing said first surface of said front substrate of said electrochromic reflective element, and wherein a display element is disposed behind said perimeter layer and said display element, when activated, emits light that passes through said perimeter layer. 47. The rearview mirror element assembly of claim 46, wherein said electrochromic reflective element comprises a frameless reflective element. 48. The rearview mirror element assembly of claim 46, wherein a bezel is disposed along a periphery of said first surface of said front substrate.
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