Optimized frame system for a liquid crystal display device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G02F-001/1333
G02F-001/1335
H05K-007/20
출원번호
US-0223804
(2005-09-09)
등록번호
US-9104058
(2015-08-11)
발명자
/ 주소
Shives, Gary D.
Varela, William
출원인 / 주소
GrafTech International Holdings Inc.
대리인 / 주소
Buchanan, Ingersoll & Rooney PC
인용정보
피인용 횟수 :
3인용 특허 :
41
초록▼
An image display device comprising an image display panel, a frame system including a framework operatively engaging the image display panel and a plurality of electronic components operatively engaging the framework, heat dispersion material operatively engaging the framework and in operative therm
An image display device comprising an image display panel, a frame system including a framework operatively engaging the image display panel and a plurality of electronic components operatively engaging the framework, heat dispersion material operatively engaging the framework and in operative thermal contact with the electronic components, where the frame system exhibits a support factor of less than about 375 mm-W/m° K.
대표청구항▼
1. A frame system for an image display device which comprises a display panel and a plurality of heat sources, the frame system comprising: (i) a framework operatively engaging an image display panel, the framework also having the heat sources engaged therewith, wherein the framework comprises a met
1. A frame system for an image display device which comprises a display panel and a plurality of heat sources, the frame system comprising: (i) a framework operatively engaging an image display panel, the framework also having the heat sources engaged therewith, wherein the framework comprises a metal support member to which is attached the display panel unit and electronic components(ii) heat dispersion material comprising at least one sheet of compressed particles of exfoliated graphite having an in-plane thermal conductivity of at least about 250 W/m-K and a thermal anisotropic ratio of no less than about 10, the heat dispersion material operatively engaging the framework in operative thermal contact with the heat sources; andwherein the frame system exhibits a support factor of less than about 150 mm-W/m-K, the support factor determined by multiplying the thickness of the support member by its in-plane thermal conductivity and further wherein the image display device exhibits improved temperature uniformity as compared to an image display device having a frame system which exhibits a support factor of less than about 150 mm-W/m-K but does not include a heat dispersion material having an in-plane thermal conductivity of at least about 250 W/m-K positioned proximate to the image display panel. 2. The frame system of claim 1, wherein the heat sources comprise light emitting diodes, cold cathode fluorescent lamps, flat fluorescent lamps, or combinations thereof. 3. The frame system of claim 1, which comprises a side-lit liquid crystal display device. 4. The frame system of claim 3, which further comprises at least one thermal connector between the heat sources and the heat dispersion material. 5. The frame system of claim 4, wherein the at least one thermal connector comprises the printed circuit board on which light emitting diodes are mounted. 6. The frame system of claim 1, which further comprises a reflective material interposed about the heat sources to facilitate even distribution of light therefrom. 7. A frame system for an image display device which comprises a plurality of electronic components, the frame system comprising: (i) a perimeter framework operatively engaging an image display panel opposite the image display side, the perimeter framework including a top, bottom, first side, and second side, the framework comprising a support member to which is attached the display panel unit and electronic components; and(ii) a plurality of electronic components operatively engaging the framework;heat dispersion material comprising at least one sheet of compressed particles of exfoliated graphite having an in-plane thermal conductivity of at least about 250 W/m-K and a thermal anisotropic ratio of no less than about 10, the heat dispersion material operatively engaging the framework and in operative thermal contact with the electronic components; andwherein the framework exhibits a support factor of less than about 150 mm-W/m-K, the support factor determined by multiplying the thickness of the support member by its in-plane thermal conductivity and further wherein the image display device exhibits improved temperature uniformity as compared to an image display device having a frame system which exhibits a support factor of less than about 150 mm-W/m-K but does not include a heat dispersion material having an in-plane thermal conductivity of at least about 250 W/m-K positioned proximate to the image display panel. 8. The frame system of claim 7, wherein the top, bottom first side and second side of the framework define an aperture and the plurality of electronic components are positioned substantially within the aperture. 9. The frame system of claim 8, wherein the heat dispersion material substantially spans the aperture. 10. The frame system of claim 9, wherein the eat dispersion material operatively engages the top, bottom, first side and second side of the framework. 11. The frame system of claim 7, wherein the image display panel is a liquid crystal display panel and the electronic components include light-emitting diodes. 12. The frame system of claim 7, wherein the electronic components comprise light emitting diodes, cold cathode fluorescent lamps, flat fluorescent lamps, or combinations thereof. 13. The frame system of claim 7, which comprises a side-lit liquid crystal display device. 14. The frame system of claim 13, which further comprises at least one thermal connector between the heat sources and the heat dispersion material. 15. The frame system of claim 14, wherein the at least one thermal connector comprises the printed circuit board on which light emitting diodes are mounted. 16. The frame system of claim 7, which further comprises a reflective material can be interposed about the heat sources to facilitate even distribution of light therefrom.
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