Advanced cryogenic multi-staged radiator system
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F28F-013/00
출원번호
US-0802154
(1977-05-31)
발명자
/ 주소
Eilenberg, Stanton L.
Feiner, Melvin
Shuford, Charles L.
Triplett, David W.
출원인 / 주소
Rockwell International Corporation
인용정보
피인용 횟수 :
15인용 특허 :
1
초록▼
A passive cooling device especially suitable for application where unattended high performance is required for long periods, such as with space satellite sensors, optics and electronic systems, contains multiple stages of heat radiators insulated from each other and from the supporting structure, wi
A passive cooling device especially suitable for application where unattended high performance is required for long periods, such as with space satellite sensors, optics and electronic systems, contains multiple stages of heat radiators insulated from each other and from the supporting structure, with heat pipes thermally attached to some or all of the stages of the radiators to transport heat from the heat producing sources. The multi-stage radiator system utilizes intermediate radiator stages to intercept heat loads conducted through the insulation and supports in order to reduce such conductive loads on the outermost stage and to permit that stage to reject substantial heat loads at extremely low temperatures. These intermediate stages can also provide efficient thermal rejection at the different temperature levels of various elements to be cooled. Heat pipes of various characteristics such as the variable conductance and diode types can be used individually or in thermal combination to suit the needs and constraints of the space systems applications.
대표청구항▼
1. A cooling device for maintaining one or more heat producing sources at selected temperatures and comprising: a mounting surface; at least two superposed and spaced-apart radiation elements, each successively of lesser area than the next said radiation element closer to said mounting surface,
1. A cooling device for maintaining one or more heat producing sources at selected temperatures and comprising: a mounting surface; at least two superposed and spaced-apart radiation elements, each successively of lesser area than the next said radiation element closer to said mounting surface, and each adapted to radiate heat; at least one heat pipe in thermal conductivity with each of said radiation elements; and thermal insulation means in the space between said mounting surface and the radiation element closest to said mounting surface and between each two successive radiation elements to thermally isolate them from each other, whereby a portion of the surface facing away from said mounting surface of the larger in area of each two successive radiation elements is exposed to cooling temperature and the entire surface facing away from said mounting surface of the radiation element most remote from said mounting surface is exposed to cooling temperature. 2. The cooling device of claim 1, wherein said mounting surface is an uncovered shield comprising a base and at least one side substantially upright with respect to said radiation elements and of sufficient height to prevent direct exposure of the exposed portion of said radiation elements to sources of radiated heat external and unconnected to said cooling device. 3. The cooling device of claim 1, wherein said thermal insulation means is multi-layer, comprising a plurality of stacked, thin, polymeric film sheets with reflective surfaces, separated from each other by thermally non-conductive spacers. 4. The cooling device of claim 1, wherein said thermal insulation means is multi-layer, comprising a plurality of stacked, thin, polymeric film sheets with reflective surfaces separated in part from each other by protuberances embossed thereon. 5. A cooling device for maintaining one or more heat producing sources at selected temperatures and comprising: a mounting surface; at least two superposed and spaced-apart radiation elements, each successively of lesser area than the next said radiation element closer to said mounting surface, and each adapted to radiate heat; at least one heat pipe in thermal conductivity with each of said radiation elements except the radiation element closest to said mounting surface; and thermal insulation means in the space between said mounting surface and the radiation element closest to said mounting surface and between each two successive radiation elements to thermally isolate them from each other, whereby a portion of the surface facing away from said mounting surface of the larger in area of each two successive radiation elements is exposed to cooling temperature and the entire surface facing away from said mounting surface of the radiation element most remote from said mounting surface is exposed to cooling temperature. 6. The cooling device of claim 5, wherein said mounting surface is an uncovered shield comprising a base and at least one side substantially upright with respect to said radiation elements and of sufficient height to prevent direct exposure of the exposed portion of said radiation elements to sources of radiated heat external and unconnected to said cooling device. 7. The cooling device of claim 5, wherein said thermal insulation means is multi-layer, comprising a plurality of stacked, thin, polymeric film sheets with reflective surfaces, separated from each other by thermally non-conductive spacers. 8. The cooling device of claim 5, wherein said thermal insulation means is multi-layer, comprising a plurality of stacked, thin, polymeric film sheets with reflective surfaces separated in part from each other by protuberances embossed thereon.
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이 특허에 인용된 특허 (1)
Aronson Albert Irving (Princeton NJ), Passive cooler.
Caldwell Bruce D. ; Duncan Paul D. ; Fricker John H. ; Hethcoat ; III Charles L. ; Hunter Rick C. ; Robinson Paul E., Dewar for storing and delivering liquid cryogen.
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