Solar heat collecting element having an edge welded bellows assembly
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F24J-002/05
F24J-002/46
출원번호
US-0272927
(2011-10-13)
등록번호
US-9719694
(2017-08-01)
발명자
/ 주소
Velasco, David
Ditri, John
Wasson, Nancy E.
Heick, Kristopher Thomas
출원인 / 주소
Lockheed Martin Corporation
대리인 / 주소
Withrow & Terranova, PLLC
인용정보
피인용 횟수 :
0인용 특허 :
20
초록▼
A solar heat collecting element for use in solar troughs and solar power systems. The solar heat collecting element includes a conduit for carrying a heat transfer fluid; a light transparent envelope disposed about the conduit; and an edge welded metal bellows assembly coupling a first end of the co
A solar heat collecting element for use in solar troughs and solar power systems. The solar heat collecting element includes a conduit for carrying a heat transfer fluid; a light transparent envelope disposed about the conduit; and an edge welded metal bellows assembly coupling a first end of the conduit with a first end of the envelope.
대표청구항▼
1. A solar heat collecting element comprising: a conduit for carrying a heat transfer fluid, the conduit having first and second ends;a light transparent envelope disposed about the conduit, the light transparent envelope having first and second ends and a longitudinal axis;an edge welded metal bell
1. A solar heat collecting element comprising: a conduit for carrying a heat transfer fluid, the conduit having first and second ends;a light transparent envelope disposed about the conduit, the light transparent envelope having first and second ends and a longitudinal axis;an edge welded metal bellows assembly comprising: a first annular end member comprising: a convolution attachment member having a convolution attachment surface;an extension member that extends perpendicularly to the convolution attachment surface, the extension member being configured to engage the light transparent envelope; anda plurality of annular convolutions coupled to the convolution attachment surface and extending in a direction away from the light transparent envelope along the longitudinal axis of the light transparent envelope, wherein the convolution attachment member and the extension member are unitary and formed from a same material, wherein each of the plurality of annular convolutions has a same maximum diameter, the maximum diameters of the plurality of annular convolutions defining a substantially cylindrical volume; andan end member subassembly comprising: a second annular end member, wherein the plurality of annular convolutions is fixed with respect to the first annular end member and the second annular end member; anda seal coupled to the second annular end member and to the conduit; anda substantially cylindrical annular radiation shield directly coupled to the end member subassembly substantially parallel to the substantially cylindrical volume defined by the maximum diameters of the plurality of annular convolutions, the radiation shield extending between at least a portion of the plurality of annular convolutions and the conduit, the radiation shield being detached from the plurality of annular convolutions and spaced from the plurality of annular convolutions. 2. The solar heat collecting element of claim 1, wherein the edge welded metal bellows assembly is in a compressed state at room temperature. 3. The solar heat collecting element of claim 1, wherein the conduit is made of stainless steel or carbon steel. 4. The solar heat collecting element of claim 1, wherein the light transparent envelope is made of glass. 5. The solar heat collecting element of claim 1, wherein the edge welded metal bellows assembly is made of stainless steel. 6. The solar heat collecting element of claim 1, wherein the edge welded metal bellows assembly is made of stainless steel and a metal having substantially a same expansion characteristic as an expansion characteristic of the light transparent envelope. 7. The solar heat collecting element of claim 1, wherein the end member is made of a metal having substantially a same expansion characteristic as an expansion characteristic of the light transparent envelope. 8. The solar heat collecting element of claim 1, wherein the edge welded metal bellows assembly includes the second annular end member fixedly attached to the conduit. 9. The solar heat collecting element of claim 1, further comprising another edge welded metal bellows assembly coupling the second end of the conduit with the second end of the light transparent envelope. 10. The solar heat collecting element of claim 1, wherein the edge welded metal bellows assembly comprises the second annular end member fixedly attached to the conduit and the plurality of annular convolutions is disposed between the first annular end member and the second annular end member. 11. The solar heat collecting element of claim 1, wherein the extension member extends from the convolution attachment member perpendicularly to the convolution attachment surface in a direction toward the light transparent envelope, and wherein the plurality of annular convolutions extend from the convolution attachment member in the direction away from the light transparent envelope along the longitudinal axis of the light transparent envelope. 12. A solar trough comprising: a solar heat collecting element comprising: a conduit for carrying a heat transfer fluid, the conduit having first and second ends;a light transparent envelope disposed about the conduit, the light transparent envelope having first and second ends and a longitudinal axis; andan edge welded metal bellows assembly comprising: a first annular end member comprising: a convolution attachment member having a convolution attachment surface;an extension member that extends perpendicularly to the convolution attachment surface, the extension member being configured to engage the light transparent envelope; anda plurality of annular convolutions coupled to the convolution attachment surface and extending in a direction away from the light transparent envelope along the longitudinal axis of the light transparent envelope, wherein the convolution attachment member and the extension member are unitary and formed from a same material, wherein each of the plurality of annular convolutions has a same maximum diameter, the maximum diameters of the plurality of annular convolutions defining a substantially cylindrical volume; andan end member subassembly comprising: a second annular end member, wherein the plurality of annular convolutions is fixed with respect to the first annular end member and the second annular end member; anda seal coupled to the second annular end member and to the conduit; anda substantially cylindrical annular radiation shield directly coupled to the end member subassembly substantially parallel to the substantially cylindrical volume defined by the maximum diameters of the plurality of annular convolutions, the radiation shield extending between at least a portion of the plurality of annular convolutions and the conduit, the radiation shield being detached from the plurality of annular convolutions and spaced from the plurality of annular convolutions; anda light concentrator for directing solar radiation onto the solar heat collecting element. 13. The solar trough of claim 12 wherein the light concentrator comprises a parabolic mirror. 14. The solar trough of claim 12, wherein the edge welded metal bellows assembly is in a compressed state at room temperature. 15. The solar trough of claim 12, wherein the conduit is made of stainless steel. 16. The solar trough of claim 12, wherein the conduit is made of carbon steel. 17. The solar trough of claim 12, wherein the light transparent envelope is made of glass. 18. The solar trough of claim 12, wherein at least a portion of the edge welded metal bellows assembly is made of a material having substantially a same expansion characteristic as an expansion characteristic of the light transparent envelope. 19. The solar trough of claim 12, wherein the extension member extends from the convolution attachment member perpendicularly to the convolution attachment surface in a direction toward the light transparent envelope, and wherein the plurality of annular convolutions extend from the convolution attachment member in the direction away from the light transparent envelope along the longitudinal axis of the light transparent envelope.
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