IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0780170
(2001-02-09)
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발명자
/ 주소 |
- Garn, Dennis T.
- Lee, Jerry S.
- Rudolph, James W.
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출원인 / 주소 |
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대리인 / 주소 |
Brinks Hofer Gilson and Lione
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인용정보 |
피인용 횟수 :
4 인용 특허 :
32 |
초록
A method and apparatus for cooling a furnace configured for processing refractory composites comprising a cooling gas flowed in a closed circuit through the furnace and over a cooling element disposed within the furnace. The cooling gas can flow either by natural convection or a convective force.
대표청구항
▼
1. In combination, a furnace configured to process refractory composites, a susceptor disposed within said furnace and configured as a cylindrical wall having a center portion disposed between two end portions, and an inlet conduit entering said furnace, said center portion having a hole therein wit
1. In combination, a furnace configured to process refractory composites, a susceptor disposed within said furnace and configured as a cylindrical wall having a center portion disposed between two end portions, and an inlet conduit entering said furnace, said center portion having a hole therein with said inlet conduit entering said hole and being configured to introduce cooling gas within said cylindrical wall at said center portion. 2. The apparatus of claim 1, further comprising an insulating bushing disposed within said hole mating with said cylindrical wall and said inlet conduit.3. In combination, a furnace configured to process refractory composites, a susceptor disposed within said furnace and configured as a cylindrical wall having a center portion disposed between two end portions, a cooling gas inlet conduit entering said furnace, a cooling gas outlet conduit exiting said furnace, and a cooling element, said center portion having a hole therein with said inlet conduit entering said hole and being configured to introduce cooling gas within said cylindrical wall at said center portion, said cooling element being disposed between said inlet conduit and said outlet conduit so that cooling gas introduced through said inlet conduit passes over said cooling element before exiting said furnace through said outlet conduit. 4. The apparatus of claim 3, further comprising an induction coil disposed adjacent said cylindrical wall, said inlet conduit extending through said induction coil.5. The apparatus of claim 3, further comprising an induction coil disposed adjacent said cylindrical wall, said inlet conduit extending through said induction coil, said cooling element being configured to cool said induction coil.6. A furnace configured to process refractory composites and a cooling system therefore, comprising: a furnace shell that defines a furnace volume; a heater disposed within said furnace shell; a cooling element disposed within said furnace shell; an inlet conduit connected to said furnace shell in fluid communication with said furnace volume; an outlet conduit connected to said furnace shell in fluid communication with said furnace volume; a cooling gas supply configured to selectively introduce a cooling gas into said furnace volume, and a blower connected to said inlet conduit and said outlet conduit in fluid communication therewith wherein activation of said blower causes cooling gas introduced into said furnace volume to flow through said blower, through said inlet conduit, over said cooling element, through said outlet conduit, and back to said blower in a closed circuit, wherein said blower comprises a housing and a drive shaft extending therefrom, and an inert gas purged dynamic seal between said housing and said drive shaft. 7. A furnace configured to process refractory composites and a cooling system, comprising: a furnace shell that defines a furnace volume, said furnace shell having a center portion; a reactant gas inlet connected to said furnace shell in fluid communication with said furnace volume; a susceptor disposed within said furnace shell; an induction coil disposed within said furnace shell adjacent said susceptor, said induction coil comprising a cooling element; an inlet conduit connected to said furnace shell at said center portion and through said reactant gas inlet, said inlet conduit being in fluid communication with said furnace volume; an outlet conduit connected to said furnace shell in fluid communication with said furnace volume; a cooling gas supply configured to selectively introduce a cooling gas into said furnace volume, and a blower connected to said inlet conduit and said outlet conduit in fluid communication therewith, wherein activation of said blower causes cooling gas introduced into said furnace volume to flow through said blower, through said inlet conduit, over said cooling element, through said outlet conduit, and back to said blow er in a closed circuit, wherein said blower comprises a housing and a drive shaft extending therefrom, and an inert gas purged dynamic seal between said housing and said drive shaft. 8. In combination, a furnace configured to process refractory composites, a cooling gas inlet in fluid communication with said furnace, a cooling gas outlet in fluid communication with said furnace, a cooling element disposed within said furnace in a location where it may be exposed to cooling gas, and a blower outside said furnace connected to said cooling gas inlet and said cooling gas outlet, wherein said blower causes cooling gas to flow in a closed circuit through said cooling gas inlet, through said furnace over said cooling element, and through said cooling gas outlet back to said blower, wherein said blower comprises a housing and a drive shaft extending therefrom, and an inert gas purged dynamic seal between said housing and said drive shaft. 9. A furnace configured to process refractory composites and a cooling system therefore, comprising: a furnace shell that defines a furnace volume; a heater disposed within said furnace shell; a cooling element disposed within said furnace shell; an inlet conduit connected to said furnace shell in fluid communication with said furnace volume; an outlet conduit connected to said furnace shell in fluid communication with said furnace volume; a cooling gas supply configured to selectively introduce a cooling gas into said furnace volume, and a blower connected to said inlet conduit and said outlet conduit in fluid communication therewith, wherein activation of said blower causes cooling gas introduced into said furnace volume to flow through said blower, through said inlet conduit, over said cooling element, through said outlet conduit, and back to said blower in a closed circuit, wherein said furnace shell has a center portion, said inlet conduit being connected to said furnace at said portion. 10. A furnace configured to process refractory composites and a cooling system therefore, comprising: a furnace shell that defines a furnace volume; a heater disposed within said furnace shell; a cooling element disposed within said furnace shell; an inlet conduit connected to said furnace shell in fluid communication with said furnace volume; an outlet conduit connected to said furnace shell in fluid communication with said furnace volume; a cooling gas supply configured to selectively introduce a cooling gas into said furnace volume, and a blower connected to said inlet conduit and said outlet conduit in fluid communication therewith, wherein activation of said blower causes cooling gas introduced into said furnace volume to flow through said blower, through said inlet conduit, over said cooling element, through said outlet conduit, and back to said blower in a closed circuit, wherein said furnace shell has a center portion disposed between two end portions, said inlet conduit being connected to said center portion and one of said end portions, said outlet Conduit being connected to the other of said portion.
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