Claims
- 1. A cryopump having a pumping operation and a regeneration cycle and comprising a first temperature stage having a first pumping surface for condensing gases, a second temperature stage having a second pumping surface with a first adsorbent thereon, the second stage being cooled to a lower temperature than the first temperature stage for pumping gases not pumped by the first pumping surface, and a third temperature stage having a second adsorbent surface and a temperature control system having a heating element in thermally conductive contact with the second temperature stage to maintain the temperature of the second stage above a minimum temperature below which the capacity of the first adsorbent, in pumping the gas to be pumped by the first adsorbent during the pumping operation, is substantially reduced.
- 2. A cryopump as claimed in claim 1 further comprising a second temperature control element in thermal contact with the first temperature stage.
- 3. A cryopump as claimed in claim 1 wherein:
- the first temperature stage is cooled to approximately 90.degree.-140.degree. K.;
- the second temperature stage is cooled to approximately 10.degree.-14.degree. K.; and
- the third temperature stage is cooled to approximately 5.degree. K.
- 4. A cryopump as claimed in claim 1 wherein the second and third temperature stages are separated by a thermal insulator.
- 5. A cryopump a claimed in claim 1 further comprising a condensing surface on the second pumping surface for condensing lower condensation temperature gases not condensed on the first condensing surface and the first adsorbent adsorbs gases having lower condensation temperatures not condensed on the second condensing surface.
- 6. A cryopump as claimed in claim 1 further comprising a temperature detector for detecting the temperature of the second stage, and such that the temperature control responds to the detected temperature to maintain the temperature of the second stage at a predetermined level during pumping operation by the second stage.
- 7. A cryopump as claimed in claim 6 wherein the primary gas to be bumped is hydrogen, and the predetermined level at which the second stage is maintained is above 10.degree. K.
- 8. A cryopump as claimed in claim 6 wherein the temperature control maintains the temperature of the second stage with an electric heater.
- 9. A method of adsorbing gases in a cryopump having a pumping operation and a regeneration cycle comprising the steps of:
- cooling a first temperature stage of the cryopump having a first condensing surface for condensing gases; and
- cooling a second temperature stage of the cryopump by adsorbing gases with a second stage adsorbent; and
- controlling the second stage temperature during adsorption with a temperature control system such that the second stage temperature is maintained during the pumping operation above a minimum temperature below which the capacity of an adsorbent mounted on the second stage for adsorbing gases not condensed on the first stage is substantially reduced.
- 10. A method of effectively adsorbing gases in a cryopump as claimed in claim 9 further comprising cooling a third temperature stage of the cryopump having a second adsorbent surface for adsorbing gases not adsorbed by the second stage.
- 11. A method of effectively adsorbing gases in a cryopump as claimed in claim 9 wherein:
- the first temperature stage is cooled to approximately 90.degree.-140.degree. K.;
- the second temperature stage is cooled to approximately 10.degree.-14.degree. K.; and
- the third temperature stage is cooled to approximately 5.degree. K.
- 12. A method of adsorbing gases in a cryopump as claimed in claim 9 wherein the second temperature stage of the cryopump has a second condensing surface and the adsorbent for condensing and adsorbing lower condensation temperature gases than condensed on the first stage; and further comprising;
- cooling a third temperature stage of the cryopump having a second adsorbent surface for adsorbing gases not adsorbed by the second stage.
- 13. A method of adsorbing gases in a cryopump as claimed in claim 9 wherein:
- the first temperature stage is cooled in approximately 90.degree.-140.degree. K.;
- the second temperature stage is cooled to approximately 10.degree.-14.degree. K.; and
- the third temperature stage is cooled to approximately 5.degree. K.
- 14. A method of adsorbing gas in a cryopump as claimed in claim 9 further comprising detecting the temperature of the second stage and responding to the detected temperature to maintain the temperature of the second stage at a predetermined level during pumping operation by the first and second stages.
- 15. A method as claimed in claim 14 wherein the predetermined temperature is a critical temperature below which the capacity of the adsorbent, in pumping the principal gas to be pumped by the second stage adsorbent, is substantially reduced.
- 16. A method as claimed in claim 15 wherein the primary gas to be pumped is hydrogen, and the predetermined level at which the second stage is maintained above about 10 K.
Parent Case Info
This is a continuation-in-part of U.S. Ser. No. 07/355,048 filed May 15, 1989, now U.S. Pat. No. 4,896,581 which is a continuation-in-part of International application No. PCT/U.S.88/00225 filed on Jan. 27, 1988 and is also a file wrapper continuation of Ser. No. 07/206,952 filed on June 8, 1988, now abandoned, which was a file wrapper continuation of Ser. No. 07/007,370 filed on Jan. 27, 1987, now abandoned.
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Continuations (2)
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206952 |
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Continuation in Parts (1)
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355048 |
May 1989 |
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