In a cold trap provided between a vacuum chamber and a vacuum pump for the vacuum chamber, a cold panel is located in an exhaust passage from an exhaust port of the vacuum chamber to an intake port of the vacuum pump. A cold panel chamber includes an entrance that connects the exhaust passage to the
In a cold trap provided between a vacuum chamber and a vacuum pump for the vacuum chamber, a cold panel is located in an exhaust passage from an exhaust port of the vacuum chamber to an intake port of the vacuum pump. A cold panel chamber includes an entrance that connects the exhaust passage to the exhaust port of the vacuum chamber, and an exit that connects the exhaust passage to the intake port of the vacuum pump. The exit is provided so as to be eccentric with respect to the entrance.
대표청구항▼
1. A cold trap provided between a vacuum chamber and a vacuum pump for the vacuum chamber, comprising: a cold panel located in an exhaust passage from an exhaust port of the vacuum chamber to an intake port of the vacuum pump, the exhaust passage extending from an inlet opening to an outlet opening
1. A cold trap provided between a vacuum chamber and a vacuum pump for the vacuum chamber, comprising: a cold panel located in an exhaust passage from an exhaust port of the vacuum chamber to an intake port of the vacuum pump, the exhaust passage extending from an inlet opening to an outlet opening of the exhaust passage; anda cold panel chamber comprising an entrance that connects the exhaust passage to the exhaust port of the vacuum chamber, the entrance comprising an inlet flange for mounting the cold panel chamber to the vacuum chamber to the cold trap, and an exit that connects the exhaust passage to the intake port of the vacuum pump, the exit comprising an outlet flange for mounting the cold panel chamber to the vacuum pump to the cold trap,wherein the inlet opening is formed in the inlet flange such that the inlet opening is eccentric with respect to the inlet flange center and the outlet opening is formed in the outlet flange such that the outlet opening is eccentric with respect to the outlet flange. 2. The cold trap according to claim 1, wherein the cold panel has a barrel or cylindrical form surrounding a central axis of the exhaust passage. 3. The cold trap according to claim 1, wherein the cold panel comprises an extension that extends from a peripheral region of the exhaust passage toward a center region of the exhaust passage such that the center region of the exhaust passage is open. 4. The cold trap according to claim 1, wherein the exit connects the exhaust passage to a gate valve provided between the cold trap and the intake port of the vacuum pump. 5. The cold trap according to claim 1, wherein the vacuum pump is a turbo molecular pump. 6. The cold trap according to claim 1, wherein the exit is provided so as to be eccentric with respect to the entrance such that the exit is displaced from the exhaust port of the vacuum chamber toward a periphery of the vacuum chamber, in a state in which the cold trap is mounted to the vacuum chamber. 7. The cold trap according to claim 1, wherein the cold panel chamber comprises a body part that connects the inlet flange and the outlet flange,wherein the body part is provided so as to be eccentric with respect to the inlet flange, and the outlet flange is provided so as to be eccentric with respect to the body part. 8. The cold trap according to claim 1, wherein the inlet opening and the outlet opening are aligned with an exhaust passage's central axis. 9. The cold trap according to claim 8, wherein, as viewed along the exhaust passage's central axis, the inlet flange, the exhaust passage's central axis and the outlet flange are located at different positions and linearly arranged along a direction perpendicular to the exhaust passage's central axis. 10. The cold trap according to claim 9, wherein, the exhaust passage's central axis is located between the inlet flange and the outlet flange. 11. The cold trap according to claim 8, further comprising a refrigerator thermally coupled to the cold panel to cool the cold panel, an axial line of the refrigerator being perpendicular to the exhaust passage's central axis, wherein, as viewed along the exhaust passage's central axis, the inlet flange, the exhaust passage's central axis and the outlet flange are linearly arranged along the axial line of the refrigerator. 12. The cold trap according to claim 8, wherein, as viewed along the exhaust passage's central axis, the inlet flange and the outlet flange are displaced from each other in a direction perpendicular to the exhaust passage's central axis and the inlet flange and the outlet flange are arranged such as to partially overlap each other. 13. A cold trap provided between a vacuum chamber and a vacuum pump for the vacuum chamber, comprising: a cold panel located in an exhaust passage from an exhaust port of the vacuum chamber to an intake port of the vacuum pump, the exhaust passage extending in a cold trap's axial direction; anda cold panel chamber comprising an entrance that connects the exhaust passage to the exhaust port of the vacuum chamber, the entrance comprising an inlet flange for mounting the cold panel chamber to the vacuum chamber to the cold trap, and an exit that connects the exhaust passage to the intake port of the vacuum pump, the exit comprising an outlet flange for mounting the cold panel chamber to the vacuum pump to the cold trap,wherein the exit is provided so as to be eccentric with respect to the entrance,wherein, as viewed in the cold trap's axial direction, a center of the inlet flange and a center of the outlet flange are displaced from each other in a direction perpendicular to the cold trap's axial direction and the inlet flange and the outlet flange are arranged such as to partially overlap each other. 14. The cold trap according to claim 13, wherein, as viewed in the cold trap's axial direction, the center of the inlet flange, a center of the exhaust passage and the center of the outlet flange are located at different positions and linearly arranged in the direction perpendicular to the cold trap's axial direction. 15. The cold trap according to claim 14, wherein the center of the exhaust passage is located on a line segment connecting the center of the inlet flange and the center of the outlet flange. 16. The cold trap according to claim 13, further comprising a refrigerator thermally coupled to the cold panel to cool the cold panel, an axial line of the refrigerator being perpendicular to the cold trap's axial direction, wherein, as viewed in the cold trap's axial direction, the center of the inlet flange, a center of the exhaust passage and the center of the outlet flange are linearly arranged along the axial line of the refrigerator. 17. The cold trap according to claim 1, wherein the inlet flange is for mounting the cold panel chamber to a gate valve provided between the cold trap and the vacuum chamber, and/or the outlet flange is for mounting the cold panel chamber to a gate valve provided between the cold trap and the vacuum pump. 18. The cold trap according to claim 13, wherein the inlet flange is for mounting the cold panel chamber to a gate valve provided between the cold trap and the vacuum chamber, and/or the outlet flange is for mounting the cold panel chamber to a gate valve provided between the cold trap and the vacuum pump.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (12)
Oikawa, Ken, Cold trap and cold trap regeneration method.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.