SU1483091A1

SU1483091A1 - Vacuum criogenic pump

Info

Publication number: SU1483091A1
Application number: SU874313087A
Authority: SU
Inventors: Валентин Александрович Афанасьев; Владимир Иванович Карагусов
Original assignee: Предприятие П/Я М-5727
Priority date: 1987-10-06
Filing date: 1987-10-06
Publication date: 1989-05-30

Abstract

Изобретение относитс к вакуумной технике и позвол ет сократить врем выхода насоса на рабочий режим и регенерации. Регенеративный теплообменник 9 имеет подвижную насадку 10, разделенную поперечными перегородками 13 на секции, а контуры 11 и 12 предварительного охлаждени теплозащитного экрана 5 и криопанели 6 снабжены автономными нагнетател ми 14 и 15. При регенерации насоса циркулирующий в контурах 11 и 12 теплоноситель переносит тепло от насадки 10 к экрану 5 и криопанели 6, охлажда ее, а при предварительном охлаждении экрана и криопанели теплоноситель использует холод, запасенный насадкой 10. Газова криогенна машина 2 включаетс лишь в рабочем режиме насоса с целью его окончательного охлаждени и поддержани температуры экрана 5 и криопанели 6 на необходимом уровне. 2 з.п. ф-лы, 2 ил.The invention relates to vacuum technology and reduces the time for the pump to reach its operating mode and regeneration. Regenerative heat exchanger 9 has a movable nozzle 10, divided by transverse partitions 13 into sections, and the circuits 11 and 12 of pre-cooling the heat shield 5 and cryopanel 6 are equipped with self-contained blowers 14 and 15. When regenerating the pump, the heat transfer medium circulating in circuits 11 and 12 transfers heat from the nozzle 10 to screen 5 and cryopanel 6, to cool it, and when pre-cooling the screen and cryopanel, the coolant uses the cold stored by the nozzle 10. Gas cryogenic machine 2 is turned on only in the operating mode pump and with a view to its final cooling and maintaining the temperature of the screen 5 and cryopanel 6 at the required level. 2 hp f-ly, 2 ill.

Description

99

1717

1818

фиг. 2FIG. 2

Claims

Claim

i. A vacuum cryogenic pump comprising a casing, a gas cryogenic machine and a heat shield and a cryopanel located on the heat exchangers of the gas cryogenic machine located in the casing, equipped with coils attached to them, connected to a heat-insulated regenerative heat exchanger with warm and cold zones, equipped with a nozzle, and forming closed circuits, heat-shielding screen and cryopanels, characterized in that, in order to reduce the time to reach the operating mode and regeneration, as well as increase efficiency, n a regenerative heat exchanger of the cage is movable and provided with a gas-tight transverse bulkheads, dividing it into sections, and the coil of the heat shield is connected to a regenerative heat exchanger at a location closer to the warm zone of heat exchanger than the coil connecting portion cryopanels.

2. The pump according to π. 1, characterized in that the contours of the heat shield and cryopanels are equipped with autonomous superchargers.

3. The pump according to claim 2, characterized in that the contours of the heat shield and the cryopanel are equipped with recuperative heat exchangers with warm and cold zones and a supercharger, the warm zone of the heat exchanger of the cryopanel loop connected to the cold zone of the heat exchanger of the heat shield circuit, the warm zone of which is connected to supercharger.

FIG. 2