SU1025914A1 - Cryogenic pump - Google Patents

Abstract

A CRYOGENIC PUMP, comprising a housing and a pumping element placed inside it inside a cooled screen, made in the form of a vessel with a coolant, inside which a partition is tightly fixed to the bottom and equipped with connections for refrigerant filling and removal of its vapor, the first of which is equipped with a shut-off valve, distinguished by that, in order to reduce refrigerant consumption during regeneration, the vessel is equipped with a jacket, which forms a vacuum insulation cavity with it, and the partition is made double-walled with a vacuum interwall cavity, with a vacuum insulative common to the cavity, and a vapor outlet is hermetically brought out of the vessel and provided with a shut-off valve ... O) with § iU O ND SL CO

Description

.. The invention relates to vacuum: technician.

A cryogenic pump is known that contains a housing and a pumping element placed inside it, inside a cooled screen, made in the form of a vessel with a refrigerant inside the bottom; The reedbag is hermetically sealed, equipped with connections for the coolant and its vapor, the first of which is equipped with a shut-off valve ij.

The disadvantage of this design is the large loss of liquid refrigerant during pump regeneration, since in order to carry out regeneration, it is necessary to evaporate (or ne-1 relieve into another container) all liquid refrigerant in the vessel, which leads to additional the size of the refrigerant and the reduction of the pump economy.

The purpose of the invention is to reduce refrigerant consumption during regeneration.

This goal is achieved by the fact that in a cryogenic pump containing

25 Case and a pumping element placed inside it inside a cooled screen, made in the form of a vessel with a refrigerant, inside which a partition is hermetically fixed at the bottom,

40 equipped with pipes for filling the refrigerant and removing its vapor, the first of which is equipped with a shut-off valve, the vessel is equipped with a jacket, which forms a vacuum with it. This partition is made double-walled with a vacuum interwall cavity, communicated with the vacuum insulation cavity, and a pipe for vapor removal. Hermetically brought out of the vessel and provided with a shut-off valve,. Q

The drawing shows the pump, a longitudinal section.

The cryogenic pump contains a housing 1 and a pumping element placed inside it inside the cooled screen 2, made in the form of a vessel 3 with a refrigerant, inside which a partition 4 is tightly fixed to the bottom at the bottom. It is supplied with nozzles 5 and 6 for filling and discharging the refrigerant.

the vapor of the first of which is equipped with a porous valve 7. The vessel 3 is equipped with a jacket 8, which forms a vacuum insulation cavity with it, and the partition 4 is double-walled with a vacuum interwall cavity connected to the vacuum insulation cavity, and the nozzle b for vapor removal is hermetically brought out of vessel 4 and equipped with a shut-off valve 9.- The cryogenic pump works as follows.

In screen 2 liquid nitrogen is poured. Liquid helium is poured into the vessel 3, which through the nozzle 5 and the open valve 7 is also poured into the cavity between the bottom and the partition 4. At the same time, the valve 9 is open to ensure the discharge of helium vapor into the gas tank. After filling in the gels, the pump is ready for operation and can be pumped out by the recipient (without showing). After accumulating a sufficiently large amount of gas, the pump must be regenerated, i.e. clean the bottom surface of the layer of condensed gas. To do this, the valve 9 is closed, the vapor pressure in the cavity between the partition 4 and the bottom rises and liquid helium is squeezed through the pipe 5 into the vessel 3. After the bottom starts to warm up (judged by the increase in pressure in the vacuum system), the valve 7 is closed. The concentrated gas evaporates from the bottom surface and is evacuated by an auxiliary flush pump (not shown). After removing the condensed gas, the valve 9 is first opened, and then the valve 7 I Liquid helium through the pipe 5 and the valve 7 fills the cavity between the bottom and the partition 4. The pump is ready for operation again.

Since, in the proposed pump, liquid Helium is in the process of regeneration, it is in a vessel / whole surface which is protected by vacuum thermal insulation, it does not need to be poured into another (in-situ) vessel. Therefore, the refrigerant consumption during regeneration in the pump will be significantly reduced (by about 30%). .

Claims (1)

CRYOGENIC PUMP containing a housing and a pumping element made in the form of a vessel placed inside it inside a cooled screen. a refrigerant inside which a septum is sealed to the bottom, provided with nozzles for filling the refrigerant and venting its vapor, the first of which is equipped with a shut-off valve, characterized in that, in order to reduce the flow of refrigerant during regeneration, the vessel is equipped with a jacket forming there is a vacuum insulation cavity with it, and the partition is double-walled with a vacuum interwall cavity, connected with the vacuum insulation cavity, and the pipe for venting the vapor is sealed outside the vessel and is equipped with a shut-off valve. „SU“ 1025914