SU1643858A1 - Liquid coolant feed device - Google Patents

Abstract

The invention relates to a cryogenic technique and can be used to transfer liquid refrigerant from a Dewar vessel to its destination. The purpose of the invention is to provide the possibility of supplying a liquid refrigerant to a receiver in the absence of electricity conditions. The device contains an overflow tube and heat accumulator. The battery is made in the form of a tube, symmetrically covering the tube, and at the same time touching it only at two points of the vacuum-tight connection with it, and a vacuum is created in the space between the tube and the tube. The tube is connected to the tube by means of bellows tightly sealed with each other. The tube and the vacuum-tightly connected bellows are made of vacuum material with the lowest possible thermal conductivity, and the bellows tightly connected to the pipe with the highest thermal conductivity possible. 1 hp f-ly, 2 sil 8 S

Description

The invention relates to a cryogenic technique and can be used to transfer liquid refrigerant from a Dewar vessel to its destination, for example, to nitrogen traps of vacuum deposition units or to a cryostat of photodetectors.

The purpose of the invention is to increase efficiency due to the stability of the refrigerant supply and increase the time of continuous operation.

Fig 1 shows the proposed device, a general view; in fig. 2 - the same, in working condition, i.e. dropped into the Dewar vessel with refrigerant

The device consists of a plug 1, an overflow tube 2 with a heat accumulator made in the form of a tube 3 placed outside the tube 2. The latter is fixed on the tube 2 only by the ends 4 and 5, respectively, tightly and with thermal contact. In these places, they are vacuum-tight

are welded together, and the space 6 between them is evacuated by means of a vacuum tube 7. To reduce thermal shocks caused by different coefficients of thermal expansion of the materials of pipe 3 and tube 2, they are not welded together with each other, but through two syphons 8 and 9, of which the slide 8 is made of vacuum material with good thermal conductivity (for example, copper ), and the bellows 9 is made of vacuum material with low thermal conductivity (for example, covar)

The device works as follows.

The lower part of the device is lowered into the Dewar vessel until it comes into contact with its bottom. By moving tube 1 along pipe 3, it is inserted into the neck of the Dewar before creating a good seal. In this case, due to the flow of thermal energy from the space (air) surrounding the upper part of the device (i.e. the part located outside

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Dewar vessels, from the cork to the bellows inclusive of the refrigerant located in the Dewar vessel, evaporates the refrigerant. In this case, heat energy is transferred through pipe 3. The evaporating refrigerant creates in the Dewar vessel an overpressure that causes liquid refrigerant to flow through pipe 2 to the receiver (not shown).

The flow of the refrigerant through the tube 2 leads to a change in its temperature and the associated change in its dimensions. The presence of bellows prevents damage to the device. In addition, the large surface area of the bellows 8 makes it possible to increase the power of the heat supplied from the surrounding space, and the poor thermal conductivity of the bellows 9 prevents the bellows 8 from cooling.

If necessary, the device may also have a curved shape (for this it must be assembled in a curved shape, and not bent after production).

The proposed device allows liquid refrigerant to be supplied to the receiver in the absence of electricity from a stable

ability to supply refrigerant during long-term operation.

Claims (2)

Invention Formula . A device for supplying a liquid refrigerant from a Dewar vessel containing a stopper, an overflow tube and a heat accumulator mounted on it, characterized in that, in order to increase efficiency due to the stability of the refrigerant supply and to increase the time of continuous operation, the heat accumulator is in the form of an outside the tube of the pipe and the ends fixed on it are hermetically sealed with thermal contact; at that, a part of the pipe is located outside the Dewar vessel and the annular space is evacuated. 2. The device according to claim 1, characterized in that, in order to increase its reliability by reducing mechanical loads associated with thermal compression, one of the ends is fixed by means of a vacuum pad but interconnected bellows, the bellows connected to the overflow the tube is made of a material with low thermal conductivity, and connected to the tube is made of a material with high heat conduction. 0 Fig2