SU1125436A1 - Device for cooling objects with liquefied gases - Google Patents

Abstract

A COOLING DEVICE FOR OBJECTS WITH LIQUEFIED GASES, containing a Dewar vessel with liquefied gas, connected by a drain pipe to a cryostat, characterized in that, in order to increase efficiency by continuously maintaining the level of liquefied gas in the cryostat, the Dewar vessel and the cryostat are connected as connected vessels, outer shell, and a cryostat casing, the outer casing of the cryostat casing, the cryostat and the cryostat are connected as juxtaposed vessels, outer casing of the cryostat, the outer casing of the cryostat is enclosed as a communicating vessel, external casing of the cryostat, and the cryostat are connected as external communicators, outer casing of the cryostat casing, and the cryostat are connected as external heat sinks, the outer casing of the cryostat is connected to the cryostat. Dewar is equipped with elastic suspension supports. (Lü 01 00 05

Description

The invention relates to Bahia repi (i) devices in cryogenic technology and can be used for automatic pei-leveling of the refrigerant level in a cryostat.

A device is known for automatically controlling the level of a refrigerant in a cryostat, containing a sensor equipped with a screen with a hole on the side surface, a coupling, a clamp, and a distribution chamber 11.

A disadvantage of this device is the inertia of operation, which is due to the .icHd availability of the time required to freeze and warm the sensor, which leads to inaccuracy of the level maintained in the cryostat. and also periodic dispensing (transfusion) of the liquefied coolant in the cryostat.

The closest to the proposed PE of the technical essence and the achieved result is a device for cooling objects with liquefied gases, containing a Dioar vessel with liquefied gas, connected by an overflow pipe to a cryostat. The device is equipped with an automatic tracking unit 2.

However, the known inertia of operation and the periodic dosing (transfusion) of a liquefied refrigerant into a cryostat are also characteristic of the known device. The presence of complex electronic (tracking system) and electromechanical (double-action automatic valve) units can lead to failure of the device and damage to objects cooled in the cryostat.

The aim of the invention is to increase efficiency by continuously maintaining the level of liquefied gas in the cryostat.

The goal is achieved by the fact that in a device for cooling objects with liquefied gases containing a Dewar vessel with liquefied gas, connected by an overflow pipe e to a cryostat, a Dewar vessel and a cryostat are connected as communicating vessels, the outer casing of the Dewar vessel is provided with elastic suspension supports In order to maintain a constant level of liquefied gas in cryoetat, the Dewar vessel is made with a constant cross-sectional area, and the stiffness coefficient of the elastic suspension supports is pgS, where j) is the density g conjugated gas; g is the acceleration of free fall; S is the cross-sectional area of the Dewar vessel.

The drawing shows schematically a device for cooling objects liquefied gases.

A device for cooling objects with liquefied gases contains a cryostat 1, an overflow pipe 2, a Dewar 3, elastic suspension supports 4.

The cryostat 1 is connected with the overflow pipe 2 to the Dewar vessel 3 as communicating vessels under the same pressure. The Dewar 3, which has a constant cross-sectional area, is placed on elastic supports 4, whose stiffness coefficient along the vertical is gS, where g is the density of liquefied gas; g - acceleration of the fall; S is the cross-sectional area of the Dewar vessel.

The cooled object 5 is placed in a cryostat 1. A pipe 6 for cooling objects is filled with liquefied gas so that the level of liquefied gas in the cryostat is higher than the cooled object 5, i.e. the object is completely immersed in the liquefied gas. A device for cooling objects with liquefied gases works as follows.

When cooling the object 5 liquefied

gas evaporates and liquefied gas

in the cryostat decreases. Liquefied gas

from the Dyura 3 vessel through the pipeline 2 is poured into the cryostat 1. At the same time, the elastic

supports 4 are compressed and lift the vessel

Dewar 3. Due to the fact that

the stiffness of the elastic supports 4 is equal to pgS, in

cryostat 1 maintained

level.

The proposed device allows for the provision of an automatic, continuous 1 °; puffing of constant liquefied gas in a cryostat.

Due to the fact that the device does not contain complex electronic and electro-pneumatic-mechanical units, it allows to ensure high reliability while maintaining a constant level of liquefied gas in the cryostat.

Claims (1)

DEVICE FOR COOLING OBJECTS WITH LIQUID GASES, containing a Dewar vessel with liquefied gas, connected by an overflow pipe to a cryostat, characterized in that, in order to increase efficiency by continuously maintaining the level of liquefied gas in the cryostat, the Dewar vessel and the cryostat are connected as communicating vessels, the outer casing of the vessel The dewar is equipped with elastic suspension supports.