SU659852A1 - Cryostat - Google Patents

Description

Moreover, the wall of the working chamber has a variable cross-section in height, and the screen is equipped with flanging.

A variable in height section of the wall of the working chamber is intended to appropriately change the thermal resistance along the wall of the chamber and increases the efficiency of the adjustment.

In addition, a shield is flared at the bottom to facilitate movement of the annular piston.

The drawing shows the proposed device, an example of execution.

The stationary working chamber 1 is made in the form of a cylinder, along the axis of which the sample 2 under study is placed in the upper end, and the walls 3 of the side surface serve as one of the fixed contacts of the thermal key. A second fixed contact 4 is placed on the wall of the bath 5 with a coolant, for example liquid helium, in which a superconducting solenoid 6 is placed. A bath 7 with an intermediate coolant, for example liquid nitrogen, is installed in a cryostat having an outer jacket 8 and a vacuum jacket 9. Movable thermal contact designed in the form of an annular piston 10 installed between the working chamber and the bathtub with the possibility of reciprocating motion. The stationary thermal contact of the bath with the intermediate refrigerant is made in the form of a screen And installed at the bottom of the cryostat, concentric with the piston. The annular piston 10 is connected by means of 12, passing through a vacuum seal 13 in the wall of the outer casing of the cryostat, with a drive 14 located above the shaft and the cryostat.

The device works as follows.

At the lower position of the annular piston 10, test sample 2 is mounted on the bottom of working chamber 1 (contacts 10-4 and 10-11 are open), after which it is evacuated. By means of a drive 14, the annular piston 10 is moved upward through the treads 12, sequentially connecting the wall 3 of the working chamber with the screen 11, providing heat removal from the sample to the intermediate refrigerant, and then to the fixed contact 4, providing heat removal to the bath 5.

Moving the annular surface 10 changes the distance along the wall 3 of the working chamber from sample 2 to the point of contact with the annular piston and, accordingly, the thermal resistance between the sample and the refrigerant bath, determines the range of economical temperature control. More precise temperature control of the sample is carried out by its heater.

The implementation of the movable thermal contact in the form of an annular piston installed between the working chamber and the bathtub with the possibility of reciprocating motion increases the economy of temperature control by choosing the piston position of a certain thermal resistance along the chamber wall between the sample and the bath.

Performing a fixed thermal contact of the intermediate refrigerant bath in the form of a screen mounted concentrically at the bottom of the cryostat to the piston increases the efficiency of pre-cooling the chamber and controlling the sample temperature in the range above the intermediate refrigerant temperature.

Flanging the screen facilitates the entry of the annular piston into contact with the screen.

Giving the wall of the working chamber a variable cross-sectional height provides a corresponding change in the thermal resistance along the wall.

The fixed working chamber allows stationary placement of the sample at a given point of the magnetic field.

Claims (2)

1. A cryostat comprising a housing, a working chamber with a movable thermal contact, a bath with refrigerant and thermal contacts, and a thermal contact driving mechanism located outside the housing, characterized in that, in order to improve the temperature control efficiency, the movable thermal contact is made in the form of an annular piston installed between the working chamber and the bathroom with the possibility of reciprocating motion, and the thermal contact of the bath is made in the form of a screen installed in the lower part of the cryostat concentrically shnyu. 2. A cryostat according to claim 1, characterized in that the wall of the working chamber has a variable cross-section in height, and the screen is equipped with flanging. J-9 -w / J /