SU830355A1 - Temperature control cabinet - Google Patents

Description

one

The invention relates to instrument engineering and is intended for the thermal stabilization of the elements of instrument devices.

HsiaecTHbi thermostats based on the use of temperature constants during the aggregate transition of liquid-solid and the effects accompanying it, for example, a change in volume during melting or crystallization. The sensing element of these devices is made in the form of bellows.

The disadvantage of these devices is the possible undesirable deformation of the bellows due to crystallization of the substance inside it, which can lead to a decrease in the reliability of the device.

The closest in technical essence to the present invention is a thermostat containing a chamber filled with a crystalline substance, changing volume with a change in the state of aggregation, a sensitive element, Designed as a bellows, filled with a liquid with a low crystallization temperature. The sylphus is separated from the chamber with the crisscallic structure of the elastic membrane. Also the thermostat includes a controlled heat source - thermoelectric battery 2j.

However, when using the thermostat, the walls of the chamber with a crystalline substance may be deformed, which can lead to the destruction of the thermostatted element. This thermostat is not serviceable.

0 under conditions of a wide variation in temperature of the surrounding medium, since the change in the volume of the fluid in the bellows is not taken into account.

The purpose of the invention is to eliminate the possibility of deformation of the chamber with a crystalline substance, i.e. increase the reliability of the thermostat and increase accuracy.

The goal is achieved

0 in that the thermostat containing the working chamber and the chamber filled with the first thermostatic substance, the sensing element, made in the videophone, the movable base

5 of which is associated with a contact group filled with a second thermostating substance, an elastic membrane is installed in the chamber filled with the first thermostating substance, forming a wall with the working one.

the chamber is a cavity connected to the cavity of the bellows and filled with a second thermostatic substance, in that the contacts in it are made of bimetallic plates, in which the working chamber and the cavity formed by the elastic membrane and the wall of the working chamber are filled with substances with a melting temperature equal to thermostabilization.

The drawing shows schematically the thermostat, general view, section.

The thermostat consists of a working chamber 1, a chamber 2 filled with the first thermostating agent 3, a sensing element made in the form of a bellows 4, the movable base of which is connected to the contact group 5 through the rod 6 and the lever 7, the bellows 4 is filled with the second thermostating agent 8. B The chamber 2 is fitted with an elastic membrane 9, which forms with the wall 10 of the working chamber 1 a cavity 11 connected to the cavity of the bellows and filled with a second thermostating substance 8. A semiconductor thermopile 12 is fixed along the outer perimeter of the chamber 2.

The device works as follows.

When the mass ratio of the liquid and solid phases of a substance 3 changes, its volume changes. The elastic membrane 9 is deformed, affecting the substance 8. There is a forward movement of the bellows 8, the movable base of which is transmitted to the lever 7 by means of the rod b.

To compensate for the change in the ambient temperature, the contacts 5 controlling the operation modes of the thermopile 12 are made of bimetallic plates. For an ambient temperature above 10 ° C, chamber 11 is filled with a gallium-based alloy, long. ambient temperature not lower - mercury. These substances have good thermal conductivity and do not impair thermostatic control. Chamber 3 is filled with a substance with a melting point equal to the temperature control temperature. For example, bismuth-based alloys are used for the temperature at 46, and 45.7s.

The invention is distinguished by high reliability and considerable accuracy of temperature maintenance over a wide range of ambient temperatures. The possibility of undesirable deformation of the thermostatic chamber, which can lead to the destruction of the working fluid, is eliminated.

Claims (2)

1. A thermostat containing a working chamber and a chamber filled with a first thermostatic substance, a sensing element made in the form of a bellows, the movable base of which is associated with a contact group filled with a second thermostatic substance, in order to increase the reliability of the thermostat in it in the chamber filled with the first thermostatic substance, an elastic membrane is installed, which forms a cavity connected with the bellows cavity and filled with the second thermostatic substance with the wall of the working chamber . 2. Thermostat according to claim 1, characterized in that, in order to increase the accuracy of the thermostat, the contacts in it are made of bimetallic plates. 3- The thermostat according to claim 1, characterized in that the working chamber and the cavity formed by the elastic membrane and the wall of the working chamber are filled with substances with a melting point equal to the temperature of stabilization. Sources of information taken into account in the examination .one. Author's certificate of the USSR No. 390510, cl. G 05 O 23/02, 1970. 2, USSR Author's Certificate No. 260223, cl. G 05 D 23/30, 1969 (prototype). . 7  eight eleven