RU2006108155A - SMALL PRECISION ZERO-THERMOSTAT - Google Patents

Abstract

A small-sized precision null thermostat containing a container, which is a cylindrical chamber made of a material with high thermal conductivity, inside which there is distilled water, separated by a phase boundary into solid and liquid phases, where in the liquid phase there is an annular float made of a material having the density is lower than the density of water and not wetted by it, in the center of which there is a control junction of a differential thermocouple, the fastening of which is carried out by ohms of thin kapron threads fixed at their ends on the float itself, while the control junction of the differential thermocouple is constantly in the ice freezing (melting) zone due to the buoyant force acting on the float, and the thermoelectric module is brought into cold contact with the upper base of the cylindrical chamber by cold junction moreover, the radiator is an external cylindrical chamber of material with high thermal conductivity, in contact with its lower base with the lower base of the cylindrical chamber ers with melting ice, characterized in that several control junctions of differential thermocouples are fastened in the inner cavity of the float, each of which is fixed in the nodes of the mesh, stretched in the center of the float from kapron threads and fixed on the float itself, and, in each node of the mesh, there is one control junction, and the float located at the interface between the solid and liquid phases has an outer diameter slightly smaller than the inner diameter of the cylindrical chamber with water and in a vertical section has a conical section, thus,

Claims (1)

A small-sized precision null thermostat containing a container, which is a cylindrical chamber made of a material with high thermal conductivity, inside which there is distilled water, separated by a phase boundary into solid and liquid phases, where in the liquid phase there is an annular float made of a material having the density is lower than the density of water and not wetted by it, in the center of which there is a control junction of a differential thermocouple, the fastening of which is carried out by ohms of thin kapron threads fixed at their ends on the float itself, while the control junction of the differential thermocouple is constantly in the ice freezing (melting) zone due to the buoyant force acting on the float, and the thermoelectric module is brought into cold contact with the upper base of the cylindrical chamber by cold junction moreover, the radiator is an external cylindrical chamber of material with high thermal conductivity, in contact with its lower base with the lower base of the cylindrical chamber ers with melting ice, characterized in that several control junctions of differential thermocouples are fastened in the inner cavity of the float, each of which is fixed in the nodes of the mesh, stretched in the center of the float from kapron threads and fixed on the float itself, and, in each node of the mesh, there is one control junction, and the float located at the interface between the solid and liquid phases has an outer diameter slightly smaller than the inner diameter of the cylindrical chamber with water and in a vertical section has a conical section, thus, then the float freely slides along an axis perpendicular to the plane of the phase boundary, and the distance between the control junctions of the differential thermocouples fixed in the nodal nodes of the nylon filaments and the wall of the inner chamber does not change, and in the upper base of the float there is a fine-mesh mesh made up of nylon non-wettable nylon filaments, so that the control junctions of differential thermocouples are located near the interface between solid and liquid phases, but do not come into direct contact with the solid phase of the substance and the second fine-mesh mesh, mounted directly on the float and made up of kapron threads, is stretched near the lower base of the float, while the inner chamber is made of inelastic material and contains a bellows, firmly fixed with its one end at the lower base of the inner chamber, and from the other end having a plug, which is a sealed vessel communicating with the chamber, the volume of which changes with a change in the volume of the solid phase and thus compensating for the liquid pressure on the ki inelastic camera.