SU678341A1 - Liquid temperature measuring device - Google Patents

Description

This invention relates to thermometry. A device for measuring the temperature is known. A liquid comprising a housing in which a temperature-sensitive element made of a ferromagnetic material lU is placed. However, in the known device, it is difficult to visually monitor the controlled temperature. The closest to the technical essence of the invention is a device for measuring the temperature of a liquid, comprising a housing, at the base of which a magnet is fixed, facing the same pole with a movable magnet and equipped with a temperature-sensitive element made of a ferromagnetic material and mounted on the magnetic flow path of the magnets 2. However, in known. This device is difficult to visually monitor the temperature of the fluid, especially in: asocotemperature and aggressive. The aim of the invention is to improve the conditions for the visual monitoring of the temperature of a liquid, for which the movable magnet is made equal to the fixed magnet with a temperature-sensitive element, and the casing is made in the form of a sealed cylinder, the height of which is determined by shape. G lg - h, Sd2- where D is the height of the case; G - body weight with magnets and temperature-sensitive element; d - specific weight of the controlled fluid; hi- height of the moving magnet; hi is the height of a stationary magnet with a temperature-sensitive element; S --.platform base. The drawing shows the proposed device. It comprises a housing 1 made in the form of a hermetic cylinder, a temperature-sensitive element 2, a stationary magnet 3, a movable magnet 4 and a controlled fluid 5. Under the influence of the temperature of the controlled fluid 5, the temperature-sensitive element 2 heats up to a certain temperature, for example, equal to the Curie point loses its magnetic properties and ceases to shield the magnetic flux of the moving and stationary magnets 3 and 4. As a result, repulsive forces arise between the magnets 3 and 4, under the action of which the movable magnet 4 moves inside the cylinder 1 by the amount of the free stroke. Being in the upper part of the cylinder 1, the movable magnet 4 changes the center of the body weight of the body 1, translates it into a state of unstable equilibrium, from which it is due to various random factors (misalignment of the axes of the mobile magnet 4 and the cylinder 1, random oscillations of the controlled fluid etc.) The system deviates from the original vertical position and then moves to a new unstable position. To move the visually observable housing 1 from one position to another, the inequality must be satisfied

Ghi

D

sd 2;

When the temperature of the controlled fluid becomes below the Curie point of the material of the temperature sensitive element, it restores its magnetic properties and again starts to shunt the magnetic head of the magnets 3 and 4, as a result of which the movable magnet 4 is attracted to the temperature sensitive element 2, which allows the housing 1 to return to its original position .

By changing the position of the housing 1, for example, by restoring its ref: 6 position, it is visually determined that the temperature of the controlled fluid is lower than the Curie point of the material of the temperature-sensitive element 2.

By selecting the composition of the material of the Thermosensitive element 2, the operation of the proposed device is ensured in a wide temperature range. Thus, for example, the Curie point value for iron is, for example, nickel ZbOC, for an alloy containing 32% nickel and 68% iron 124 ° C, for an alloy containing.28% copper and 72% nickel bbs.

As a material for magnets, cobalt alloys with rock-earth or elements capable of creating a magnetic field of tens of thousands of Oersted can be used, their use will significantly reduce the size of the hull.

678341

The proposed device, along with improving the conditions for visually monitoring the temperature of the fluid, such as high temperature or aggressive, provides a higher degree of safety for the personnel, since the change in the position of the body depending on the temperature is more easily distinguishable than in the known design, and is visually fixed to significantly

further away from the place of immersion of the device. v

The simultaneous use of several devices of the proposed design allows the discrete-nitrol temperature of the liquid to be carried out in increments determined by the selection of thermo-sensitive element materials.

Claims (2)

1. USSR author's certificate No. 524086, cl. G 01 K 7/38, 1975. 2. USSR author's certificate 5 No. 504103, Cl, G 01 K 7/38, 1974. S X /