SU1173205A1 - Temperature warning device - Google Patents

Abstract

A TEMPERATURE SIGNALIZER containing a ferromagnetic temperature-sensitive element, a body made of a diamagnetic material, two permanent magnets facing each other with their poles of the same name, one of which is fixed at the base of the body, and the other is mounted inside the body with the possibility of reciprocating movement gas filled; gas tube with connecting tube, measuring, pressure transducer, characterized in that, in order to increase the reliability of monitoring temperature changes ry, a bellows mounted within the housing and the indicator through an opening in one of its ends and a connection tube communicates with the pressure measuring transformations Telem, and a ferromagnetic sensing member is formed as a shell .pokryvayuschey movable permanent magnet disposed between the fixed magnet and the other end of the bellows.

Description

The invention relates to temperature measurement and control and can be used primarily for signaling that an object has reached a predetermined temperature in order to prevent abnormal operating conditions.

The aim of the invention is to increase the reliability of controlling temperature changes.

The drawing shows the proposed K alarm, General view.

The temperature alarm device comprises a housing 1 made of diamagnetic material, a heat-sensitive element 2 made of ferromagnetic material with a Curie point corresponding to a given temperature of operation of the alarm device, in the form of a shell (film) covering the permanent magnet 3, the permanent magnet 4, 2C fixed motionless in the base of the housing 1, inside of which a bellows 5 is installed, made mainly of non-magnetic highly thermally conductive material, the meter is. 25th pressure transducer (.Registrator) 6, tube 7 connecting the internal cavity of the bellows 5 through an opening 8 at one of its ends with a pressure ed 6. Pressure transducer 5, tube 7 and the receiving part of pressure recorder 6 are sealed and filled gas atmosphere under pressure. A permanent magnet 3 is installed, inside the detector housing 1 with the possibility of reciprocating movement between the fixed magnet 4 and the free end of the bellows 5, both permanent magnets 3 and 4 facing each other with their same poles.

The signaling device operates as follows.

If the temperature of the ferromagnetic thermosensitive element 2 is lower than its Curie point, then it shields the movable magnet 3, closing its lines of force, and interacting with the magnetic field of the permanent magnet ₅₀ 4 and the bellows 5, together with the magnet 3 is attracted and pressed to the fixed magnet 4 , providing the initial state of the detector, in which the gas pressure in the system is strong * · ^ background-tube-received part of the pressure transducer is minimal.

When the temperature is thermal element 2 reaches its Curie point, it loses its ferromagnetic properties and ceases to screen the movable magnet 3, which, interacting with the magnetic field of the stationary magnet 4 and pushing away from it, moves, compressing the bellows 5, which leads to an increase in pressure in its cavity, and therefore, in the receiving part of the pressure recorder 6. An increase in pressure occurs until the repulsive force of magnets 3 and 4 is balanced by the elastic force of the compressed bellows 5.

Being pressed to the end of the bellows 5, the temperature of which is significantly lower than the temperature of the monitored object (provided by the appropriate installation of the detector housing and effective thermal protection of the bellows), together with magnet 3, the heat-sensitive element 2 begins to cool effectively (provided by significant heat capacity and high thermal conductivity of the material of the bellows). As soon as the temperature of the thermosensitive element 2 during cooling decreases below its Curie point, it restores its ferromagnetic properties and again shunts (shields) the movable magnet 3 and with it due to the elastic force of the compressed bellows 5 and the resulting attractive force with side of the magnet 4, returns to its original position, having entered into full contact with the stationary magnet 4. At this time, the bellows is completely expanded and the pressure in its cavity returns to the previous level. Subsequently, the entire described operation cycle of the detector is repeated many times until the temperature of the monitored object is equal to or higher than the set temperature of the detector.

The cyclic nature of the movement of the permanent magnet 3 leads to pressure fluctuations in the receiving part of the recorder 6, which can be recorded directly or converted into a variable signal convenient for further processing and indication, for example, sound, electric, etc., which allows thereby improving the reliability of the indication of temperature changes of the controlled object.

Claims (1)

TEMPERATURE ALARM, '. containing a ferromagnetic thermosensitive element, a housing made of diamagnetic material, two permanent magnets facing each other, with their poles of the same name, one of which is fixed motionless at the base of the housing, and the other is mounted inside the housing with the possibility of reciprocating movement, filled gas bellows with a connecting tube, pressure transmitter * *, characterized in that, in order to increase the reliability of monitoring temperature changes, the bellows is installed inside the detector body and through an opening in one of its ends and a connecting tube are in communication with a pressure measuring transducer, and the ferromagnetic thermosensitive element is made in the form of a shell covering the movable permanent magnet located between the fixed magnet and the other end of the bellows. I