SU1045007A1 - Temperature indicator - Google Patents

Abstract

A TEMPERATURE SIGNALIZER containing a stationary thermosensitive element made of ferromagnetic material with a specific Curie point, a permanent magnet and an elastic gasket, a recorder, characterized in that, to increase reliability, the permanent magnet of the detector is fixedly connected to an elastic gasket sealed tightly perimeter into the wall of the casing and made of heat insulating material, and the cavity formed by the inner surface of the casing and the permanent magnet is filled with liquid Stu and capillary tube connected with the registrar configured as a transmitter or meter fluid pressure. with: 4ssie,.

Description

The invention relates to thermometry and can be used to monitor and measure temperature, to visually and automatically signal that an object reaches a predetermined temperature under specific operating conditions (presence of electric fields, low illumination, high humidity, high-frequency vibrations, acoustic vibrations).

It is known an indicator device for temperature control, containing a temperature-sensitive element made of a ferromagnetic material that changes the magnetic properties when heated to a temperature corresponding to its Curie point G1 The disadvantage of this device is low measurement reliability, especially when controlling the temperature of Objects that are difficult to access in low light, high temperature and indoor ,,

The closest technical essence to the present invention is a temperature detector, containing a fixed thermosensitive element made of a ferromagnetic material with a specific Yori point, a permanent magnet and an elastic gasket, a piezolator and a recorder 2}, located in the housing,

A disadvantage of the known signaling device is the low reliability of its operation. This is due to the fact that the initial state of the temperature detector cannot be detected due to the impossibility of using piezoelectric sensors for studying static processes. In electric fields, with vibrations, acoustic; oscillations, accelerations on the surface of the piezocrystal are generated - electric charges, which can lead to false triggers of the signaling device. It is also possible; loss of information about the achievement of the setpoint temperature of the object due to the need to use electronic circuits in piezoelectric circuits, the noise of which can be commensurate with the signal of the piezoelectric sensor. The piezo sensor signal may be lost in conditions of high humidity.

The purpose of the invention is to increase the reliability of the detector.

The goal is achieved by the fact that the temperature detector contains a stationary thermosensitive element made of ferromagnetic material with a certain Curie point, a permanent magnet and an elastic gasket, a recorder, a post magnet fixedly connected with an elastic gasket sealed tightly around the perimeter of the body wall and made of heat insulating material, and the cavity formed by the inner surface of the housing and the permanent magnet is filled with liquid and connected by a capillary tube with the registrar configured as a transmitter or meter fluid pressure.

The drawing shows the proposed temperature detector,

 The temperature detector includes a housing 1 made of a diamagnetic material, a temperature-sensitive element 2, made of a ferromagnetic material with a Curie point corresponding to a controlled sherature tag, fixed in the housing 1, a heat-insulating elastic gasket 3 sealed to the housing 1, a permanent magnet 4 fixedly connected to the heat-insulating elastic gasket 3, the housing 1 has a through hole 5, which is located between the inner surface of the housing 1 facing the constant nnomu magnet 4 and the permanent magnet 4, to the through hole 5 with one end sealingly connected to a capillary tube used. The cavity 7, bounded by a permanent magnet 4, the inner surface of the housing 1 and the tube b, another END

tube b, filled with fluid. To the other end of the tube b, a recorder 8 is connected, made in the form of a level gauge or a liquid pressure gauge.

The temperature detector works as follows.

In the initial state, when the value of the controlled temperature is less than the set point (Curie point}, the permanent magnet 4, attracted by the temperature-sensitive element 2, compresses the elastic heat-insulating gasket 3, the fluid filling the cavity 7, limited by a permanent magnet 4, the inner surface body 1 and tube b, the other end of tube b, acts on the recorder 8, which captures either its level or pressure.

When the controlled temperature increases and the Curie point is reached, the thermosensitive element quickly loses its ferromagnetic properties and becomes paramagnetic. This leads to the disappearance of the force that attracts the permanent magnet 4 to the thermosensitive element 2, the sharp effect of the elastic force of the heat insulating pad 3 on the permanently attached magnet 4, which, in turn, reduces

the volume of the cavity 7 filled with liquid, the extrusion of liquid from the initially filled cavity and the increase in pressure, which is recorded by the recorder 8.

The possibility of continuous monitoring of the initial state of the temperature detector, the absence of false alarms caused by electric fields, high-frequency

vibrations and acoustic vibrations, the ability to use the output signals of the detector in conditions of high humidity for visual indication and in automation devices allows to increase the reliability of measurements and, thus,. reduce the likelihood of abnormal operating conditions of the facility.

Claims (1)

TEMPERATURE SIGNAL, comprising a stationary thermosensitive element made of ferromagnetic material with a certain Curie point placed in the housing, a permanent magnet and an elastic gasket, a recorder, characterized in that, in order to increase reliability, the permanent magnet of the signaling device is fixedly connected to an elastic gasket sealed hermetically along the perimeter in the wall of the housing and made of insulating material, and the cavity formed by the inner surface of the housing and a permanent magnet is filled with liquid and oedinena capillary tube with the registrar configured as a transmitter or fluid pressure monitor.