SU1647285A1 - Temperature indicator - Google Patents

Abstract

The invention relates to the field of measuring and controlling temperature and is intended to signal the achievement of a predetermined temperature by an object. The aim of the invention is to reduce the inertia of a signaling device. The source 1 of a sieta, photo receiver 2, equipped with linear polarizers 6 and 7 with mutually perpendicular polarization planes, are installed at the ends of the Y-shaped fiber optic light guide 8, the combined end of which is perpendicular to the surface of the heat-sensitive element 9 made of magnetized him ferromagnetic material with a given Curie point. When the temperature reaches the point K, the magnetization of the temperature-sensitive element 9 disappears. This leads to a change in the nature of the reflection from it of polarized light recorded by the control circuit. 1 il.

Description

The invention relates to the field of measurement and temperature control and is intended to signal that an object has reached a predetermined temperature.

The aim of the invention is to reduce the inertia of the detector.

The drawing shows the block diagram of the described device.

The detector contains a source of light 1, a control unit that includes series-connected a photodetector 2, an amplifier 3, a threshold unit 4, and an indicator 5.

The light source 1 and the photodetector 2, respectively, are equipped with the first 6 and second 7 linear polarizers having mutually perpendicular polarization axes, the light source 1 and the photodetector 2 are connected by a Y-shaped optical fiber optic 8, the combined end of which A is directed perpendicular to the thermally sensitive surface element (PM E) 9, and the ends B and C are attached respectively to the polarizer 6 of the light source 1 and the polarizer 7 of the photodetector 2. In this case, the TCA 9 is permanently magnetic.

The cig analyzer works as follows

Light from source 1, linearly polarized in a polarizer b, through a light guide 8 at an angle of 90 ° falls on the surface of the TCE 9. At the temperature of the confluent object (and TCE) below the Curie point, due to the magneto-optical effect, the reflected light flux has an elliptical field - the realization, and therefore part of the luminous flux passes through the polarizer 7, the polarization axis of which is shifted by 90 ° relative to the polarization axis of the polarizer 6, to the photodetector 2, where the signal is converted into electrical, then amplified by the amplifier 3, passes through the pores traction unit 4 and the display 5 is induced, indicating that the controlled object temperature reached a predetermined level.

When the temperature of the monitored object rises to the Curie point, the HSE 9 ceases to be a magnet, and therefore the reflected light flux retains linear polarization and does not enter through the polarizer 7 into the photodetector 2, and the indicator 5, by the absence of a signal at the input, induces the achievement of temperature

After cooling, the cycle can be repeated.

The thermosensitive element can be realized in the form of a plate with a thickness equal to the diameter of the carrier of the magnetic moment of 10 m. With an area of one tenth of 1 mm2.

As a result, the temperature-sensitive element has practically no thermal inertia. Since the sensing of the sensor and the transmission of information about the temperature are produced by the luminous flux of low power radiation, the distortions of the temperature field of the object from the detector are minimal.

Claims (1)

The invention includes a temperature detector, a light source, a fiber light guide, a temperature-sensitive element made of magnetized ferromagnetic material with a given Curie point, and a control unit, characterized in that, in order to reduce the inertia, the first and second linear polarizers of light are introduced into it, and the light guide is made Y-shaped, its combined end is placed perpendicular to the surface of the temperature-sensitive element, and the first linear n l polarizers and the light source and the second linear polarizer and a control unit which is configured as a series-connected photodetector, an amplifier, a threshold unit and the indicator, wherein the polarization axis of the first floor and second linear light polarizers are mutually perpendicular.