SU911180A1 - Device for measuring temperature - Google Patents

Description

(54) DEVICE FOR TEMPERATURE MEASUREMENT

Claims (2)

 - I The invention relates to thermometry, namely to devices for measuring temperature by changing the color of the experimental element, and can be used for remote and; Radiol and electrical equipment operating in the most demanding conditions, for example, under high electric potential or in microwave fields, as well as hard-to-reach parts and media, are used to keep local temperature and temperature fields. Temperature measuring devices are known; there is a tube with a side process in which a light source is located, a photocurrent and a thermochromic device located between the light source and the photodetector with a tunable transmission wavelength are located on opposite tube tops. The principle of operation of such devices is based on the property of liquid crystals to vary, depending on the temperature, the spectral characteristic of light, the selective dispersion of a layer of liquid crystals, and the subsequent conversion of the temperature distribution of the object being measured into an electrical signal depending on the L spectral characteristics of the light flux selectively scattered by the layer of liquid crystals 1 The disadvantage of these devices is the low speed response, due to the large inertia of the variable filter. oh length of pass. Closest to the proposed technical essence and the achieved result is a device for measuring temperature, containing a thermochromic transducer optically coupled to a source of pulsed radiation and a photo-receiver electrically connected with a registrar device 2. A disadvantage of the known device is the low accuracy of temperature measurement, due to the temporal and temperature instability of the thermo-39 chrome transducer and photodetector, as well as the low steepness of temperature conversion into an electrical signal due to the presence of a broad spectrum component of the thermochromic transducer. is an increase in the accuracy of temperature measurement. This goal is achieved by additionally introducing a thermochromic transducer optically connected to a source of pulsed radiation and a photoreceiver, two sources of continuous radiation, a bridge circuit and a control unit of sources of continuous radiation optically connected to photodetectors and included in the adjacent arms. the bridge circuit, the output of which is connected to the control unit of the sources of unstable radiation, and through a capacitor to the recording unit. The drawing shows a device diagram. The device contains thermochromic converters 1 and 2, made in the form of a layer of liquid crystals enclosed between two protective films that are optically coupled to a source of pulsed radiation 3 and photoreceivers 4 and 5. The latter are designed to convert radiation into electrical signals optically by sources of 6 and 7 continuous radiation and are included in the bridge circuit 8, the output of which is connected to sources 6 and 7 of continuous radiation through block 9 and 5 Yu torus connected to the recording unit 11. The control unit 9 sources 6 and 7 in continuous wave form vsholnen differontsnalnogr amplifier. The device works as follows. One of the thermochromic transducers 1 or 2 is brought into contact with. controlled object, and the other - with a thermal standard. The instability of the operation of photodetectors 4 and 5 leads to imbalance of the bridge circuit 8. The constant component of the signal unbalance is filtered by a capacitor. Yun enters block 9, controlling sources 6 and 7. Block 9 adjusts the light fluxes of sources 6 and 7 so as to stabilize the zero of the bridge circuit 8 is at a constant 04 of the unbalance signal. In this case, the variable component of this signal, selected by the capacitor 10 and being a function of the temperature difference between the object and the reference, goes to the registering device 11. The presence of new elements and connections in the device makes it possible to compensate for the interference caused by the time and temperature instabilities of the thermochromic converter and photodetector, and due to this, increase the reliability of the discharge of the useful signal and, consequently, the accuracy of measurement, of temperature. . In addition, due to the more sensitive differential measurement, measurement, it becomes possible to use weaker probing light fluxes, which also reduces the additional faults caused by the temperature effects of the sources, and this, in turn, improves the measurement accuracy. The invention The device for measuring temperature, containing a thermochromic converter, optically coupled, with a source of pulsed radiation and with a photo-receiver electrically connected with a recording device, has been added so that, in order to increase the accuracy of temperature measurement, the device has been additionally introduced thermochromic converter, optically connected with a source of pulsed radiation and with a photodetector, two sources of continuous radiation, a bridge circuit and a control unit for sources of non-continuous cw radiation optically coupled to photodetectors and adjacent shoulders included in the bridge circuit, the output of which is connected to the control unit of continuous radiation sources and through the capacitor - to the recording unit. Sources of information taken into account during the examination 1. Patent of the GDR No. 100549, cl. (ch 01 K 11/12, 1976.. 2. US patent No. 4016761, cl. KI / 12, 1977 (prototype).  - /