SU1051387A1 - Device for measuring temperature - Google Patents

Abstract

A DEVICE FOR MEASURING TEMPERATURE, x automatic oscillators with piezoresonators, frequency divider, impulse counter, characterized in that, in order to increase accuracy i, i & The device is inserted into the electric key in the electric key, and is connected to the main car drive, and the second to the output of the frequency divider, the input is connected to the output of the BTopcext drive, the outlet, and the output is connected to the outlet, and the output is connected to the outlet, and the output is connected, and the output is connected, and the output is connected, and the output is connected to the headset, and the output is connected, and the output is connected, and the output is connected, and the output is connected, and the output is connected, and the output is connected to the headset, and the output is connected, and the output is connected, and the output is connected, and the output has been connected to the output switch, and the output has been connected to the output switch, and the output has been connected to the output switch, and the output has been connected to the output switch, and the output has been connected to the output switch and the output has been connected to the output switch and the output has been connected to the output switch. “ShudosB” is connected to the input of the {g 1chnspngelnychk block, with both piezorestilators being temperature sensitive. (L with

Description

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The invention relates to pyrometry, namely to a change in the temperature of groundwater during prediction of the investigation. A device for measuring temperature is known, which contains a sensitive piezoresonator which is valuable with an autogenerator. The pulse frequency is calculated by the frequency meter G1 J. However, the known device does not provide the required accuracy of measurement due to insufficient thermal stabilization. frequency counter. . The closest in technical essence to the present invention is a device for measuring temperature, containing oscillators with piezoresonators, a frequency divider, a pulse counter. Using a reference oscillator with a thermostat, whose frequency does not depend on temperature and the fleas form a difference frequency, select the frequency proportional to the measured temperature 2, However, such a device does not provide the required measurement accuracy due to the heat generation of the thermostat into the measured medium, leading to a distortion of temperature. This need is particularly significant when measuring low temperatures in the range of 0.001-10 ° C, earthquake for wells and the ocean floor, as well as humans and used for earthquake prediction and geothermal surveys. The purpose of the invention is to improve the measurement accuracy. This goal is achieved by including a temperature measuring device containing oscillators with pyeorezzo cutters, a frequency divider, a pulse counter, inputting an independent unit and an electronic switch, one of whose inputs is connected to the output of the first autohigh. The second input is connected to the output of the frequency divider, the input of which is connected to the output of the second oscillator, and the output of the electronic key is connected to the input of the calculating unit through a pulse counter, and both piezoresonators are filled with temperature sensors. The drawing shows a block diagram of the yciv device. The circuit contains measured medium 1, temperature sensitive piezoresonators 2 and 3, electronic key 4 included in the circuit of autogenerators, frequency divider 5, pulse count 6, computational (M10K 7. The device works as follows. The autogenerators produce the frequencies described by equations. F . -01 l. 2 ppc - frequencies of the 1st and 2nd av. 1 ;,. Of generators - the initial frequencies of the first and second autogenerators with i 0 are the frequency-frequency coefficients, and К the temperature response of the first and second temperature-sensitive piezoresonators. A second temperature sensitive piezoresonator and a frequency divider with NQ recalculation factor form a measuring time interval T equal to hL, As can be seen from (2), when the time interval is formed by the heat sensitive piezoresonator duration t of the time interval that depends on the measured temperature t. measured by counting the number of pulses N; of the measured frequency over the time interval T (3) Substituting (1) and (2) into (3), we get) m g from where where the values of i, f l 2 o are constant and known from the technical characteristics of piezoresonators and divider frequency, ny is variable to be measured. A thermosensitive piezoresonator 3 and a frequency divider 5 form a measuring time interval during which the number of pulse pulses of the frequency of the first heat sensitive piezoresonator 2 is counted through the electronic key 4 by the pulse counter 6,

3. 10513874

located, as in the second, in the measure - due to the exclusion of the environment. According to the calculated number of the device in the measured medium, the pulses in the electronic computer computation.

in block 7, the measured value of the instrument's e-capacity is increased by a continuous temperature according to formula (4). The strength of his work in autonomous mode, proposed by the device, long-term and heresy, xapaKrepsoiOc allows to measure the solution of the geophysical problems of the forecast.

temperatures with increased accuracy of earthquakes in geothermy.

Ie, which is necessary for in 1. hold

Claims (1)

DEVICE FOR TEMPERATURE MEASUREMENT, / containing auto-generators with piezoresonators, a frequency divider, a pulse counter, differing in that * in order to improve measurement accuracy, a computing unit and an electronic key are inserted into the device, one of the inputs of which is connected * to the output of the first oscillator, and the second to the output of the frequency divider, the input of which is connected to the output of the second oscillator, and the output of the electronic key through the pulse counter is connected to the input of the computing unit, both piezoresonators us _is, heat-sensitive. SS (/) 1 1051387