SU732686A1 - Device for measuring thermal inertia index of thermal sensor - Google Patents

Description

(54) DEVICE FOR MEASURING THE HEAT INDICATOR

one

The invention relates to the field of thermometry and can be used in measuring the rate of thermal inertia of industrial thermal sensors operating on a measurement object under specific heat exchange conditions.

A device E) 1H of measuring the thermal inertia indicator of a thermal sensor is known, comprising a switch, a signal switch and a 1-type oscilloscope 1.

However, the known device does not provide a measurement of the thermal inertia index of the thermal sensor with the required accuracy.

The closest in technical essence to the invention is a device for measuring the thermal inertia index of a thermal sensor, comprising a type of operation switch, one output of which is connected to a heating source, and an operational amplifier connected to the input switch is connected to the other via a signal switch and one of two-pole switches. loop oscilloscope, and the counting pulse generator, a key, a counter and a block of the “FIRED INERTIA THERMAL SENSOR”

time is connected in series, and the trigger output is connected to the key input and the input of the control unit, one of the outputs of which is connected to the control inputs of the bipolar switches 2,

This device does not provide the required measurement accuracy when determining the thermal inertia indicator of the thermal sensor when operating at the measurement object under actual heat exchange conditions.

ten

The aim of the invention is to improve the measurement accuracy.

In order to achieve the goal, a storage unit with a reset key and a light-emitting diode switched on at the trigger input and connected by an optical link with an oscilloscope oscilloscope are inserted into the device; and the storage unit is included in the cutting between the type of operation switch and the operational amplifier, the control inputs of the signal switch

20 are connected to another output of the control unit.

Claims (2)

The invention is illustrated in the drawing, where 1 is a switch of the type of operation, 2 is a heating indicator, 3 is an operational amplifier, 4 is a loop-type oscilloscope, 5 is a trigger, 6 is a key, 7 is a counting pulse generator, 8 is a count, 9 is a digital reading unit, 10 - control unit, 11 and 12 - bipolar switches, 13 - LED, 14 - storage unit, 15 - reset key, 16 signal switch. The device works as follows. To the entrance; connects the temperature sensor under investigation, which is installed directly on the object and is in an environment with a certain temperature in conditions of real heat exchange. The type of operation switch is in the Measurement (I) position, and the bipolar switches 11 and 12 are in position a, the input signal arrives only in the memory unit 14 for a time equal to the integrator time constant, and is fixed in it. Then the switch 1 kind of work is translated into several positions about seconds. Negrev. (H) The temperature sensor is connected to the heating source, and - it is heated to a certain temperature above the temperature of the medium in which the temperature sensor is located. Switch 1 returns to the position AND, and the signal switch connects the signal of the thermal sensor to the inverting input of the operational amplifier, and the signal that was previously recorded in the memory device is connected to the non-intimating device. As a result, at the output of the operational amplifier, we have an amplified voltage of the thermal sensor under study, varying according to the law of the falling exponent with a constant time equal to the thermal inertia indicator, the sensor, where E is the steady-state value of the output signal of the thermal sensor corresponding to the initial-t output K (Etah -Eo) at ambient temperature; G is the time constant, equal to the thermal inertia index of the sensor; EGPZH is the initial value of the exponentially damped voltage; To - is the amplification factor of the amplifier. At time ti, when the beam from the arrays of the oscilloscope hits the LED, a trigger 5 is triggered, which switches the key 6 to a closed state, and pulses are received at the counter input from the generator of counting pulses. At the same time, the control unit switches the bipolar 4 switches 11 and 12 to position b, increasing the gain of the operational amplifier n times, along the direct and inverting inputs, time t2, when the beam from the oscilloscope loop re-enters the LED, the trigger 5 is triggered, and the key 6 stops the supply of pulses from the generator of counting pulses to the counter, and the bipolar switches are reset to the initial state, setting the same gain of the operational amplifier. The time interval At between the two instants of triggering of the trigger 5 is related to the measured value At-Cfnn. Result: the measurement is recorded in block 9 and displayed on a digital display. The invention The device for measuring the thermal inertia index of a thermal sensor, containing a type of work switch, to one output of which a heating source is connected and to another through an signal switch and one of two-pole switches an operational amplifier connected to the input of a pshaf oscilloscope, and a counting impuls generator, the key, the counter and the digital readout unit are connected in series, and the trigger output is connected to the key input and control unit, one of the outputs of which is connected The control inputs of the bipolar switches, characterized in that, in order to improve the measurement accuracy, are inserted into the device a storage unit with a reset key and a light-emitting diode switched on at the input of the trigger and connected optically to the stub loop scatter in the slot between the switch of the type of operation and the operational amplifier, and the control inputs of the signal switch are connected to another output of the control unit. Sources of information taken into account during the examination 1. USSR author's certificate N 351096, cl. G 01 K 15/00, 1970. 2. USSR author's certificate No. 300783, cl. Q 01 K 15/00, 1969 - a prototype.