SU469062A1 - Device for calibrating the temperature ripple sensor in dynamic mode - Google Patents

Description

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The invention relates to a technique of meteorological measurements and is used in the study of the free atmosphere from aircraft.

Apparatus and methods are known for calibrating temperature ripple sensors under laboratory conditions in a static mode.

However, the known devices for calibrating the sensor have low accuracy, since they do not take into account the influence of the amplitude and wavelength of the measured temperature pulsations in the free atmosphere on the reading of the inertial thermometer of the temperature pulsation sensor.

As a result, the amplitude of the measured temperature fluctuations in the free atmosphere is always underestimated.

The purpose of the invention is to improve the accuracy of calibration in flight conditions of the aircraft. To do this, in the proposed device, along with a temperature pulsation sensor, on one frame are additionally placed isolated from each other low-inertia and inertia thermometers connected to an optical recorder via additional DC bridges.

During the flight, in the layer where temperature pulsations are observed, three parameters are recorded on the tape of the optical recorder simultaneously, namely: readings of the temperature pulsation sensor, low-inertia and inertia thermometers. After processing the measured results, measurements are made of a calibration curve for the temperature ripple sensor according to data obtained using a low-inertia and inertia thermometers, taking into account the effect of the amplitude and the wavelength of the temperature pulsations on the inertia reading.

thermometer.

FIG. 1 shows the structure of the device; FIG. 2 is a block diagram of the device.

In the device, inside a streamlined protection 1 with inlet drainage holes 2 for

air ventilating thermometers, a cruciform frame 3 is placed for placing thermometers, a calibrated sensor 4 temperature pulsations, additional low-inertia 5 and inertial 6 thermometers.

The streamlined protection ends in diffuser 7 to create a pressure drop.

The temperature ripple sensor 4 (Fig. 2) is a combination of two thermometers, low inertia and inertial,

8 DC currents included in the bridge circuit by the differential circuit, and two separate thermometers - low-inertia 5 and inertia 6, having resistance and thermal inertia similar to those of the temperature pulsation sensor. Sensor

temperature pulsations, as well as low-inertia and inertial thermometers are included in separate electric bridges 8, 9 and 10 of direct current, the outputs of which are connected to the input of the optical self-oscillator 11.

The device works as follows.

When flying in the zone of temperature pulsations, the temperature pulsation sensor records the difference between the readings of the low-inertia and inertia thermometers. The low-inertia thermometer quickly senses the ambient temperature. An inertial thermometer should give an average ambient temperature, and practically it perceives (slightly) individual temperature pulsations. As a result, a certain error is introduced into the magnitude of the amplitude of the measured pulsations.

Record readings of low-inertia and inertia thermometers in those conditions

but relative to each other, it allows detection of the magnitude of the error at different amplitudes and wavelengths detected by the temperature ripple sensor.

Subject invention

A device for calibrating a temperature pulsation sensor in a dynamic mode, containing an electric DC bridge, to which the pulsation sensor is connected in the form of inertial and low-inertia thermometers, and an optical plane of the air, characterized in that It is equipped with additional inertial and low-inertia thermometers of similar parameters connected via additional DC bridges with the optical recorder.

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