SU133350A1 - Airborne icing alarm - Google Patents

Description

The known icing detectors with a blocking of the power relay by electroconductivity completely remove ice from the sensor surface at a temperature of about 150-200 °, which causes the thermocouple to rapidly deteriorate, the contacts of the plates deposited on the ceramic sensor are degraded, and, due to the duration of the operating cycle, they increase power consumption.

The detector, made according to the invention, does not have these disadvantages.

The essence of the invention is that the method of blocking the power relay during the removal of ice from the surface of the sensor is changed. In the circuit, instead of the interlocking circuit, the electrical conductivity of the circuit is interlocked by temperature by switching on additional resistance, which during ice discharge from the sensor surface through the contacts of the power relay is connected in parallel to the variable resistance, which is the arm of the bridge circuit. The additional resistance, bypassing the indicated bridge bridge, upsets the balance of the bridge and moves the tuning point of the bridge circuit towards the specified positive temperatures. This ensures reliable operation of the thermistor and sensor, as well as eliminates the work cycle.

The drawing shows an electrical diagram of the icing detector.

Sensor 1 of the device consists of an electrical conductivity sensor, made in the form of two concentric cylinders 2 and 5 electrically isolated from each other with a spiral heating 4, and a temperature sensor, which is a thermistor 5 with a negative resistance coefficient.

The sensor} is connected to the tracking unit 6 so that the external cylinder 2 is supplied with a voltage of 27 b from the control panel 7, and the polarized fo is connected to the intrinsic cylinder 5 using contacts 8 and 9 connected to a variable resistance bridge 133350 - 2 -

// and a thermistor 5, the control grid 12 of the thyratron 13. The thyratron 13, working in conjunction with the resistance of the power relay 14 and the capacitor 15 in the relaxation generator mode, interacts through the contacts 16 and 17 of the power relay 14 and the additional blocking resistance 18 with the spiral heater 4 and the warning light 19.

When sensor icing occurs / the contacts of cylinders 2 and 3 of the conductivity sensor are closed and pin 8 is under positive potential.

At positive temperatures on the electrical conductivity sensor, the ratio of currents in the winding of the relay 10 is such that contacts 8 and 20 are closed. This eliminates the possibility of the device triggering when flying in rain and clouds, when water droplets can close the contacts of cylinders 2 and 5 and feed the control grid 12 positive potential.

At temperatures on the sensor below 0 ° C, the resistance of thermistor 5 increases, which changes the ratio of currents in the winding of relay 10 and closes the contacts S and 9. The control grid 12 of the thyratron 13 is connected to the sensor of electrical conductivity and during icing of the latter, a positive potential, unlocks the thyratron 13. The power relay 14 trips, the contacts 16 and 17 are closed, and the voltage is applied to the spiral heater 4 of the electrical conductivity sensor and to the signal light 19. The operation of the thyratron 13 in the relaxation generator mode locking the torus provides thyratron upon release of a positive potential to grid 12.

In order to trigger the device immediately after removing the layer of ice from the sensor, rather than after complete evaporation of moisture, a contact 10 relay is blocked, which is achieved by connecting the contacts 17 parallel to the bridge arm with a variable resistance 11 additional shunt resistance 18. The value of the resistance 18 is adjusted when adjusting device at any given positive temperature.

Due to the use of blocking, the balance point of the bridge is shifted to a predetermined positive shutdown temperature of the device, when the relay 10 contacts open, the thyratron 13 goes out and the sensor surface heating stops, i.e. it will cool.

In the switching circuit, an arcing circuit is provided in the device circuit including a resistance 21 and a capacitance 22.

Subject invention

Airborne icing alarm on aut. St. No. 102726, characterized in that, in order to increase reliability and reduce power consumption by changing the circuit blocking, the latter is provided with additional resistance, which, when the axial ice layer is discharged from the sensor surface by means of a power relay, is connected parallel to the variable resistance.

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