SU775700A1 - Wind direction measuring device - Google Patents

Description

one

This invention relates to the field of meteorological instrument making.

Devices for measuring wind direction are known, in which tasks such as damping a deviating wind receiver C, reducing the inertia of sensor 2, reducing the size of the h are known.

However, they did not address the question of the possibility of errors emerging when changing the direction of more than 180 P from the initial value of the discontinuity of the conversion characteristic at point 360

In the known device for measuring the average wind direction, the elimination of such errors is carried out by the fact that the outputs of the reference and reading circuits created by a series of pulses are connected to the inputs of the measuring circuit via 3: 1 frequency divider, while the frequency dividers are additionally connected with outputs of the device for automatic phase correction of frequency dividers {4. Cr:) In addition, the automatic correction device is implemented in the form of a phase decoder, dividers and a mismatch decoder. The inputs of the phase decoder are connected to the output of the frequency dividers. The memory inputs are connected to the phase decoder via AND circuits, the other inputs of the AND circuit are connected to the misalignment decoder outputs, and the mismatch decoder inputs are connected to the outputs of the memory circuit and the fuzzy decoder outputs

The described device is very difficult in the circuit solution, which significantly reduces its reliability.

15

The purpose of the invention is to increase the reliability and simplify the device.

The task is achieved by the fact that three photorelays, a slotted disk rigidly fixed to

Claims (4)

20 of the same axis with the sensor, the base photo relay placed on the border of O and ZbO, and the other two - on both sides of the base in the area of O and 360. The first input of the sixth And circuit is connected to the output of the base photo relay, the second input - with the output of the converter phase shift in the time interval, and the output - from the input of the slave device, the second output of which is connected to the installation Triggers. The first input of the fifth circuit AND is connected to the output of the second photorelay, the second input to the output of the phase shift converter in the time interval, and the output to the control input of the second trigger, the output of which is connected to the second input of the second correction scheme AND input. The first input of the fourth circuit AND is connected to the output of the third photocell, the second input is connected to the phase shift converter in the time interval, and the output is connected to the upstream input of the first trigger. The input of the controlled modulated impulse generator is connected to the output of the phase shift converter in a time interval. The drawing shows a diagram of a device for measuring wind direction. The device contains a contactless sensor 1 and a measuring circuit consisting of a transducer 2 phase: first shift in the time interval, control, automatic generator 3 modulated pulses, first 4 and second 5 corrections input, time setting device 6, first trigger 7 the input parameter of the measured parameter, the second trigger 9, the circuit OR 10, the integrator 11, the triple photorelay 12, 13, 14, a disk with a slot fixed on the same axis with the sensor, the basic photorelay 14 placed on Granin O and 360, and the other two are 12 and 13 - on both sides of the base in area O and 36O, the fourth 15, para 1 and sixth 17 schemes And control of the introduction of amendments. At the same time, sensor 1 is connected with converter 2, the output is connected to the input of controlled generator 3, to one of the inputs of circuits 8, 15, 16, 17. The outputs of photo relay 12, 13, 14 are connected respectively to other inputs of circuits 15, 16, 17, the outputs of which are also connected respectively to the first inputs of the flip-flops 7, 9 and the time to the driver 6. Next, one output is connected to another input of the AND 8 circuit, and the other to the second inputs of the triggers 7 and 9. Tripper turns respectively connected to one of the inputs with the IC 4 and 5, g "perltor 3 with its iiopBi.iM output is connected to To the other free input of the CX we are 4, and the second to the free axcvi AND 5 circuits. The outputs of the AND 4, 5 and 8 circuits are first OR 10 circuits connected to the integrated chorus 11. The device works as follows. Transducer 2 generates pulses, the duration of which is nponoj) rational of the angle of rotation of sensor 1, which corresponds to the position y of the first flyugark, freely orienting in the direction of the wind flow. These pulses arrive at the inputs of the And 8, 15, 16, 17 circuits and start a generator of 3 modulated pulses, producing on the first and second outputs impulses: sy, the duration of which corresponds to the position of the Oglugka O and 360. In a case where the position of the Flugarki is different from O ZbO time I set the device 6 at the first output generates a signal that opens another input of the circuit AND 8, and then the information coming from the converter 2 to the input of this circuit AND passes through the circuit OR 10 to the integrator 11, If the flark is oriented in the direction In the case of the transition of O and ZbO through the slot in the disk, the basic photo relay 14 and one of the adjacent photo relay 12 or 13 (respectively O or ZbS) are illuminated simultaneously. In a situation where the photo relay 14 of the basic and 12 (O) are simultaneously triggered by the first input of the AND 15 and 17 circuits. When the pulse from the converter 2 arrives at the second inputs of the AND 15, 17 circuits, the last trigger and start the time-setting device 6, trigger 7 The output of the trigger 7 opens the AND 4 circuit, which through the OR 10 circuit to the integrator 11 transmits pulses from the generator 3, the duration of which corresponds to the position of the flyugark O. Simultaneously from the first output, the time of the master device 6 receives an integration time pulse locking c mu and 8, and the second output - short impul1zs for finality} P1i 1Shtegrirovani pulse Korotk1 th pulse BOGBpauiaeT trigger 7 to its original state. The process repeats cHon; i if the situation is not a change (ts. .AHii; iorii4H (the operation will work when the Ozonos is working) (jx-Tot -; - 1-1 ° and f (-) torol 13 (ZSO). 57 Formula The invention is a device for measuring wind direction, comprising a contactless sensor and a measuring circuit consisting of a phase shift converter in a time interval, first and second schemes And entering corrections, a controlled modulated pulse generator, the first and second outputs of which are connected to the first inputs of the first and second schemes And input of amendments, And input of the parameter being measured, the first input of which is connected to the output of the phase shift converter in intermixed IGerval, the OR circuit and the integrator, where the outputs of the AND corrections input circuit and the measured parameter are OR connected to the integrator, the time of the driver, the first output of which is connected to the second the input of the AND parameter of the measured parameter, the first and second triggers, and the output of the first trigger is connected to the second input of the first AND AND corrections input circuit and the fourth, fifth and sixth AND schemes, characterized in that Use of reliability and simplification of the device, three photoelectric switches were inserted, a disk c rigidly mounted on the same axis as the sensor, the base photoelectric switch placed on the O and 36O border, and the other two but both sides of the base in the O and 36O region, with the first input And the main circuit is connected to the output of the basal photorelay, the second input is from the iv .. phase shift converter in the time interval, and the output is connected to the input of the time of the driver, the second output of which is connected to the set inputs of the triggers And connected to the output of the second f the second input - with the output of the phase shift transducer in the time interval, and the output - with the control input of the second trigger, the output of which is connected to the Second Input of the Second scheme And the introduction of corrections, the first input of the fourth scheme And the first connection with the third photorelay, the second the input is with a phase shift converter in the time B1 interval, and the output is with the control input of the first trigger, and the input of the controlled generator modulated nsfpool1 is connected to the output of the phase shift converter in the time interval. Sources of information, rintye taken into account in the examination 1. The author's certificate of the USSR 34667O, cl. GOI P 5 / OO, 197O. 2. The author's certificate of the USSR nd 3G5649, cl. QO1 P 5/08, 1971. 3. Authors certificate of the USSR 9 369495, cl.5O1 P 5/04, 1971. 4. USSR author's certificate 421932, cl.5O1 P 5 / O8, 1974 prototype).