SU1037207A1 - Hydraulic unit number of revolution control - Google Patents

Abstract

HYDRO-AGREGATED SPEED REGULATOR, co-ordinated connected pulse sensor, p & hist and switch and connected in series the first foil A control unit, the second input of which is connected to the output of the second pulse generator, and the second input of the register is connected to the timer output, characterized in that it has two decoders connected to the extension circuit of the controller, the first outputs are switched through the first decoder with the input of the first pulse shaper, and the second outputs through the second decoder - with the input of the second pulse shaper.

Description

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The invention relates to automation, in particular, to the means of sintering the aaoait tvnopogvogvcheskogo mode of operation of the hydro unit,

Most technically, the invention of the invention is the hydraulic unit speed regulator, which after the second has been connected pulsed. the sensor, the register and the switch are connected in series the first pulse shaper and the actuator, the second input of which is connected to the output of the second pulse shaper, and the second input of the register is connected to WE) by the C11 timer. The disadvantage of the known controller is the narrow range of application, since it is impossible Prgmeneniya at low speed.

The chain of the invention is an extension of the field of application of the regulator.

To achieve this goal, two decoders are entered into the controller, the first OUTPUTS of the switch are connected via the first decoder to the input of the first pulse driver, and the second outputs through the second decoder are connected to the input of the second pulse driver.

The drawing shows the device.

The device contains a pulse sensor 1 of the rotation frequency of the hydraulic unit shaft, connected to the input of the register 2, periodically zeroed by the 3 pulses generated by the timer, together with these blocks, forms an encoding

rotation frequency converter. The code outputs of register 2 through switch 4 are connected to the inputs of the first and second decoders, made in the form of connectors B and 6, and the decoder 5 is connected through the first pulse generator 7 of the pulse signal to the input circuit of switch 4, which ensures the activation of the organo-technological automation of the hydraulic unit the decoder 6 through the second driver 8 is connected to the input circuit of this node, which ensures the shutdown of these organs, and the parameters of the driver 7 are chosen from the condition The duration of the impulse generated by it is not less than the response time of the actuator (relay) 9, and the impulse generated by the shaper 8 exceeds the duration of the measuring cycle of the register 2 defined by the period generated by the timer 3 pulses.

The operation of the device is explained with reference to the use in it as an executive body 9 of a double-winding two-pole polarized

relay with trigger characteristic.

. At the time of starting the hydraulic unit, the outputs of the decoders 5 and 6 establish the level of the logical unit, as a result of which the output of the driver 7 also sets the level of logic 1, and the output of the inverting generator 8 will have the level of logic O due to the cheghe from the output of this driver to the relay coil 9, the control circuit of the shut-off of the executive bodies of the process automation of the hydraulic unit I will receive a control current through the contact system of this relay, and the mentioned organs will be shut off. With a subsequent increase in the frequency of revolutions and the achievement of its setpoint value corresponding to the disconnection of the setpoint signal, a logical O signal is generated at the output of the decoder b, as a result of which the current through the winding of the relay 9 stops, but its contacts (not shown) remain off Signal settings. With a further increase in the rotation frequency and the achievement of its setpoint value, the output of the decoder 5 will begin to generate 1Gs of signal O, as a result of which the current through the main winding of relay 9 will flow and its contacts will switch to the on position of the setting signal. When the rotational frequency is reduced to its value less than the setting value, the current through the main winding of the relay 9 stops, but the relay contacts remain in the on position of the setpoint signal, and when it is further lowered to the value corresponding to the setpoint signal deactivation, the output of the decoder 6 will be set logic level I, a current enters the breakaway winding of the second signal conditioner 8 from the second signal conditioner, and the contacts of this relay will again occupy the position corresponding to the disconnection of additional organs of technological auto matiki hydrounit.

Under the conditions of maintaining the technological mode of the hydraulic units, the inputs of the decoder 6 are always connected via switch 4 to the code outputs of register 2 corresponding to a lower rotational frequency value than the rotational speed corresponding to the code outputs of this register connected to the inputs of the generator 11, which in turn ensures the disabling of the setpoint at any lower value of the rotation frequency than the frequency at which the setting signal is activated. In conclusion, we note that in practical circuits it is advisable to block the circuits through which the current enters the winding after turnip 9 triggers. This can be achieved, for example, by grounding one of the inputs of the decoder 5. Or shorting the input of the driver

S using the auxiliary contact system of this relay. Finally, the use of a polarized relay in the command node prevents the change of the position of its contacts during power interruptions, and the timing of the supply of power to its windings with a timer signal prevents the relay from malfunctioning during termination of the inverter coding converter encoding, which is inadmissible during operation in particular , heavy duty gtsdroagregatov.

Claims (1)

HYDRAULIC TURNOVER REGULATOR, comprising sequentially connected pulse sensor, register and switch and serially connected first pulse shaper and actuator, the second input of which is connected to the output of the second pulse shaper, and the second input of the register is connected to the output of the timer, characterized in that, with extension circuit of the scope of the controller, it contains two decoders, the first outputs of the switch are connected through the first decoder to the input of the first pulse shaper, and the second exits through a second decoder - to the input of the second pulse shaper. 1 10371207 ϊ