SU1181059A1 - Device for automatic controlling of electric load - Google Patents

Abstract

A DEVICE FOR AUTOMATIC REGULATION OF ELECTRIC LOAD, containing primary power consumption sensors connected to the information receiving unit, the control input of which is connected to one of the outputs of the control unit, and the first outputs are connected to the unit for determining the possible power,. The control input of which is connected to the control unit, and the outputs are connected to the required adjustable power detection unit, the second inputs of which are connected to the information receiving unit, and the control input is connected to the control unit, the information outputs of the necessary adjustable power detection unit together with the sign bit output connected to the block of the discussion, the output of which is connected to the first inputs of the comparison circuit, the block of selection of control objects containing, respectively, the number of controlled loads M triggers load triggers, the zero setting of which is connected to the control of the output of the control panel, the output of the set power of which is connected with the block for determining the possible power, the output of setting the value of the threshold of sensitivity is connected to the second inputs of the comparison circuit, and the control block contains a timer and synchronization circuit, one of the control outputs of the timer is connected to the input of the synchronization circuit, the outputs of which are intended for operation of the device blocks, characterized in that expanding the area of use and increasing the point (Controls, a load address counter, a settings console, a trigger trigger were entered into the control unit; one of the outputs of the synchronization circuit is connected to the counting input of the load address counter, the setup inputs of which are connected to the statute console, output the transfer of the load address counter is connected to a single setup input of the trigger trigger, the zero setup input of which and the input set to the zero state of the load address counter of the connection To the control output of the control panel, to the block for selection of control objects were introduced the AND schemes and the multiplexer, the inputs of which are connected to the single outputs of load triggers, the single and zero inputs of which are connected to the corresponding outputs of the AND schemes, and the device is equipped with a block of time limits containing a memory device for storing settings for limiting loads.

Description

random access memory for storing off time. loads, a comparison circuit, a time counter, an AND circuit, and the address inputs of both storage devices are connected to the output of the load address counter of the control unit, the on-line memory outputs for storing time, disconnecting loads are connected to the installation inputs of the time counter and to the first inputs of the comparison circuit, to the second inputs of which are connected the outputs of the storage device for storing the installations for limiting the disconnection of loads, the digital inputs and the control input, the recording of which is connected to the control named to the inputs of the control unit settings, respectively, the unit output of the trigger trigger of the control unit is connected to the installation input to.: The state of the time counter whose counting input is connected to the output of the circuit AND, the inverse input of which is connected to the control object, and the second input of the AND circuit and the control input of the input to the time counter - to the corresponding outputs of the synchronization circuit of the control unit of the switch-off power detection unit containing the load decoder, encoder, adder, c And we, SH1I, wherein the decoder inputs Con cheny to the output control unit loads the address counter, and outputs. 59 determining the selected load, are connected to the corresponding inputs of the AND block of the selection object of control and to the inputs of the encoder, the outputs of which are connected to the inputs of the adder, the outputs of which are connected to the inputs of the error block, the first input of the first I circuit and connected to the output of the multiplexer, the block of selection of control objects , the sign output of the error circuit is connected to the second input of the first circuit, Inverse, to the first input of the second circuit, And, third, the inputs of the first, second, and third circuit AND are connected to the corresponding th output control circuit sinhronizatsiidbloka fourth inverted input of the first AND gate and a second input of the third AND circuit connected to the output circuit. comparison of the block of time limits, the fourth inverse of the second circuit AND and the first inverse of the third AND circuit are connected to the multiplexer output of the control object selection block, the second input of the second circuit 1 AND is connected to the output of the comparator block,. the outputs of the second and third control boxes are connected to the inputs of the OR circuit, the output of which and the output of the first circuit of AND are connected to the control inputs of the adder and the second inputs of the corresponding circuits of the control selection block, and the address BXOJ of the multiplexer is connected to the output of the counter of the load of the control unit.

The invention relates to the automation of power management of industrial enterprises at peak power supply system hours and can be used in any industry to limit power consumption at a given level.

The purpose of the invention is to expand the scope of use and improve the accuracy of regulation.

The drawing shows a block diagram of the proposed device.

The device contains a block 1 of the choice of control objects, where the 2.1-2N loads trigger, 3.1-3N, 4.1-4N circuits, multiplexer 5, are input.

The block 6 for determining the disconnected load, where the AND 7 circuit, the load decoder 8, the encoder 9, the sum of Top 10, the OR circuit 11, the AND 12 and 13 circuits, the mismatch block 14, the block

15 determining the required recoverable power, possible power determining unit 16, information receiving unit 17, electric power consumption sensors 18, comparison unit 19, control unit 20, which includes timer 21, triggering circuit 22, trigger trigger 23, load address counter 24 , settings control unit 25, control output 26, synchronization e outputs 27-30, load address output 31, control output 32, setpoint output 33, time limit block 34 where the comparison circuit 35 is included, storage device 36 settings to limit off Cheney loads, AND circuit 37, the time counter 38, resembling onerativnoe unit 39 for storing .nagruzok off time, the remote control 40. The device operates in the following manner. Information on the energy consumption comes from the sensors 18 to the input of the information receiving unit 17. The information receiving unit 17 (IPU) performs a sequential interrogation of the sensors 18, which appears against the background noise. the useful signals, which then, with their own weight, for converting to the named units, arrive at the input of the block 16 for determining the possible load P. At the same time, the block 17 determines the current power Vjg averaged over a selected period of time, for example, 1-5 minutes. The unit 16 for determining the possible power from the information received from unit 17 and the value of the power R. from the control panel 40, makes using the time stamps coming from timer 21, calculating the dose of the possible power Pg that the consumer can use to the end of the controlled a period of time, for example, half an hour, in the hours of maximum load of the power system, do not risk njpehys the specified power limit. The calculation of PW is made according to the formula p - 0.5P. - Egek 6 0.5 - Check where - electricity consumption from the beginning of the controlled half hour to the hours of the maximum load of the power grid trek time, progate from the beginning of the half hour; 0.5-30 minutes of the time interval. The unit 15 for determining the required regulated power P by the signal from timer 21 determines the difference between the values of the current power supplied from block 17 and the possible power supplied by block 16, p - pn B The value of the required regulated power P with its sign to the first inputs of the mismatch unit 14, to the second inputs of which the value of the switched off power of the ROTC is supplied. adder 10 of block 6. Mismatch block 14 is a conventional combinational adder that performs the function of determining the difference AP, A.P P - PO, CL If the difference LR has a positive sign, then it is necessary to disconnect part of the loads involved in the regulation. If the difference is negative, then its absolute value should be compared with the horn. The n value of which is set from the control panel 40, and the comparison itself is performed by the comparison unit 19. If the sign of P is negative and the absolute value of dR) P, then it is possible to turn on the control loads, and if | lR | 6 N o changes in the value of disconnected loads are not made. The value of P is chosen from the condition that the value of the threshold P is greater than any of the load regulators. The control unit 20 controls and synchronizes the operation of the units of the device. It contains a tayner 21i which generates the value of the current time (t), averaging time stamps to determine the current power of block 17 and the possible power Pg in block 16, as well as a time stamp when comparing with P in block 15 while resetting the adder 10 of block 6 ; One of the Timer outputs is connected to the input of the timing circuit 22. The timing circuit 22 is a counter with a decryptor. It provides four synchronization signals 27-30i. The output 3Q of the circuit 22 is connected to the counter input of the load address counter 24.

The counter size 24 is determined by the number of loads involved in the regulation. The frequency received from the timer of signals to the input of the synchronization circuit is selected from the condition that for a selected period of time, for example 20-60 s, it was possible to interrogate all controlled loads from the counter 24 of the address of loads, and each address of the selected load corresponds to a complete set of synchronizing signals from the circuit 22 syncs.

From the setpoint control panel 25, for each load, 36 values of the time intervals for which a given load can be switched off are stored in the memory of the device. At the same time, the address of the selected load is recorded in the counter 24 load addresses.

The trigger 23 serves to reset the memory cells of the memory device 39. With the arrival of the Reset label from the control panel 40, the trigger 23 is set to the zero state, resetting the time counter 38 to zero, the address counter and the synchronization circuit will also be in the initial state . After the termination of the Reset signal, the synchronization circuit 22 and the load address counter 24 start to operate and all 39 pits of cells are zeroed until the overrun signal from the counter 24 triggers the start trigger to one.

The time limit unit 34 contains two memories 36 and 39, the device 36 serves for storing the time settings for limiting the load disconnection, which is entered into it from the control unit 25, the settings, and the device 39 for storing the time of the load disconnection. In operation, simultaneous selection of like cells of both memory devices 36 and 39 is performed, the address of which is determined by the load address counter 24. The contents of the cells of both memory devices are fed to the comparison circuit 35, and at the same time, by the signal 27 of the synchronization circuit 22, the contents of the selected memory cell 39 for storing the load disconnection time are stored in the counter 38 of the time. By the signal 28 from the control unit 20, to the contents of the time counter 38, if the selected load is disconnected, through the circuit 37, the inverse input of which is connected to the output of the multiplexer 5 of unit 1, one is added ..

Signal 29 analyzes the state of the comparison circuit 35 by AND 13 scheme. IF the contents of the selected memory cell 39 are greater than or equal to the contents of the selected memory cell for storing the settings for the cut-off limits for this load, the unit output potential of the comparison circuit 35 is fed to the input of the AND 13 circuit. In this case, if the selected load is disabled, then the inverse input of the AND 13 circuit receives a zero level from the output of the multiplexer. 5 and the signal 29 from the control unit 20, via the OR 11 circuit, sends a signal to the control object selection unit 1 to turn on this load. At the same time, this signal goes to the switchable load definition block 6, so that the power of this load is subtracted from the sum of the turned off loads.

Block 6 for determining load disconnections works as follows.

As it were, the error block 14 subtracts the value of the power already turned off, coming with its sign from the adder 10 of block 6, with its sign from block 15, if the difference LR is positive, then the potential of the output from the sign bit block 14 is fed to the input of the circuit 7, the inverse input of which receives a signal from the comparison circuit 35 of block 34, and the remaining inputs of the circuit 7 is the clock signal 30 from the control block 26 and a signal from the output of multiplexer 5 of block 1. In this case, if the comparison circuit 35 has at its output a zero level corresponding to the fact that the total disconnection time of a given load is less than permissible, and the signal of multiplexer 5 has a single level corresponding to the fact that this load at the time of its interrogation by control unit 26 is on, then via signal 30 from the output of the circuit, And 7 makes it turn off and the sum of the power of the given load is added to summagor 10. If the difference in AR is negative, i.e. Since the load power is greater than necessary, the comparison unit 19 compares the LR with the sensitivity threshold P set from the control panel. The threshold of sensitivity P is set in order to avoid fluctuations in disconnecting and switching on the loads. If p R, then in this case it is possible to switch on previously disconnected loads. This is done through the AND circuit, which receives a single signal, that AP P, the zero level of the sign from the error block 14 and the signal from the multiplexer output 5. If the multiplexer output is zero, then this means that this load is disconnected, and, since AR P, it must be turned on. This is produced by the signal from the output of circuit 12, which, through the circuit 11, produces its switching on and simultaneously subtracts from the adder 10 the value of the power of the given load.

When the control unit 20 selects this load, then its address 31c of the control unit 20 is fed to the input of the decoder 8 and to the input of the multiplexer 5. The outputs of the decoder 8 are connected to the inputs of the encoder 9,

which each selected load determines its power value, which is fed to the inputs of the adder 10, and multiplexer 5 produces a signal that characterizes the state of the load, i.e. is it on or not

Unit 1 of the selection of objects for regulation works as follows.

Each load is assigned a load trigger 2, the installation inputs of the trigger are controlled by the AND 3 and 4 circuits.

JIo to address 31 from control block 20, decoder 8 of block 6 selects the corresponding circuits H 3 and 4 of the address load, and multiplexer 5 connects the output of the unit arm of the addressable load to the control inputs of the time limit block 34 and block 6 for determining the load to be disconnected. As previously stated, the response of these blocks will be the appearance at the inputs of the And 3 and 4 circuits of the signals to disconnect (the output of the And 4 circuits) and turn on (the output of the circuits 3) selected load.

The control panel allows you to call up the current time AR value on the display, start the entire device, as well as set the required sensitivity and power threshold settings.

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Claims (1)

DEVICE FOR AUTOMATIC REGULATION OF ELECTRIC LOAD, containing primary power consumption sensors connected to the information receiving unit, the control input of which is connected to one of the outputs of the control unit, and the first outputs are connected to the possible power determination unit,. the control input of which is connected to the control unit, and the outputs are connected to the unit for determining the required adjustable power, the second inputs of which are connected to the information receiving unit, and the control input is connected to the control unit, the information outputs of the unit for determining the necessary adjustable power are connected to the sign output mismatch, the output of which is connected to the first inputs of the comparison circuit, the block selection of objects of regulation containing, respectively, the number of controlled loads M load triggers, the zeroing of which is connected to the control output of the control panel, the output of setting the value of the declared power of which is connected to the unit for determining the possible power, the output of setting the threshold of sensitivity is connected to the second inputs of the comparison circuit, and the control unit contains a timer and a synchronization circuit, one from the control outputs of the timer is connected to the input of the synchronization circuit, the outputs of which are designed to operate units of the device, characterized in that, in order to expand the region - jg to use and improve the accuracy of regulation, a load address counter, a setting control panel, a start trigger are entered into the control unit, and one of the outputs of the synchronization circuit is connected to the counting input of the load address counter, the installation inputs of which are connected to the charter setting panel, the counter transfer output the load address is connected to a single installation input of the start trigger, the zero installation input of which and the installation input to the zero state of the counter of the load address are connected to the control output at the control panel, the And circuit and a multiplexer are introduced into the control unit selection block, the inputs of which are connected to the unit outputs of the load triggers, the unit and zero inputs of which are connected to the respective outputs of the And circuit, while the device is equipped with a time limit unit containing a memory for storing the settings to limit loads, random access memory for storing shutdown time. loads, comparison circuit, time counter, circuit And, wherein the address inputs of both memory devices are connected to the output of the load address counter of the control unit, the outputs of random access memory for storing time, disconnecting loads are connected to the setting inputs of the time counter and to the 'first inputs of the comparison circuit, to the second inputs of which the outputs of the storage device for storing the settings for limiting the disconnection of loads are connected, the digital inputs and the control input of which is connected to the control m to the inputs of the control panel for setting the settings, respectively, the single output of the start trigger of the control unit is connected to the zero input of the time counter, the counting input of which is connected to the output of circuit I, the inverse input of which is connected to the output of the multiplexer of the control unit selection unit, and the second input of circuit I and the control input of entry into the time counter - to the corresponding outputs of the synchronization circuit of the control unit, the unit for determining the disconnectable power, containing the load decoder, encoder, adder, circuit AND, -OR, and the inputs of the decoder are connected to the output of the counter of the address of the loads of the control unit, and the outputs, 1181.059 'that determine the selected load, are connected to the corresponding inputs of the circuit AND of the block for selecting control objects and to the inputs of the encoder, the outputs of which are connected to the inputs of the adder, the outputs of which are connected to the inputs of the mismatch unit, the first input of the first circuit AND is connected to the output of the multiplexer, block of the object selection regulation, the sign output of the mismatch circuit is connected to the second input of the first circuit And and to the inverse first input of the second circuit And, the third, the inputs of the first, second and third circuits And are connected to the corresponding he output synchronization scheme · ,, the control unit, the fourth inverted input of the first AND gate and a second input of the third AND circuit connected to the output circuit. comparing the block of time limits, the fourth inverse input of the second circuit AND and the first inverse input of the third circuit And are connected to the output of the multiplexer of the block for selecting control objects,. the second input is the second circuit And is connected to the output of the comparison unit. the outputs of the second and third circuits AND are connected to the inputs of the OR circuit, the output of which and the output of the first circuit AND are connected to the control inputs of the adder and to the second inputs of the corresponding circuits AND block of the selection of objects of regulation, and the address bxoj of the multiplexer is connected to the output of the load address counter of the control unit.