SU853558A1 - Device for registering consumption of electric energy - Google Patents

Description

(54) DEVICE FOR ACCOUNTING ELECTRIC POWER CONSUMPTION

Claims (2)

The invention relates to devices for metering the energy consumed by the enterprises and can be used to measure the combined load of a group of inputs from the power system. A device is known comprising a power consumption sensor, an information receiving unit, a memory block, a current load counter, a recorder, a control unit, and a distribution circuit. It is also known a device comprising an information receiving unit, a signal encoder, a combination adder, a control unit, a half-hourly load setting unit, a printing and display unit, a result register, design registers for distribution circuits. A disadvantage of the known devices lies in the fact that for their practical realization the large costs of equipment with a large number of controlled inputs. The closest in technical essence is a device containing electric meters with built-in pulse sensors, the outputs of which are connected to the first inputs of the trigger, the output valves, the first inputs of which are connected to the outputs of the pulse generators, the output element OR, the inputs which is connected to the outputs of the input valves, and the output through the summing counter is connected with the display unit. Its disadvantage is that the device is difficult with a large number of controlled inputs, since its implementation requires a separate generator and a separate pulse counter for each congroller) abrupt input, which reduces the reliability of its operation. The purpose of the present invention is to -. with increased reliability of the device. The goal is achieved by the fact that, in a device for metering electricity consumption, containing N electric power meters with integrated pulse sensors, the koTop outputs are connected to the first inputs of N triggers, L groups of input channels, L output gates, the first inputs of which are connected to the outputs the pulse generator, and the outputs - with the inputs of the corresponding pulse counters from L, the output element OR, the inputs of which are connected to the outputs of the output valves, and the output through the summing counter - with the display unit, are entered (L + 1) of the OR elements, the polling pulse driver, 4 polling valves and N reset valves, each input channel group has a second input of the i-th trigger connected to the output of the i -th reset valve, and the 1st trigger switch is connected to the first input of the 1st polling valve , the first inputs of all the relief valves are connected to the code of the pulse counter by the aego. Groups of input channels, and the second input of each 1st reset valve and the second input of each 1st valve of the poll are connected to the 1st output of the pulse forcing pulse, all the valves survey are connected to the input The OR element, and the OR element outputs of all input channel groups are connected to the inputs (L +1) of the OR element, the output is connected to the first input of the polling pulse generator, the second input is connected to the output of the pulse generator. The drawing shows the block diagram devices. The device contains L groups of input channels. Total channels N. A group of channels is formed by channels with the same price of information pulses. The device contains in each group of input channels triggers 1, the first inputs of which are connected to the outputs of sensors 2 and pulses of electricity meters. The outputs of the trigger 1 are connected to the first inputs of the valves 3 poll, and the second inputs of the trigger 1 are connected to the outputs of the valves 4 reset. The outputs of the valves 3 in one group of input channels are connected to the inputs of elements 5 OR, the outputs of elements 5 OR of all channels are connected to the inputs of the (U + 1) -th element 6 OR and to the first inputs of the output valves 7, the outputs connected to the inputs of the corresponding counters 8 The second inputs of the output valves 7 are connected to the output of the generator 9 pulses connected also to the first input of the forcing device 1O of the polling pulses, the i-th input of which is connected to the second inputs of the -i-veins 84 til 3 polling and the -th valve 4 of the reset. The first inputs of all valves 4 reset in each group are connected to the output of the counter 8 of this group. The outputs of the outlets of the valves 7 are connected to the inputs of the output element 11 OR, the output of which is connected to the input of a summing counter 12 connected by outputs with the display unit 13. The device works as follows. Accounting for power consumption by a group of inputs from the power system is based on the principle of sequential summation of prices (in kilowatt-hours) of pulses asynchronously coming from any type of electricity consumption sensors. In the initial state until the arrival of information pulses from sensors 2, all the triggers 1 are in the zero state, which prevents the passage of interrogation pulses to the valves 7. The counting pulses from the generator 9 to the counters 8 and 12 do not pass. Single state i trigger 1, in which it is set by a pulse from the 1st sensor 2, opens the i-th gate 3 of the poll, and the next pulse of the poll arriving at its control input from the i-th output of the interrogation pulse generator Yu passes through the element 5 OR of this channel and element b OR n upravl5poschy input shaper 10, keeping it in a state in which the i -th unit output has a level, and the remaining N -1 outputs - zero. At the same time, the unit level at the output of element 5 OR opens the corresponding valve 7, the counting pulses arrive at the counter 8 of this channel and through element 11 - at the summing counter 12. The state of the driver 1O changes only After the counter 8 passes a certain number of counters pulses equal to the price of information pulses, sensors 2, included in this group. In this case, the counting signal is fed to the second input of the reset valve 4 and returns the trigger 1 to the initial state, preparing it for receiving the next information pulse from the h -th sensor 2. The polling gate 3 is driven, the control signal from the pin of the element OR 6 is removed, and the driver U is impulsed from the generator 9 to a new state, in which the (-) +1) output of the generator 10 is in one state. 58 If the {i + 1) -th grigger 1 is ego time also in a single state, the process is repeated as previously described with the same or with another element OR 5 (depending on whether the prices of the i-th and (i inputs) and with the {i +1) -th pair of gates 3 and 4. If (i +1) -th grigger 1 is in the nupev condition and then shaper 10 goes to the (i + 2) -th state, and so on. Thus, summing counter 12 for one polling cycle passes a strictly defined number of pulses equal to the sum of prices of information pulses read from input triggers 1. This device does not introduce additional errors in measuring the combined load on the group of inputs from the ensemble, if the frequency of traces f (- from generator 9 satisfies the condition - - T- -s e-- -Inf-glax - counting factor K, ka 8 groups; the number of inputs with the price of the information pulse from sensor 2 equal to K-, combined with an OR 5; the maximum possible frequency of information on the arrival of information pulses from sensors 2, the described device contains one generator and one impulse generator, while in a known device each controlled input requires a separate counting pulse generator, In the case where the prices are information impulses of sensors installed at different inputs from the power supply; eg, the same system as you, the proposed device. 8 less, the number of pulse counters 8 (L N), than the known, which is also. reduces hardware costs and increases the reliability of the device in operation. The invention includes a device for metering energy consumption, containing N electric meters with built-in pulse sensors, the outputs of which are connected to the first inputs of the N flip-flops forming the C groups of input channels, L output gates whose first inputs are connected to the outputs of the pulse generator, and the outputs to the inputs of the corresponding L pulse counters, the output element OR, whose inputs are connected to the outputs of the output gates, and the output, through a summing counter, with the display unit, characterized in that Use of reliability introduced into it (L +1) OR elements, polling pulse driver, N polling valves and N reset valves, and in each group of input channels, the 1st trigger of the 1st trigger is connected to the outputs of the ith dump valve, output 1 - the first trigger is connected to the first input of the first interrogation valve, the first inputs of all reset valves / are connected to the output of the pulse counter of this group of input channels, and the second input of each i-th spheres valve and the second input of each i interrogation valves are connected to the -th output of the forms {polling pulse shifter, outputs to All interrogation valves are connected to the inputs of the OR element, and the outputs of the OR elements of all groups of input channels are connected to the inputs (L + 1) of the OR element, the output is connected to the first input of the interrogation pulse generator, the second input of which is connected to the output of the pulse generator. ten ..L / 7