CS230882B1 - Connections for continuous measurement of electrical power - Google Patents

Abstract

The connection is intended for operational regulation of consumption in the range of energy peaks, which are recorded by a totalizing electricity meter, or by a Scriptomax device. The output of the totalizing electricity meter is connected to the input of the delayer via a second flip-flop and a second counter, and the third flip-flop is connected to the memory in series with the converter to the digital display. The delayer is connected to the first Counter.

Description

(54) Wiring for continuous measurement of electrical power

The connection is designed for operative regulation of consumption in the peak energy band, which are recorded by the total electricity meter, resp. Scriptomax. The total meter output is via a second flip-flop and a second counter connected to the delay input and a third flip-flop connected to the memory in series with the converter to the digital display. The delay is connected to the first counter.

The invention relates to wiring for continuous measurement of electrical power consumption and for operative control of power consumption in the power peak range of large industrial aggregates and solves the problem of adhering to regulatory stages without disturbing or crashing the aggregates.

For continuous monitoring of the power consumption of aggregates connected from high-voltage transformer stations is prescribed and either a MW-meter or an instrument is used, which writes, resp. prints the collection status once every half hour. On large aggregates, such as weakening and hot broadband sheet rolling plants, this demand fluctuation is significant, ranging between 40 and 110 MW over a given period of time. It is not possible to notice a gradual change in consumption during the monitored half-hour. Thus, the assigned value of hourly input is not exhausted and thus the production process is unnecessarily reduced, or it is exceeded and penelized without the possibility of operatively regulating these quantities because their values are not known for half an hour. Said device will eject, respectively. it also continuously shows only the sum value of consumption, whereas one impulse of the calculation arises only after consumption of 100 kWh, visual reading is inaccurate and mainly it is not possible to determine the average value of consumption in a shorter period.

SUMMARY OF THE INVENTION It was an object of the invention to solve the average values over a shorter collection period, preferably in one tenth of an hour, so that the operator can quickly determine the hourly average in each part of the reference period. Another task is not to disrupt the system of flooding prescribed sampling of the Scriptomax instrument.

The problem is solved and the problem is solved by the connection according to the invention, which consists in that the output of the total energy meter is connected through a first monostable flip-flop to a first pulse burst counter, the output of which is connected to memory and binary code to digital display. wherein the electro-time output is connected simultaneously to the delay input via the second monostable flip-flop and the second pulse count counter and the third monostable flip-flop is connected to the memory while the delay is connected to the first pulse count counter.

The transmit signal from the electro-time pulse counter for recording the value on the digital display is selected at every tenth of an hour as the base and to represent a tenth of an hour of consumption. When selecting this signal every 3 resp. 1 minute, ie. in 1/20 resp. In 1/60 hours, the value multiplier is connected to the range of the average value per 1/10, ie. multiple of 2 resp. 6th

Advantages of the invention are mainly in that it is possible to monitor the state of instantaneous electricity consumption in a maximum of 6 minutes but also a shorter period, the value of which always expresses a decimal value, from which hourly consumption can be judged without conversion. process of production units, optimal utilization of input without loss in production.

An exemplary embodiment of the wiring according to the invention is shown in the attached drawing with a schematic representation of the wiring parts.

The output 10 from the total energy meter is connected via a first monostable circuit 31 to a first pulse count counter 32, the output of which is connected via a memory 33 via a binary code multiplier converter 34 to a digital display 35. 36 and via a delay 37 and is connected to the input of the first pulse count counter 32. At the same time, the electro-time output 40 is connected to the first pulse count counter 32 via the second monostable flip-flop 41 and the second electro-time pulse counter 42.

The pulses from the cumulative electricity meter with output 10 are recorded for a period of six minutes on the first pulse count counter 32, the amount of which is applied to the memory 33 based on the transmission pulse from the electro-time output 40 according to the set decimal time of six minutes. The status of the readings is thus displayed once on the digital display 35 and remains there for a further reading period. The same transmit pulse is delayed in the delay time 37 and at the same time resets the first count pulse count counter 32 to which the read-off values are again recorded.

The invention is applicable to all measuring devices for recording electrical or other quantities.

Claims (1)

SUBJECT Circuit for continuous measurement of electrical power consumption and for operative control of power consumption in the peak power range captured in the total energy meter, characterized in that the total energy meter output (10) is connected to a first pulse count counter (32) via a first monostable flip-flop the output is connected to a memory (33) and further via a binary code converter (34) to a digital display (35), the electro-time output (40) being connected simultaneously to an input via a second monostable flip-flop (41 and a second pulse counter) a delayer (37) and a third monostable flip-flop (36) connected to the memory (33) while the delayer (37) is connected to the first pulse count counter (32).