RU2790926C1 - Device for measuring semi-fixed power consumption (sfpc) and fixed power consumption (fpc) in production - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: to measure semi-fixed power consumption (SFPC) and fixed power consumption (FPC), sensors are installed on the measuring pulse outputs of the meters, with the help of which the amount of active electricity is recorded in a pulsed form for a certain required period of time (cycle). Each pulse sensor is connected to a time synchronization unit designed to synchronize all electrical energy measurements. The outputs of pulse sensors are connected in series to the input of the adder, designed to sum up all the data on the power consumption of production. The output of the adder is connected to the first input of the multi-pass indicating and recording device. The output of the recording device is connected to the negative input of the comparison unit, designed to determine the presence or absence of production. A mode setting block is connected to the positive input of the comparison block, designed to set conditionally fixed consumption. The output of the comparison unit is connected to a comparator designed to determine the current production mode. The comparator output is connected to the logic block.

EFFECT: possibility to measure and account for SFPC and FPC in real time.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering, in particular to electrical measuring equipment, and can be used as a device for measuring conditionally constant and conditionally variable electricity consumption in production.

It is known that electricity costs are divided into conditionally variable costs (CVR) - the cost of electricity for the implementation of basic technological operations and conditionally fixed costs (FCC) - the cost of electricity for auxiliary needs that do not depend on changes in the volume of production; for example, energy consumption for lighting, driving ventilation devices, heating, air conditioning. The variable part of electricity consumption is usually determined on an aggregate basis based on the operating time of the equipment or according to consolidated standards, and the constant part is determined on the basis of lighting standards, space heating, etc.

The division of electricity consumption into the above parts is also necessary for accounting, where the concepts of UPR and UPR exist, but the calculation methods and the results obtained are quite approximate.

Electricity metering devices are known, where the electric meter measures the active energy of AC and DC power consumers.

Known is an electronic meter for measuring the active power of a three-phase network, implemented on the basis of digital technology, then an electronic meter containing current and voltage sensors, a multiplication device, an analog signal converter into a discrete, programmable microcontroller, a memory element, a display, a block of additional service functions (see. A. Abramov, I. Mateychuk, D. Panfilov, M. Plavich What is behind digital electricity meters [Electronic resource] Access mode: http://www.chipnews.ru/html.cgi/arhiv/00_08/stat_18 htm.

A disadvantage of the known meter is the inability to measure the components of the consumed electricity, namely conditionally fixed and conditionally variable costs due to the limited capabilities of the microcontroller (including a small amount of memory), as well as the lack of inputs for connecting several electricity meters from the power supply system.

A well-known electricity metering system (SUE), containing an information-measuring complex (IMC), which provides the measurement of physical quantities and their conversion into information signals and includes current and voltage transformers, secondary circuits, electricity meters, as well as an information-computing complex of an energy facility (IVKE) , which provides data collection from the IIC level, partial storage and transmission of data to the level of the information-computing complex (ICC), which includes data collection and transmission devices (DCD) (see Ivanov K.Ya. Approaches to the development of block diagrams for AIIS KUE [Electronic resource] Access mode: https://tpi-sib.ru/articles.

In the information-computing complex, mathematical operations are performed to process the received information according to certain algorithms embedded in the ICC programs. The system may have additional service functions, such as the function of calculating the cost of electricity by zones (peak, semi-peak and night zones), remote access to the meter for remote control of readings, determining day and night energy consumption, setting various information output formats (for example, , displaying information on the amount of energy consumed for a certain interval on the display, etc.), which improves the quality, reliability and safety of measurements. To determine the cost of electricity for a production unit, it is necessary, in the simplest case, to algebraically add up the meter readings for a certain time interval, called the observation interval (hour, day, week, month, etc.).

The disadvantage of the known system of electricity metering is the lack of definition of conditionally variable and conditionally fixed costs of electricity.

The closest to the proposed technical solution is a device for measuring and accounting for the cost of electricity, including serially connected information-measuring complex and information-computing complex, the information output of which is connected to the first input of the multi-input recording and display device. The device contains the first memory cell designed to store information on conditionally fixed costs, the output of which is connected to the second input of the multi-input indicating and recording device and to the first input of the calculator, designed to calculate conditionally variable costs for the second stage of the minicycle, the second memory cell, intended for storing information on the total electricity consumption during the production period, the output of which is connected to the second input of the calculator, while the inputs of the first and second memory cells are connected, respectively, to the first and second control memory keys, designed to transfer information, respectively, to the first and second cells memory, the inputs of which are connected to a logic block designed to generate information about the production operating modes, the inputs of which are connected to sensors of the production operating mode, and the first outputs of the first and second memory keys are connected to the information output of the information and calculation fusion complex, and the second outputs are connected to the third and fourth inputs of the calculator, the output of which is connected to the third input of the multi-input recording and displaying device. (RU No. 2699925 G01R 21/06, G01R 21/133, published on 11.09.19).

The disadvantage of the known device is its stationary design, which limits the possibility of obtaining operational information on various production sites, as well as a decrease in the reliability of the electrical equipment of the enterprise due to the implementation of "tie-ins" into various elements of electrical circuits during installation of the device.

The technical problem solved by the invention lies in the fact that in order to improve the energy efficiency of production and solve energy saving problems at the enterprise, conditionally fixed and conditionally variable costs for various predetermined time intervals - observation cycles (hour, week, month, etc.) , it is possible to expand the arsenal of existing technical means, namely with the use of pulse sensors.

The existing technical problem is solved by the fact that in a known device for measuring and accounting for electricity in production, containing electricity meters with a display and an auxiliary pulse output for reading pulses, the first memory cell designed to store information on conditionally fixed costs, the output of which is connected to the second the input of a multi-input indicating and recording device and with the first input of the calculator designed to calculate conditionally variable costs, the second memory cell designed to store information on the total electricity consumption during the production period, the output of which is connected to the second input of the calculator, while the inputs of the first and of the second memory cell are connected, respectively, to the first and second memory control keys, designed to transfer information, respectively, to the first and second memory cells, the inputs of which are connected to the logic block, designed to generate information about the modes production, and the first outputs of the first and second memory keys are connected to the third and fourth inputs of the calculator, the output of which is connected to the third input of the multi-input recording and indicating device, according to the invention, pulse sensors are connected to the auxiliary pulse outputs of the electricity meters of the information-measuring complex, the outputs of which are connected in series to the input of the adder, designed to sum up all the data on the power consumption of production, and its output is connected to the first input of the multi-pass indicating and recording device, the output of which is connected to the negative input of the comparison block, designed to determine the presence or absence of production, and to the positive input of the block comparison, a mode setting unit is connected, designed to set conditionally fixed costs, and the output of the comparison unit is connected to a comparator, designed to determine the current production mode, output The od of which is connected to the logic block, while the output of each pulse sensor is connected to the time synchronization block, designed to synchronize all electricity measurements.

The technical result obtained as a result of using the invention lies in the fact that it becomes possible to realize the purpose of the invention and, therefore, to measure and account for CPR and CPR in real time using sensors that record pulses, introducing the device into existing electricity metering systems that are closed and a commercial system in an industrial plant.

The present invention is illustrated in the drawing, which shows a block diagram of a portable device for measuring semi-fixed and semi-variable costs in production.

The block diagram of the device contains n electricity meters 1-3 with a display and an auxiliary pulse output for reading pulses, to the outputs of which n pulse sensors 4-6 are additionally connected, while the output of each pulse sensor is connected to a time synchronization unit 7, designed to synchronize all counter measurements. Further, the block diagram contains an adder 8, which summarizes all data on the power consumption of production, the input of which is connected in series to the outputs of the sensors 4-6, and its output is connected to the first input of the multi-pass indicating and recording device 9, which is part of the block diagram designed for calculation of conditionally fixed and conditionally variable costs, which also contains the first memory cell 10, designed to store information on conditionally fixed costs, the output of which is connected to the second input of the multi-input indicating and recording device 9 and to the first input of the calculator 11, intended for calculating conditionally - variable costs, the second memory cell 12, designed to store information on the total consumption of electricity during the production period, the output of which is connected to the second input of the calculator 11, while the inputs of the first 10 and second 12 memory cells are connected, respectively, to the first 13 and second 14 memory control keys, pr designed to transfer information, respectively, to the first 10 and second 12 memory cells, the inputs of which are connected to the logic block 15, designed to generate information about the operating modes of production. Additionally, the scheme is connected to the mode setting unit 16, designed to set semi-fixed costs, the comparison unit 17, designed to determine the presence or absence of production, the comparator 18, designed to determine the current production mode. The output of the mode setting block 16 is connected to the positive input of the comparison block 17, and the output of the multi-pass indicating and recording device 9 is connected to the negative input of the comparison block 17, the output of the comparator 18 is connected to the logic block 15, and the input is connected to the output of the comparison block 17,

The device works as follows. Before starting measurements, sensors 4-6 are installed on the measuring pulse outputs of meters 1-3, with the help of which the amount of active electricity is recorded in pulsed form for a certain required period of time (cycle). Block 7 synchronizes the time of all counters and operations that are carried out in counters 1-3: the beginning of measurements, control marks set by the device and the end of the measurement cycle.

The measurement cycle is analyzed by means of pulse sensors 4-6 and counters 1-3, connected in series to the input of the adder 8, in which the pulses are recalculated into a digital code and then the algebraic addition of data from the sensors:

Σ=Y ₁ +Y ₂ +++Y _m +++Y _n ,

where Y is the value in the pulse code, proportional to the active power of the corresponding meter.

The total costs calculated by the adder 8 in digital form, recorded in the indicating and recording device 9, are fed to the negative input of the comparison block 17, and the value of the reference signal supplied from the mode setting block 16 is connected to the positive input of block 17, which determines the presence or absence of production, based on for a given reference value of active power. The comparator 18 compares it with the actual value of the active power in production, and transmits a signal to the logic block 15, and if at the moment the actual load does not exceed the reference value, then the signal from the logic block 15 is applied to the first control key of the memory 13 and the device records data about conditionally constant costs of electricity in the first memory cell 10, determining that at the moment the process is stopped. When the reference power value is exceeded, the signal from the logic block 15 is fed to the second control key of the memory 14, and the device records data on the total electricity consumption in the second memory cell 12, which includes conditionally fixed and conditionally variable costs. To calculate conditionally variable costs, calculator 11 is used, which defines them as the difference between the total power consumption and conditionally fixed costs. The algorithm for determining the presence of production is a significant power consumed by the main technological units compared to the power of operating electrical equipment in the absence of production.

The positive effect of measuring CPR and CPR using the described invention is of great technical importance, first of all, for improving energy efficiency and energy saving at an industrial enterprise, since when developing energy saving programs, it is necessary to determine the most energy-consuming part of the production process - technological (electrotechnological) or electrical engineering. Technological (electrotechnological) personnel, who form the ideology of industrial production and implement the operating modes of technological equipment and units, are responsible for reducing the CPR. For the reduction of the UPSR, the electrical personnel, who forms the ideology of the operation of auxiliary equipment and the main energy auxiliary production, bears responsibility.

Claims (1)

A device for measuring conditionally fixed and conditionally variable electricity costs in production, containing an information-measuring complex, including electricity meters with a display and an auxiliary pulse output for reading pulses, the first memory cell designed to store information on conditionally fixed costs, the output of which is connected to the second input of the multi-input indicating and recording device and to the first input of the calculator designed to calculate conditionally variable costs, the second memory cell designed to store information on the total electricity consumption during the production period, the output of which is connected to the second input of the calculator, while the inputs of the first and second memory cells are connected, respectively, to the first and second control memory keys, designed to transfer information, respectively, to the first and second memory cells, the inputs of which are connected to the logic block designed to form information about the modes of operation of production, and the first outputs of the first and second memory keys are connected to the third and fourth inputs of the calculator, the output of which is connected to the third input of the multi-input recording and indicating device, characterized in that pulse sensors, the outputs of which are connected in series to the input of the adder, designed to sum up all data on the power consumption of production, and its output is connected to the first input of the multi-pass indicating and recording device, the output of which is connected to the negative input of the comparison unit, designed to determine the presence or absence of production, and a mode setting unit is connected to the positive input of the comparison unit, designed to set conditionally fixed costs, and the output of the comparison unit is connected to a comparator, designed to determine the current its production mode, the output of which is connected to the logic block, while the output of each impulse sensor is connected to the time synchronization block, designed to synchronize all electricity measurements.

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