KR20150100518A - Peak power control system by operating output value of heater in electric furnace - Google Patents

Abstract

The present invention provides an output value changeable peak power control system in an electric furnace. The output value changeable peak power control system in the electric furnace according to the present invention prevents damage to a product, the degradation of quality, and damage to the electric furnace and improves the control stability of the system. The output value changeable peak power control system in the electric furnace according to the present invention includes a power meter which detects power consumption information, a peak power controller which generates a peak power control signal, the electric furnace which has a smelting furnace heated by a heater, an electric furnace heater operation controller which controls the heater in either a normal operation control mode or an emergency operation control mode, and an electric furnace power controller.

Description

[0001] The present invention relates to a peak power control system, and more particularly,

More particularly, the present invention relates to an output value conversion type electric furnace maximum power control system, and more particularly, to an output value conversion type electric furnace maximum power control system, A numerical value linked to the maximum power value according to the power peak charge contract, and a numerical value set by the administrator himself or the like), the heater of the electric furnace is set to a predetermined minimum power value or a power consumption reduction ratio The control of the electric furnace is controlled to be normal operation when the current total power consumption value becomes lower than the management target total electric power value by the emergency operation control so that the electric furnace is forcibly turned off, It is possible to prevent the damage or quality deterioration of the product in the electric furnace and the damage of the electric furnace, As output value conversion type electrical control that improves the stability of the system for management it relates to a maximum power control system.

With the recent development of industry, the consumption of industrial electric power has been explosively increasing as the supply of industrial electric power has been increasing. As the demand for electric power has increased, the usage of electric power energy has been greatly increased and the peak electric power of the year has increased by more than 10% It is being renewed.

In addition, it is estimated that industrial electric power accounts for about 58% of the nation's total demand electric power (estimated by KEPCO), and it is expected that demand for industrial electric power will continue to grow in the future. In particular, due to the maximum peak power of the industry, the power supply capability of KEPCO's substation must be checked every year over the annual peak load increase rate. As a result, problems such as the issue of funding for substation investment and the condition of location of substation are becoming big problems.

In this connection, in recent years, a maximum power control device is installed in a substation such as a factory or a large building, so that the power use state is always monitored. When the predicted (used) power exceeds the target power value set in advance for each time zone, the maximum power control apparatus calculates the load of the cooling / heating apparatus, the electric furnace, the pump, the air conditioner, the boiler and the freezer according to the importance and priority of the load And the maximum demand electric power is suppressed by automatically controlling the on / off state. Through this, efficient utilization of electric power, reduction of electricity rate, suppression of overload, etc. are promoted, power reserve efficiency is improved, and energy rationalization is made possible. As a technology related to such a maximum power control apparatus, Korean Registered Patent Publication No. 10-0994517 entitled "Maximum Power Integrated Control System"

In the past, in the process of monitoring the electric power use state of the customer by the maximum electric power control device, it has been common to automatically turn on / off various devices when the preset target electric power is exceeded. In particular, If the electric furnace is forcibly turned off, the product may be damaged due to sudden temperature change of the electric furnace, or the quality of the product may be deteriorated, and in the worst case, the entire product may be discarded. In addition, the electric furnace is operated by an electric power of a considerable magnitude. When the process of forcibly turning off and on is repeated, there is a problem that the electric furnace is damaged due to excessive power change.

(Patent Document 1) Korean Registered Patent Publication No. 10-0994517 entitled "Maximum Power Integrated Control System"

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a power meter and a maximum power controller that real- Or when the current total power consumption value exceeds the management target total power value set by the manager itself, the heater of the electric furnace is controlled to be in the emergency operation control with the preset minimum power consumption value or the power consumption reduction ratio, When the power consumption value becomes lower than the management target total power value, the heater of the electric furnace is controlled to the normal operation value by the normal operation value, so that a flexible power saving operation operation is induced not in the forced off operation but in the electric furnace Damage to the product in the middle, quality degradation, damage to the electric furnace is prevented, maximum power management And to provide a new type of output value conversion type electric furnace maximum power control system in which the control stability of the system for improving the controllability of the system is improved.

According to an aspect of the present invention, there is provided a wireless communication system including a power meter for detecting power consumption information of a setting area; The total power consumption value of the management area is set and stored, and the current total power consumption value of the setting area is calculated in real time through communication with the power meter. When the current total power consumption value exceeds the management target total power value, A maximum power controller to generate the maximum power; An electric furnace disposed in the setting region and having a melting furnace heated by a heater; A normal operation control mode in which the heater is controlled in accordance with a heater normal operation value set by an administrator and an emergency operation control mode in which the heater is controlled in accordance with a heater emergency operation value set by an administrator for maximum power control An electric furnace heater operation controller for controlling the heater in one control mode; And an emergency operation control signal generating unit for generating an emergency operation control signal upon receipt of a maximum power control signal transmitted from the maximum power controller, And an electric furnace power controller for causing the electric furnace heater operation controller to operate in the emergency operation control mode by generating a normal operation control signal when the maximum power control signal is not received for a set unit time, To provide an output value conversion type electric furnace full power control system.

In the maximum value power control system of the electric power conversion type electric power furnace according to the present invention, the maximum power controller includes: a memory for storing and setting a management target total power value; A communication module communicating with the power meter to receive power consumption information in real time; A calculation module for calculating in real time the current total power consumption value of the setting area from the power consumption information; A power check module for comparing the current total power consumption value and the management target total power value in real time; And a maximum power control signal generation module for generating a maximum power control signal when the current total power consumption value exceeds the management target total power value and transmitting the generated maximum power control signal to the communication module.

In the electric power maximum power control system of the present invention, the electric power controller includes an input module for receiving a heater emergency operation value from an administrator; A memory for storing a heater emergency operation value; A communication module for communicating with the maximum power controller; A control signal generation module that generates an emergency operation control signal upon receipt of a maximum power control signal transmitted from the maximum power controller and generates a normal operation control signal when a maximum power control signal is not received for a set unit time; And receives the emergency operation value from the memory and stores the emergency emergency operation value. When the emergency operation control signal is transmitted from the control signal generation module, the emergency emergency operation value is transmitted to the electric heater operation controller And an automatic power control module for disconnecting the controller from the electric heater operation controller when a normal operation control signal is transmitted from the control signal generator module.

In the maximum value power control system of the output value conversion type electric power line according to the present invention, when the electric railway heater operation controller is connected to the automatic power control module of the electric railway power controller, it receives the heater emergency operation value and operates in the emergency operation control mode And can operate in the normal operation control mode according to the heater normal operation value set by the manager when the connection with the automatic power control module is cut off.

The output power conversion type electric power maximum power control system according to the present invention is connected to a power supply unit to receive power, and is connected to the electric rail heater operation controller to supply power, and a variable resistor is installed therein And a power supply controller capable of changing the size of the power supplied to the electric furnace heater operation controller, wherein the electric furnace heater controller controls the power supply of the output value corresponding to the heater emergency operation value in the emergency operation control mode, And the power supply of the output value corresponding to the heater normal operation value in the normal operation control mode may be supplied from the power supply controller.

In the maximum value power control system of the output value conversion type electric power line according to the present invention, the electric power controller may receive and store the required minimum electric power value required by the electric furnace as the heater emergency operation value. Alternatively, the electric furnace power controller may receive and store the saving ratio of the electric power consumed by the electric furnace in the normal operation control mode of the electric furnace heater operation controller as the heater emergency operation value.

In the electric power maximum power control system according to the present invention, when the maximum power control signal is not received for a predetermined unit time, the electric furnace heater operation controller returns from the emergency operation control mode to the normal operation control mode. The control unit receives the return time value from the controller through the input module and stores it in the memory, and when the return time value is reached from the time when the normal operation control signal is received, the automatic power control module and the electric furnace heater operation controller The connection can be disconnected.

According to the output value conversion type electric furnace maximum power control system of the present invention, when the current total power consumption value of the setting area where the power consumption is measured exceeds the management target total power value, When the current total power consumption value becomes lower than the management target total power value, the heater of the electric furnace is controlled to be normal operation by the original normal operation value, thereby forcibly turning off the heater The flexible electric power saving operation is induced, thereby preventing the damage or quality deterioration of the product in the electric furnace, damaging the electric furnace, and improving the control stability of the system for the maximum power management.

1 is a block diagram of an output value conversion type electric furnace maximum power control system according to an embodiment of the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric power conversion system,
3 is a block diagram of a maximum power controller according to an embodiment of the present invention;
4 is a configuration block diagram of an electric furnace power controller according to an embodiment of the present invention;
FIGS. 5A and 5B are block diagrams of control operations of an electric power controller according to an embodiment of the present invention; FIG.
6 is a diagram illustrating a control configuration example of an electric furnace power controller according to an embodiment of the present invention;
7 is a control flowchart of an output value conversion type electric furnace maximum power control system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings 1 to 7. In the drawings and the detailed description, there is shown and simplified the configuration and operation of the watt-hour meter, the maximum power controller, the electric furnace, the heater, and the like by those skilled in the art. In the drawings and specification, there are shown in the drawings and will not be described in detail, and only the technical features related to the present invention are shown or described only briefly. Respectively.

1, an output value conversion type electric furnace maximum power control system 100 according to an embodiment of the present invention includes a power meter 10, a maximum power controller 20, an electric furnace 30, an electric furnace heater operation controller 40 , And an electric furnace power controller (50).

2, the output value conversion type electric furnace full power control system 100 according to the embodiment of the present invention is configured such that the current total power consumption value of the setting region is set to be real time by the power meter 10 and the maximum power controller 50, And when the current total power consumption value exceeds the management target total power value which is set in conjunction with the maximum power value according to the power peak charge agreement between the power company and the customer or is set by the manager itself, The electric rail heater operation controller 40 executes the emergency operation control mode in which the heater 31 of the electric furnace 30 is controlled to the predetermined heater emergency operation value by generating the emergency operation control signal of the power controller 50 . When the current total power consumption value becomes lower than the management target total power value, the normal operation control signal of the electric power line power controller 50 causes the electric furnace heater operation controller 40 to control the heater (not shown) of the electric furnace 30 31) is controlled to a preset heater normal operation value. This ensures that the maximum power in the configuration area is smoothly and effectively controlled.

The power meter 10 detects power consumption information in the setting area. As such a power meter 10, a meter provided by a power company that supplies power to a setting area (company, factory, office, general household, etc.) can be used.

The maximum power controller 20 is configured such that the management target total power value is set and stored and the management target total power value is set in conjunction with the maximum power value according to the power peak charge plan agreement between the power company and the customer, Can be set. The maximum power controller 20 calculates the current total power consumption value of the setting area in real time through communication with the power meter 10. When the current total power consumption value exceeds the management target total power value, And transmits it to the electric furnace power controller 50. Such a maximum power controller 20 may include a configuration of a maximum power control device constituting the " maximum power integrated control system " of Korean Patent Registration No. 10-0994517.

3, the maximum power controller 20 includes a memory 21, a communication module 22, a calculation module 23, a power check module 24, a maximum power control signal generation module 25).

The memory 21 stores the management target total power value. The communication module 22 communicates with the power meter 10 to receive the power consumption information in real time and receives the maximum power control signal from the maximum power control signal generation module 25 and transmits the maximum power control signal to the electric power controller 50 to be.

The calculation module 23 is a module for calculating in real time the current total power consumption value of the setting area from the power consumption information. The power check module 24 is a module that compares the current total power consumption value with the management target total power value in real time. The maximum power control signal generation module 25 generates and transmits a maximum power control signal to the communication module 22 when the total power consumption value exceeds the management target total power value.

The electric furnace 30 is disposed in the setting area and has a melting furnace which is heated by the heater 31.

The electric furnace heater operation controller 40 controls operation of the heater 31 of the electric furnace 30 in the normal operation control mode or the emergency operation control mode. Here, the normal operation control mode is a mode for controlling the heater 31 according to the heater normal operation value set by the manager, and the emergency operation control mode is a mode in which the heater 31). The electric furnace heater operation controller 40 may have a structure in which the normal operation value of the heater is input and stored by itself and may be configured to receive the normal operation value of the heater from the electric furnace electric power controller 50. [

The electric furnace power controller 50 receives and stores the heater emergency operation value from the manager. The heater emergency operation value may be set to a minimum required power level required by the electric furnace 30 and may be set as a reduction ratio of the electric power consumed by the electric furnace 30 in the normal operation control mode of the electric furnace heater operation controller 40 .

In addition, the electric furnace power controller 50 communicates with the maximum power controller 20. Upon receiving the maximum power control signal transmitted from the maximum power controller 20, the electric furnace power controller 50 generates an emergency operation control signal, And a normal operation control signal is generated when the control signal is not received. Here, the electric furnace heater operation controller 40 operates in the emergency operation control mode through the emergency operation control signal, and the electric furnace heater operation controller 40 operates in the normal operation control mode through the normal operation control signal.

The electric power controller 50 according to the embodiment of the present invention includes an input module 51, a memory 52, a communication module 53, a control signal generation module 54, an automatic power control module 55).

The input module 51 receives the heater emergency operation value from the manager, and the memory 52 stores the heater emergency operation value. Here, the heater normal operation value may also be input through the input module 51 and stored in the memory 52.

The communication module 53 communicates with the maximum power controller 20 to receive the maximum power control signal transmitted from the maximum power controller or communicates with the electric furnace heater operation controller 40 to output the normal operation control signal / .

The control signal generation module 54 generates an emergency operation control signal upon receipt of the maximum power control signal and generates a normal operation control signal when the maximum power control signal is not received for a set unit time.

The automatic power control module 55 receives and stores the heater emergency operation value from the memory 52. When the emergency operation control signal is transmitted from the control signal generation module 54 as shown in FIG. And is connected to the heater operation controller 40 to transmit the heater operation value information to the electric heater operation controller 40. The electric furnace heater operation controller 40 receives the heater operation value at the time of being connected to the automatic power control module 55 of the electric power controller 50, and operates in the emergency operation control mode. 5, when the normal operation control signal is transmitted from the control signal generation module 54, the automatic power control module 55 is disconnected from the electric railway heater operation controller 40, The heater operation controller 40 operates in the normal operation control mode according to the heater normal operation value set by the manager when the connection with the automatic power control module 55 is broken. For this, the electric furnace heater operation controller 40 may have a structure in which the normal operation value of the heater is inputted and stored.

5 and 6, the output power conversion type electric power maximum power control system 100 according to the embodiment of the present invention includes a power supply controller 60 connected to the power supply device 70 to receive power from the power supply controller 70 The supply power controller 60 is also connected to the electric furnace heater operation controller 40 to supply electric power to the electric furnace heater operation controller 40. A variable resistor is provided in the supply power controller 60 so that the size of the power supplied to the electric heater operation controller 40 can be changed. Here, the electric furnace heater operation controller 40 receives the supply power of the output value corresponding to the heater emergency operation value from the supply power controller 60 in the emergency operation control mode, and receives the heater operation value corresponding to the heater normal operation value in the normal operation control mode And the supply power of the output value is supplied from the supply power controller 60.

Meanwhile, the output value conversion type electric furnace maximum power control system 100 according to the embodiment of the present invention is configured such that when the maximum power control signal is not received for a set unit time as shown in FIG. 7, A return time value for returning to the normal operation control mode is input from the manager through the input module 51 of the electric power line power controller 50 to be stored in the memory 52 and the return time from the time of receiving the normal operation control signal The automatic power control module 55 and the electric furnace heater operation controller 40 can be disconnected from each other.

The output value conversion type electric furnace full power control system 100 according to the embodiment of the present invention configured as described above can be applied not only to a forced off operation of the electric furnace 20 but also to a flexible electric power saving operation, 30, the damage or quality deterioration of the product during processing and the damage to the electric furnace 30 are prevented, and the control stability of the system for maximum power management is improved.

Although the output value conversion type electric furnace full power control system according to the embodiment of the present invention has been described with reference to the above description and drawings, it should be understood that the present invention is merely illustrative and not restrictive within the scope of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention.

10: Power meter 20: Maximum power controller
21: memory 22: communication module
23: operation module 24: power check module
25: Maximum power control signal generation module 30:
31: heater 40: electric furnace heater operation controller
50: electric furnace power controller 51: input module
52: memory 53: communication module
54: control signal generation module 55: automatic power control module
60: Power supply controller 70: Power supply
100: Output power conversion type electric furnace maximum power control system

Claims (8)

A power meter for detecting power consumption information of the setting area;
The total power consumption value of the management area is set and stored, and the current total power consumption value of the setting area is calculated in real time through communication with the power meter. When the current total power consumption value exceeds the management target total power value, A maximum power controller to generate the maximum power;
An electric furnace disposed in the setting region and having a melting furnace heated by a heater;
A normal operation control mode in which the heater is controlled in accordance with a heater normal operation value set by an administrator and an emergency operation control mode in which the heater is controlled in accordance with a heater emergency operation value set by an administrator for maximum power control An electric furnace heater operation controller for controlling the heater in one control mode;
And an emergency operation control signal generating unit for generating an emergency operation control signal upon receipt of a maximum power control signal transmitted from the maximum power controller, And an electric furnace power controller for causing the electric furnace heater operation controller to operate in the emergency operation control mode by generating a normal operation control signal when the maximum power control signal is not received for a set unit time, Output power conversion type electric furnace maximum power control system. The method according to claim 1,
The maximum power controller comprising: a memory in which a management target total power value is set and stored;
A communication module communicating with the power meter to receive power consumption information in real time;
A calculation module for calculating in real time the current total power consumption value of the setting area from the power consumption information;
A power check module for comparing the current total power consumption value and the management target total power value in real time;
And a maximum power control signal generation module for generating a maximum power control signal when the current total power consumption value exceeds the management target total power value and transmitting the maximum power control signal to the communication module. . The method according to claim 1,
Wherein the electric furnace power controller includes: an input module for receiving a heater emergency operation value from an administrator;
A memory for storing a heater emergency operation value;
A communication module for communicating with the maximum power controller;
A control signal generation module that generates an emergency operation control signal upon receipt of a maximum power control signal transmitted from the maximum power controller and generates a normal operation control signal when a maximum power control signal is not received for a set unit time;
And receives the emergency operation value from the memory and stores the emergency emergency operation value. When the emergency operation control signal is transmitted from the control signal generation module, the emergency emergency operation value is transmitted to the electric heater operation controller And an automatic power control module for disconnecting the controller from the electric heater operation controller when a normal operation control signal is transmitted from the control signal generator module. The method of claim 3,
The electric railway heater operation controller receives the heater emergency operation value when it is connected to the automatic power control module of the electric railway power controller and operates in the emergency operation control mode. When the electric railway heater operation controller is disconnected from the automatic power control module, Wherein the normal operation control mode is operated in accordance with the normal operation value of the heater. 5. The method of claim 4,
And a power supply is connected to the power supply unit to receive power. The power supply unit is connected to the electric heater operation controller to supply electric power. A variable resistor is installed inside the electric heater heater operation controller, A power supply controller,
Wherein the electric furnace heater controller receives supply power of an output value corresponding to the heater emergency operation value from the supply power controller in the emergency operation control mode and supplies the supply power of the output value corresponding to the heater normal operation value in the normal operation control mode And the power supply controller is supplied with power from the power supply controller. The method according to claim 1,
Wherein the electric furnace power controller receives and stores a minimum required power value required by the electric furnace as a heater emergency operation value. The method according to claim 1,
Wherein the electric furnace power controller receives and stores a reduction ratio of electric power consumed by the electric furnace in a normal operation control mode of the electric furnace heater operation controller as a heater emergency operation value, Control system. The method according to claim 1,
Wherein the electric furnace power controller receives a return time value from the manager through the input module when the electric furnace heater operation controller returns from the emergency operation control mode to the normal operation control mode when the maximum power control signal is not received for a set unit time, And the automatic power control module is disconnected from the electric furnace heater operation controller when the return time value is reached from the time of receiving the normal operation control signal. Control system.

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