KR20120109907A - System and method for controlling peak demand power - Google Patents

Abstract

PURPOSE: A system and method for controlling maximum demand power are provided to control a load according to importance of a predetermined load by detecting consumption power data according to each load. CONSTITUTION: An administration unit(110) transmits control sequence information of a load according to a step to a power control unit(120). The administration unit indicates a control result signal received from the power control unit to a user. The power control unit compares an actual demand power value with a pre-stored reference value for load control determination according to the step. The power control unit outputs the control result signal and a signal for controlling the load according to the control sequence information of the stored load according to the step depending on the comparison result. A watthour meter(130) outputs actual demand power to the power control unit. A plurality of loads(140-142) actually consumes the actual demand power. [Reference numerals] (110) Administration unit; (120) Power control unit; (130) Watthour meter; (131) Load watthour meter 1; (132) Load watthour meter 2; (133) Load watthour meter 3; (140) Load 1; (141) Load 2; (142) Load 3; (150) Power generator

Description

Maximum demand power control system and method {SYSTEM AND METHOD FOR CONTROLLING PEAK DEMAND POWER}

The present invention relates to a maximum demand power control system and method, and more particularly, continuously monitors the power value of a building, detects power data for each load, and controls loads according to a predetermined order of importance of load. The present invention relates to a maximum demand power control system and method that can prevent the maximum demand power from increasing by more than a predetermined value.

 Today, power consumption is increasing rapidly as the industry develops and the standard of living improves.

In order to support the increase in power consumption, power generation capacity must also be increased in accordance with the increase in power consumption, and the power reserve rate for supplying power is reaching its limit due to the enormous cost and time required for expansion of power generation facilities and transmission facilities. .

In particular, in the summer season, when the cooling load temporarily reaches a high point, the load on the power system continuously rises and is pointed out as a major obstacle to stable power supply.

Therefore, it is necessary to efficiently control the maximum demand power to secure the stability of the power supply and at the same time to save the power bill. For this purpose, various methods and systems for controlling the maximum demand power within an appropriate range have been proposed.

1 is a diagram illustrating a maximum demand power control system according to the related art, and includes a power meter 10 for detecting an amount of power used by a load, and a load to be controlled 30, 31, and 32 according to the amount of power detected by the power meter 10. ) A power controller 20 to control on / off.

The conventional maximum demand power control system sequentially controls the control target loads 30, 31, and 32 on / off in a predetermined order.

However, such sequential control has a problem in that it is difficult to manage the actual maximum demand power by simply managing a management target value and controlling a controllable load when a corresponding reference value is exceeded.

In addition, since the maximum demand power control system according to the prior art controls the loads according to a predetermined order, if the load under control does not actually consume power, controlling the loads in the predetermined order does not reduce the power demand. There is a problem.

In addition, the maximum demand power system according to the related art has a problem in that when the load is controlled according to a predetermined order, when the load with a large amount of electricity is turned on, the total demand power exceeds the set reference power.

In order to solve this problem, the present invention continuously monitors the power consumption value of the building, detects the power usage data for each load and controls the load according to the order of importance of the preset load, thereby increasing the maximum demand power by a predetermined value or more. It is an object of the present invention to provide a system and method for controlling maximum demand power that can be prevented.

In order to achieve the above object, the present invention provides a power control system,

According to the reference value for determining the load control step by step for managing the maximum demand power value set by the user and the control order information of the step-by-step load according to the importance of the load, the control result signal received from the power control unit A management unit to be displayed to the user; Receives and stores the reference value for determining the step load control of the maximum demand power, the importance information for each load and the control order information for the step load, and compares the actual demand power value with the stored reference value for the step control control. A power control unit for outputting a signal and a control result signal for controlling the load according to the control order information of the stored step load according to the result; A power meter which detects actual demand power and outputs it to the power control unit; And a plurality of loads consuming the actual demand power and controlled on / off according to a load control signal output from the power controller.

In addition, the electricity meter according to the present invention is characterized in that it further comprises an auxiliary power meter installed in each of the loads to detect the individual demand power value of the load provided to the power control unit.

In addition, the maximum demand power control system according to the present invention is characterized in that it further comprises an emergency power supply for supplying power in accordance with the control signal output from the power control unit when the actual demand power value exceeds the maximum demand power value. .

In addition, the power control unit according to the present invention includes a power amount detection unit for detecting power information output from the power meter; A communication unit which receives a reference value for determining the step-by-step load control of the maximum demand power, importance information for each load, and control order information for the step-by-step load, and transmits operation state and control result information of the power control unit to the manager; Compare the actual detection power value detected from the power amount detection unit with the reference value for the step-by-step load control determination of the maximum demand power received by the communication unit and output a control signal of the load based on the control sequence information of the step-by-step load according to the result, A load controller configured to output a display signal for displaying an operation state and a control result of the power control system according to the load-specific control result; An environment setting unit configured to store a reference value for determining the step-by-step load control of the maximum demand power, importance information for each load, control order information for the step-by-step load, and operation information of the power control system received from the communication unit; And a load input / output unit configured to output an operation control signal of the load output from the load control unit to the corresponding load, and receive and transmit a signal transmitted from the load to the load control unit.

In addition, the present invention is the maximum demand power control method,

a) the power control unit stores the reference value for determining the load control step by step of the maximum demand power transmitted from the management unit, the importance information for each load and the control order information for the step load, and detecting the demand power value from the electricity meter according to a preset period; ; b) comparing, by the power control unit, a setting range of the demand power value detected in step a) with the first reference value for determining the load control step by step of the maximum demand power; c) When the detected demand power value is included in the setting range of the first reference value, as a result of the comparison in step b), the power control unit loads the corresponding load according to the control order information of the step load corresponding to the first reference value. First control outputting a control signal and a display of control result information, and if the detected demand power value is equal to or greater than a set range of the first reference value, the second reference value for determining step load control of the maximum demand power. Comparing with a setting range; d) as a result of the comparison in step c), if the detected demand power value is included in the setting range of the second reference value, the power control unit loads the corresponding load according to the control order information of the step load corresponding to the second reference value. A second control outputting a control signal and a display of control result information, and when the detected demand power value is equal to or greater than a set range of the second reference value, a third reference value for determining step load control of the maximum demand power; Comparing; And e) third control and control for outputting an operation control signal of a generator so that emergency power is supplied to a load when the detected demand power value exceeds the third reference value as a result of the comparison in step d). Performing the display of the result information.

Further, in the method for controlling the maximum demand power according to the present invention, if the detected demand power value is less than or equal to a setting range of the first reference value, the power control unit detects the demand power detected in step a). And displaying the value and the operation state information.

The present invention has the advantage that it is possible to efficiently manage the power supply with energy saving by controlling the maximum demand power in stages.

In addition, the present invention has the advantage that it is possible to supply a stable power to the load even if the remote control and the demand power is excessively increased for the power supply.

1 is a block diagram showing the configuration of a power control system according to the prior art;
Figure 2 is a block diagram showing the configuration of the maximum demand power control system according to the present invention.
3 is a block diagram illustrating a power control unit configuration of the maximum demand power control system according to FIG. 2.
4 is a flowchart illustrating a control process of a maximum demand power control system according to the present invention;

Hereinafter, exemplary embodiments of a maximum demand power control system and method according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a configuration of a maximum demand power control system according to the present invention, Figure 3 is a block diagram showing a configuration of a power control unit of the maximum demand power control system according to Figure 2, Figure 4 is a maximum according to the present invention A flowchart illustrating a control process of a demand power control system.

2 to 4, the power control system 100 according to the present invention detects an actual demand power value at predetermined time intervals and compares it with preset reference values, and sets the reference value for which the detected actual demand power value is set. When the value is exceeded, the control is performed to prevent the maximum demand power from increasing by more than a predetermined value. For this purpose, the management unit 110, the power control unit 120, the electricity meter 130, and the plurality of loads 140 and 141 are managed. , 142, a plurality of load wattmeters 131, 132, 133, and a generator 150.

The management unit 110 receives the control value of the step by step load control according to the reference value for determining the load control step by step for managing the maximum demand power value set by the user and the importance of the load, and transmits to the power control unit 120, the power A control result signal received from the control unit 120 is configured to be displayed to the user, including an input means such as a keyboard and a display means such as a monitor, preferably using a touch panel capable of input by touch and screen display It is a monitor.

The management unit 110 receives arbitrary step-by-step reference value setting information for managing the maximum demand power from the user and arbitrary control order information by the user when the maximum demand power reaches each step-by-step reference value, and then the power control unit 120. To provide.

In addition, the management unit 110 detects and provides control mode confirmation information for determining whether the control of the load for each step is automatically performed or the manual control by the user according to the control sequence information and provided to the power control unit 120. do.

The reference value setting information for determining the load control for each step determines whether the actual demand power reaches an arbitrary maximum demand power (eg, 80%, 90%, 100%, etc.) set by the user. The importance of each load is information classified by importance of the load (for example, a lighting facility, an air conditioning facility, a communication facility, a power distribution facility, and the like) of a load set by a user into upper, middle, and lower levels. The control order is order information in which load is controlled on / off in order of importance of load set by the user in each step when the actual demand power reaches the step value.

The reference value for determining the load control step by step, the importance information for each load, and the control order information may be reconfigured such as modification / addition / deletion according to the change of load facility.

The power control unit 120 receives and stores the reference value for determining the step load control of the maximum demand power, the importance information for each load and the control order information for the step load, which are transmitted from the management unit 110, and stores the actual demand power value. Comparing the reference value for the step-by-step load control determination and outputs a signal and a control result signal for controlling the load according to the control order information of the stored step-by-step load according to the result, the power amount detector 121 and the communication unit 122 And a load control unit 123, an environment setting unit 124, and a load input / output unit 125.

The electricity amount detector 121 is connected to the electricity meter 130 installed in the building and receives the power information detected by the electricity meter 130 at a predetermined time interval and provides it to the load controller 123.

The communication unit 122 is connected to the management unit 110 to receive a reference value for determining the step load control of the maximum demand power input by the user through the management unit 110, the importance information for each load and the control order information of the step load Provided to the control unit 123.

In addition, the communication unit 122 transmits the operation state information of the power control system 100 output from the load control unit 123 and the control result information according to the step-by-step load control to the management unit 110 to be displayed to the user.

The load control unit 123 compares the actual detection power value detected from the power amount detection unit 121 with the reference value for determining the step load control of the maximum demand power received by the communication unit 122, and according to the result, the control order information of the load according to the step The control unit 110 outputs an on / off control signal of the load based on the control unit and displays an operation state and a control result of the power control system according to the control result for each load.

The environment setting unit 124 stores the reference value for determining the step-by-step load control of the maximum demand power, the importance information for each load, the control order information for the step-by-step load, and the operation information of the power control system received through the communication unit 122. The information stored in the environment setting unit 124 is provided to the load control unit 123.

The load input / output unit 125 causes the operation control signals of the load output from the load control unit 123 to be output to the plurality of loads 140, 141, and 142 and is transmitted from the loads 140, 141, and 142. The operation result signal of the load is received and provided to the load control unit 123.

The electricity meter 130 detects and provides the total demand power value consumed by the plurality of loads 140, 141, and 142 to the power controller 120.

In addition, the electricity meter 130 is installed in each of the plurality of loads together with the total demand power value consumed by the plurality of loads 140, 141, and 142 to determine the power value consumed by each of the loads 140, 141, and 142. Load power meters 1 to 3 (131, 132, and 133) detected and provided to the power control unit 120, respectively.

Loads 1 to 3 (140, 141, 142) are the equipment and devices that consume the actual power in the building, including lighting equipment (apparatus), air conditioning equipment (apparatus), communication equipment (apparatus), power distribution equipment (apparatus), etc. The loads 1 to 3 140, 141, and 142 are controlled on / off according to a control signal of the load output from the power controller 120.

When the actual demand power value exceeds the maximum demand power value, the generator 150 generates power in accordance with a control signal output from the power control unit 120 and supplies the power to the loads 140, 141, and 142.

In other words, the generator 150 stabilizes the power control system 100 by supplying sufficient power to the load when the set maximum demand power is exceeded.

The following describes the maximum demand power control method according to the present invention.

The power control unit 120 receives the reference value for determining the step load control of the maximum demand power input by the user through the management unit 110, the importance information for each load, and the control order information for the step load through the communication unit 122 to set the environment. The control unit 124 stores the control unit 124 and initializes various variables for controlling the operation of the power control system 100 to set a control environment.

In addition, the power control unit 120 performs automatic control or manual control directly controlled by the user according to the control order information set by the user to control the load of each step input by the user from the management unit 110 The control mode decision to determine the (S110) is performed.

As a result of the determination in step S110, when the control mode is manual control, the power controller 120 periodically checks the current control mode state without performing automatic control according to the control sequence information set in step S100, When the control mode is automatic control, the power control unit 120 allows the control to be performed according to the control order information set in step S100.

When the control mode of step S110 is automatic control, the power control unit 120 detects the actual total demand power value from the power meter 130 through the power amount detection unit 121 according to a preset period (S120).

The power controller 120 compares the total demand power value detected in step S120 with a setting range of the first reference value for determining the step load control of the maximum demand power stored in the environment setting unit 124. It is determined whether a power value is included in a setting range of the first reference value (S130).

That is, when the setting range of the first reference value for determining the load control step by step in step S130 is, for example, 75% to 85% of the maximum demand power, the detected total demand power value is the setting range of the first reference value. Determine whether it is included in.

As a result of the determination in step S130, when the detected total demand power value is included in the setting range of the first reference value, the power control unit 120 corresponds to the first reference value stored in the environment setting unit 124. According to the control order information of the load, a first control for outputting a control signal for controlling the on / off operation of the corresponding load and displaying the control result information is performed (S131).

At this time, the control order of the load for each step is controlled on / off according to the load-specific importance set by the user, so that the load with a large power consumption among the control target load is preferentially controlled on / off.

That is, the power control unit 120 receives input power value for each load from the load power meters 131, 132, and 133 installed in the loads 140, 141, and 142 through the power amount detection unit 121, and compares the power consumption with a large amount of power consumption. Control from the load (or from the load with low power consumption).

On the other hand, when the detected demand power value exceeds the setting range of the first reference value as a result of the determination in step S130, the power control unit 120 determines the step-by-step load control of the maximum demand power stored in the environment setting unit 124. It is determined whether or not the detected total demand power value is included in the setting range of the second reference value in comparison with the setting range of the second reference value (S140).

That is, when the setting range of the second reference value for determining the load control step by step in step S140 is, for example, 85% to 95% of the maximum demand power, the detected total demand power value is the setting range of the second reference value. Determine whether it is included in.

As a result of the determination in step S140, when the detected total demand power value is included in the setting range of the second reference value, the power control unit 120 corresponds to the second reference value stored in the environment setting unit 124. According to the control order information of the load, a second control for outputting a control signal for controlling the on / off operation of the corresponding load and displaying the control result information (S141).

In addition, when the detected demand power value exceeds the setting range of the second reference value, the power control unit 120 determines the step-by-step load control of the maximum demand power stored in the environment setting unit 124. It is determined whether or not the detected total demand power value exceeds the third reference value (S150) by comparing with the third reference value (for example, 95% of the maximum demand power).

As a result of the determination in step S150, when the detected total demand power value exceeds the third reference value, the power control unit 120 outputs an operation control signal to the generator 150 to supply emergency power to the load and the control result. In operation S151, third control for displaying is performed.

On the other hand, if the determination result of step S130 is less than the setting range of the first reference value (less than 75% of the maximum demand power) and the total demand power value currently detected without outputting a signal for the on / off control of the load; The operation state information of the power control system 100 is provided to the management unit 110 to be displayed to the user (S160).

Therefore, when the total demand power value detected at regular time intervals is exceeded by comparing with the reference value for determining the step load control, it is possible to control the load so that the maximum demand power does not increase more than a predetermined value.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It can be understood that

100: power control system 110: management unit
120: power control unit 121: power amount detection unit
122: communication unit 123: load control unit
124: environment setting unit 125: load input / output unit
130: power meter 131: load power meter 1
132: load power meter 2 133: load power meter 3
140: load 1 141: load 2
142: load 3 150: generator

Claims (6)

Power control system,
According to the reference value for determining the load control step by step for managing the maximum demand power value set by the user and the control order information of the step-by-step load according to the importance of the load, the control result signal received from the power control unit A management unit to be displayed to the user;
Receives and stores the reference value for determining the step load control of the maximum demand power, the importance information for each load and the control order information for the step load, and compares the actual demand power value with the stored reference value for the step control control. A power control unit for outputting a signal and a control result signal for controlling the load according to the control order information of the stored step load according to the result;
A power meter which detects actual demand power and outputs it to the power control unit; And
And a plurality of loads that consume the actual demand power and are controlled on / off according to a load control signal output from the power controller. The method of claim 1,
The electricity meter further includes a supplementary electricity meter installed in each of the loads to detect an individual demand power value of the load and provide it to the power control unit. The method of claim 1,
And a generator for supplying power according to a control signal output from the power controller when the actual demand power value exceeds the maximum demand power value. The method according to any one of claims 1 to 3,
The power control unit includes a power amount detection unit for detecting power information output from the power meter;
A communication unit which receives a reference value for determining the step-by-step load control of the maximum demand power, importance information for each load, and control order information for the step-by-step load, and transmits operation state and control result information of the power control unit to the manager;
Compare the actual detection power value detected from the power amount detection unit with the reference value for the step-by-step load control determination of the maximum demand power received by the communication unit and output a control signal of the load based on the control sequence information of the step-by-step load according to the result, A load controller configured to output a display signal for displaying an operation state and a control result of the power control system according to the load-specific control result;
An environment setting unit configured to store a reference value for determining the step-by-step load control of the maximum demand power, importance information for each load, control order information for the step-by-step load, and operation information of the power control system received from the communication unit; And
And a load input / output unit configured to output an operation control signal of the load output from the load control unit to the corresponding load, and receive and provide a signal transmitted from the load to the load control unit. As the maximum demand power control method,
a) the power control unit stores the reference value for determining the load control step by step of the maximum demand power transmitted from the management unit, the importance information for each load and the control order information for the step load, and detecting the demand power value from the electricity meter according to a preset period; ;
b) comparing, by the power control unit, a setting range of the demand power value detected in step a) with the first reference value for determining the load control step by step of the maximum demand power;
c) When the detected demand power value is included in the setting range of the first reference value, as a result of the comparison in step b), the power control unit loads the corresponding load according to the control order information of the step load corresponding to the first reference value. First control outputting a control signal and a display of control result information, and if the detected demand power value is equal to or greater than a set range of the first reference value, the second reference value for determining step load control of the maximum demand power. Comparing with a setting range;
d) as a result of the comparison in step c), if the detected demand power value is included in the setting range of the second reference value, the power control unit loads the corresponding load according to the control order information of the step load corresponding to the second reference value. A second control outputting a control signal and a display of control result information, and when the detected demand power value is equal to or greater than a set range of the second reference value, a third reference value for determining step load control of the maximum demand power; Comparing; And
e) a third control and control result of outputting an operation control signal of the generator to supply emergency power to the load if the detected demand power value exceeds the third reference value as a result of the comparison in step d); A method of controlling peak demand power, comprising performing display of information. The method of claim 5, wherein
If the detected demand power value is less than the set range of the first reference value as a result of the comparison of step b), the power control unit includes the step of displaying the demand power value and operation state information detected in step a) Maximum demand power control method characterized in that.

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