KR20130026980A - Power control system and power control method - Google Patents

Abstract

PURPOSE: A power control system and a power control method thereof are provided to minimize unnecessary power use by efficiently managing or controlling power use according to the amount of power use or the utilizing mode of the electronic device connected to each power control unit. CONSTITUTION: Multiple power control unit(100) controls power supplied to an electronic device with the control of a master control unit(200). The master control unit sets a power limit value of each power control unit. The master control unit blocks the power supply of the power control unit when the amount of power being used exceeds the power limit value of the each power control unit for a predetermined period of time. The master control unit sets a standby power reference value for determining the standby mode of the electronic device connected to the power control unit by each power control unit. The master control unit blocks the power supply of the power control unit when the amount of power being used of each power control unit is less than the standby power reference value for a predetermined period of time. [Reference numerals] (100) Power control unit; (200) Master control unit

Description

Power Control System and Power Control Method

The present invention relates to a power supply control system and a power supply control method, and more particularly, to a power supply control system and a power supply for efficiently managing power usage according to a usage mode, a power usage amount, and the like of an electronic device connected to an individual power supply control unit. It relates to a control method.

Background art of the present invention is disclosed in Korean Unexamined Patent Publication No. 2002-0016271 (published on Mar. 04, 2002).

Typically, a small amount of current flows even when the electric / electronic device connected to the power outlet is turned off, and thus a small amount of power is consumed. Such a small amount of power is called standby power. This standby power not only has a detrimental effect on the life of electrical / electronic products, but also becomes a part of power consumption. In addition, there is a problem that increases the likelihood of a short circuit accident.

However, in the case where an electronic device / device connected to each outlet terminal is operated, the conventional power outlet does not consider how much power each electronic device / device is using at all and uses less or less. By continuously supplying power regardless of whether the user unexpectedly excessively uses power, there is a problem in that the power usage cannot be managed systematically.

Therefore, it is necessary to cut off the standby power or to manage or control the excessive use of power. In this case, in the past, the user has to search for each electric / electronic product and separate the power from the power outlet. In addition, in this case, as well as the above-mentioned troublesome to the user, there is a problem that the electronic device / device can not be blocked if the separation operation of the user carelessly.

Accordingly, the technical problem to be achieved by the present invention is a power supply control system and a power supply control method for efficiently managing or controlling the use of power according to the use mode, the amount of power used, or the like of an electronic device or an electronic device connected to each power supply control unit. To provide.

According to an aspect of the present invention, the present invention provides a power supply control system including a master control unit and a plurality of power supply control units for controlling power supplied to an electronic device under control of the master control unit, wherein each of the power supply control units includes: Control unit; At least one power connection terminal; And a power detector for detecting the amount of power used by each power supply control unit, wherein the master controller receives data on the amount of power used from each power source control unit, and the sum of the amount of power used during a preset reference time is increased. When at least a predetermined amount of power threshold, the power supply control system, characterized in that to cut off the power supply of at least one of the plurality of power control unit according to the priority set for each of the power control unit.

In the present invention, the master control unit collects power usage information for a preset first period from each of the power control unit, and based on the collected power usage information, the power usage pattern for each power control unit; It is preferable to set the priority for each power control unit by analyzing.

In the present invention, when the amount of power used during the reference time is less than the power amount threshold, it is preferable that the master controller resets data on the amount of power used.

In the present invention, the master control unit may set a power amount limit value for each unit for each of the plurality of power supply control units, the amount of power used during the second predetermined period of the power supply control unit is the power amount limit value for the unit If it exceeds, it is preferable to cut off the power supply of the corresponding power control unit.

In the present invention, the master control unit, it is possible to set the standby power reference value for each power supply control unit for determining whether the standby mode of the electronic device connected to the power supply control unit, each power control unit for a predetermined third period When the amount of power used for each star is below the standby power reference value, it is preferable to cut off the power supply of the corresponding power control unit.

In the present invention, each of the power supply control unit further comprises a warning unit for warning the user, when the sum of the amount of power used during the reference time is more than the power amount threshold, the master control unit warns the user through the warning unit or It is desirable to send a warning message to the user.

In the present invention, each of the power control unit preferably further comprises a communication module for connecting to the master control unit that is remote.

According to another aspect of the present invention, the present invention provides a power control method of a power control system including a master control unit and a plurality of power control units for controlling power supplied to an electronic device under the control of the master control unit. Setting, by the controller, priorities for each of the power control units; Detecting, by the plurality of power supply control units, the amount of power used for each power supply control unit, and providing the detected amount of power to the master controller; Determining, by the master controller, whether a reference time has been reached; If it is determined that the reference time has been reached, determining, by the master controller, whether the sum of the amount of power used during the reference time is equal to or greater than a preset power threshold; And when the sum of the amount of power used during the reference time is equal to or greater than the power amount threshold, the master controller interrupting power supply of at least one of the plurality of power control units according to the priority. Provided is a method for controlling power in a control system.

Power control system and power control method according to the present invention by efficiently managing or controlling the use of power in accordance with the mode of use, the amount of power used, such as electronic devices or electronic devices connected to each power control unit, waste of unnecessary use of power This has the effect of minimizing the elements and allowing more systematic planning and management of power use.

1 is a block diagram showing the configuration of a power supply control system according to an embodiment of the present invention.
2 shows the configuration of the individual power supply control unit included in the power supply control system of this embodiment.
3 is a perspective view showing the configuration of a power supply control unit included in the power supply control system of this embodiment.
4 is a flowchart illustrating a power control method in the power control system according to the present embodiment.
5 is a flowchart illustrating a priority setting step in the power control method according to the present embodiment.
6 is an exemplary diagram illustrating an example of a power usage pattern of each power supply control unit.

Hereinafter, the present invention will be described in more detail with reference to Examples. These embodiments are only for illustrating the present invention, and the scope of rights of the present invention is not limited by these embodiments.

1 is a block diagram showing the configuration of a power supply control system according to an embodiment of the present invention, Figure 2 shows the configuration of an individual power supply control unit included in the power supply control system of the present embodiment, Figure 3 As a perspective view showing the configuration of a power supply control unit included in the power supply control system of this embodiment, the present invention will be described with reference to the following.

As shown in Figures 1 to 3, the power control system according to the present embodiment is a plurality of controlling the power supplied to the electronic device (not shown) under the control of the master control unit 200 and the master control unit 200 Power supply control unit (100).

Each of the power supply control unit 100 includes a control unit 110; At least one outlet terminal 140; A power detector 130 for detecting the amount of power used by each power supply control unit 100; A display unit 150 for displaying information including the amount of power used, the amount of power threshold value, etc. of the power supply control unit 100; A warning unit 160 for warning a user; And it may be configured to include a communication module 120 for connecting to the master control unit 200 in the remote.

The master controller 200 receives data regarding the amount of used power from each power control unit 100, and when the sum of the amount of used power for a preset reference time is equal to or greater than a preset power amount threshold, each power control unit 100. At least one power supply of the plurality of power control units 100 may be cut off according to the priority set for FIG.

The master control unit 200 may set a power amount limit value for each unit for each of the plurality of power supply control units 100, and the amount of power used during the preset period of the power supply control unit 100 is for each unit power amount limit. When the value is exceeded, the power supply of the corresponding power control unit 100 may be cut off.

In addition, the master controller 200 may set a standby power reference value for each power supply control unit for determining whether the electronic device connected to the power supply control unit 100 is in a standby mode, and control individual power during a preset period. When the amount of power used per unit is less than or equal to the standby power reference value, power supply of the corresponding power control unit 100 may be cut off.

The operation and operation of this embodiment configured as described above will be described in detail with reference to FIGS. 1 to 6.

First, the master control unit 200 sets the priority for each power control unit 100 (S101). Here, the priority for each power control unit 100 is for determining the priority of the interruption when the power supply of each power control unit is subsequently cut off, and starting from the power control unit having a lower priority.

Referring to FIG. 5, the step of setting the priority (S101) is as follows. First, the master control unit 200 collects power usage information for a predetermined period (for example, 1 day, 10 days, 1 month ...) from each power control unit 100 (S201).

Subsequently, based on the collected power usage information, the master controller 200 analyzes a power usage pattern for each power control unit 100 (S202). Herein, the power usage pattern analysis refers to power consumption consumed by each power control unit 100 during a predetermined period (eg, 1 day, 10 days, 1 month ...) as shown in FIG. 6. In this period, the power control unit 100 consumed the most power and the power control unit 100 consumed the least amount of power during the period. I mean. This allows each power control unit 100 to predict a certain level of what pattern or specific gravity to consume more power in the future, and furthermore, which power control unit 100 is relatively important. It can be determined whether the high and low, and based on this, the priority can be determined according to the importance for each power control unit (100).

Subsequently, the master controller 200 sets the priority of each power control unit 100 based on the power usage pattern analysis result in step S202 (S203).

4 again, the power detector 130 included in each power control unit 100 detects the amount of power used by the power control unit 100 and the controller 110 controls the master controller 200 through the communication module 120. This is provided to (S102). In this case, the power detector 130 may detect not only the total power used by the power supply control unit 100 but also the power used by each outlet terminal by using a power detection means such as a power meter. For example, the detection operation is performed in units of 1 second, 30 seconds, 1 minute, 5 minutes ...) and the detection result data is provided to the master controller 200. The number of outlet terminals may be one or two or more. In addition, other various types of power connection terminals may be used as the outlet terminal 140.

Subsequently, the master controller 200 determines whether the reference time has been reached (S103). The reference time is a time for determining power consumption, and the master controller 200 of the present embodiment checks the power consumption of the power control unit 100 on the basis of the reference time to control the power usage. The reference time may be set in various ways, for example, 10 minutes, 30 minutes, 1 hour, 24 hours, etc. The user may set the reference time through an input unit (not shown) of the master controller 200. As a result of the determination of step S103, if the reference time has not yet reached, the process returns to step S102, and if the reference time has been reached, the process proceeds to the next step.

When the reference time is reached as a result of the determination in step S103, the master controller 200 determines whether the sum of the amounts of power used by each of the power supply control units 100 during the reference time is equal to or greater than the electric power threshold (S104). Here, the power amount threshold means a threshold set to be available in the plurality of power control units 100 for a preset period (for example, 10 minutes, 30 minutes, 1 hour, 24 hours ...), It may be a threshold for the total amount of power used in the plurality of power supply control units 100. In addition, the power amount threshold may be set to a power amount higher than the total power amount used in the plurality of power supply control units 100.

In step S104, if the sum of the total used power amounts of the plurality of power source control units 100 during the reference time is equal to or greater than the power amount threshold, the process proceeds to the next step S106. However, if the sum of the total used power amounts of the plurality of power control units 100 during the reference time is less than the power amount threshold, the process proceeds to step S105 to reset the data on the used power amount and returns to step S102. To repeat the above steps. Of course, in the above, it is confirmed whether the sum of the total amount of used power of the plurality of power control units 100 is equal to or greater than the power amount threshold, but according to the embodiment, the power consumption of each power control unit 100 is determined by a predetermined power amount threshold value. It can also be configured to compare.

When the sum of the amount of power used during the reference time is greater than or equal to the power threshold, in step S104, the master controller 200 supplies power to at least one of the plurality of power control units 100 according to the priority for each power control unit. The supply is cut off (S106). That is, when the sum of the used power amounts of the plurality of power supply control units 100 during the reference time is greater than or equal to the power amount threshold, the amount of power used may be considered excessive, so that the master control unit 200 has a low priority power control unit ( Turn off the power supply from 100). The number of the power supply control unit 100 to cut off may be set in various ways according to the size of the power consumption to the power amount threshold.

Next, when the sum of the amount of power used during the reference time is greater than or equal to the power amount threshold, the master controller 200 warns the user or warns the user through the warning unit 160 included in each power control unit 100. Send a message. The warning unit 160 may warn in an auditory manner such as a warning sound or may warn in a visual manner through the display unit 150 or a warning light (not shown). In addition, the master controller 200 may transmit a warning message to the user in the form of a text message or an email.

On the other hand, each of the power supply control unit 100 according to the present embodiment is a display unit for displaying information such as the power consumption of the power supply control unit 100, the power consumption for each outlet terminal, the power amount threshold, the priority of each power control unit ( 150). In addition to the above-described details, the display unit 150 may display various messages related to the operation state of the power control unit 100.

In addition, the master controller 200 according to the present exemplary embodiment may set a standby power reference value for each power control unit 100 for determining whether the electronic device connected to each power control unit 100 is in a standby mode. This standby power reference value is a power value that serves as a reference for determining whether an electronic device connected to each power supply control unit 100 is in a current operation mode or a standby mode. When the amount of power used by the specific power supply control unit 100 for the predetermined period becomes less than or equal to this standby power reference value, the electronic device connected to the corresponding power supply control unit 100 may be regarded as currently in the standby mode. When the amount of power used for each power control unit for a preset time (for example, 1 minute, 10 minutes, 30 minutes) is less than or equal to the standby power reference value, the master controller 200 connects the corresponding electronic device to the standby mode. Determined to be cut off the power supply of the power control unit 100. By doing so, the master controller 200 can reduce the generation of unnecessary standby power.

In addition, as described above, the master control unit 200 may set a power amount limit value for each unit for each of the plurality of power supply control units 100, and use the power control unit 100 for a preset period of time. When the amount of power exceeds the power limit of each unit, the power supply of the corresponding power control unit 100 may be cut off.

In addition, the power supply control system according to the present embodiment may further include a function of controlling the power supply according to the used power amount even if the sum of the used power amounts during the reference time does not reach the power amount threshold. That is, when the sum of the amount of power used during the reference time is less than the power amount threshold and is equal to or greater than the first preliminary threshold (eg, 90% of the power amount threshold), the master control unit 200 displays the display of each power control unit 100. The user may generate a preliminary warning through the 150 or the warning unit 160 or a separate output means (not shown). In addition, when the sum of the amount of power used during the reference time is less than the first preliminary threshold and is greater than or equal to the second preliminary threshold (for example, 80% of the power amount threshold), the master controller 200 supplies each power during the reference time. The control unit 100 may determine that the power supply control unit 100 that is less than or equal to a preset value as a standby power state and block it.

In addition, the power supply control system according to the present embodiment is provided with data on the current value detected by the power detector 130 or a separate current detector (not shown) provided in each power control unit 100, The current value may be configured to block the power supply control unit 100 that is greater than or equal to a preset current threshold.

As described above, the power supply control system and the power supply control method according to the present embodiment efficiently manage or control the use of power in accordance with the mode of use, the amount of power used, or the like of an electronic device or an electronic device connected to each power supply control unit. Wastes from unnecessary use can be minimized and planning and management of electricity use can be more systematic.

100: power supply control unit
110: control unit 120: communication module
130: power detector 140: outlet terminal (1 ~ n)
150: display unit 160: warning unit
200: master control unit

Claims (20)

A power control system including a master control unit and a plurality of power control unit for controlling the power supplied to the electronic device under the control of the master control unit,
Each of the power supply control unit
A control unit;
At least one power connector; And
A power detector for detecting the amount of power used by each power supply control unit,
The master controller receives the data on the amount of power used from each of the power supply control units, and when the sum of the amount of used power for a preset reference time is equal to or greater than a preset power level threshold, the priority set for each of the power supply control units. According to claim 1, wherein at least one power supply of the plurality of power control units is cut off.
The method of claim 1,
The master controller collects power usage information for a preset first period from each power control unit, and analyzes a power usage pattern for each power control unit based on the collected power usage information. And setting the priority of the power control unit of the control unit.
The method of claim 1,
And when the amount of power used during the reference time is less than the power amount threshold, the master controller resets data on the amount of power used.
The method of claim 1,
The master controller may set a power amount limit value for each unit for each of the plurality of power control units, and the amount of power used during the second preset period of each power control unit exceeds the power amount limit value for each unit. A power supply control system, characterized in that to cut off the power supply of the power supply control unit.
The method of claim 1,
The master controller may set a standby power reference value for each power control unit for determining whether the electronic device connected to the power control unit is in a standby mode.
The power supply control system, characterized in that to cut off the power supply of the power supply control unit when the amount of power used by the individual power supply control unit for the third predetermined period is less than the standby power reference value.
The method of claim 1,
Each of the power control unit further includes a warning unit for warning the user, and when the sum of the amount of power used during the reference time is greater than or equal to the power threshold, the master controller warns the user or warns the user through the warning unit. Characterized in that for transmitting a power supply control system.
7. The method according to any one of claims 1 to 6,
And each power control unit further comprises a communication module for connecting to a remote master control unit.
The method of claim 1,
When the sum of the amount of power used during the reference time is less than the power amount threshold and less than the first preliminary threshold value smaller than the power amount threshold, the master controller generates a preliminary warning to the user through a display unit or a warning unit. Control system.
The method of claim 8,
When the sum of the amount of power used during the reference time is less than the first preliminary threshold and smaller than the second preliminary threshold, which is smaller than the first preliminary threshold, the master control unit pre-uses the amount of power used by each power control unit during the reference time in advance. A power supply control system, characterized in that to cut off the corresponding power supply control unit that is less than the set standby power value.
The method of claim 1,
The master control unit receives data on the current value detected by the power detection unit or the current detection unit provided in each of the power supply control units, and cuts off the corresponding power supply control unit in which the detected current value is greater than or equal to a preset current threshold value. Power supply control system.
The method of claim 1,
And the power connection terminal is an outlet terminal.
A power control method in a power control system including a master control unit and a plurality of power control units for controlling power supplied to an electronic device under the control of the master control unit,
Setting, by the master control unit, priorities for each of the power control units;
Detecting, by the plurality of power supply control units, the amount of power used for each power supply control unit, and providing the detected amount of power to the master controller;
Determining, by the master controller, whether a reference time has been reached;
If it is determined that the reference time has been reached, determining, by the master controller, whether the sum of the amount of power used during the reference time is equal to or greater than a preset power threshold; And
When the sum of the amount of power used during the reference time is greater than or equal to the power amount threshold, the master control unit comprising the step of interrupting power supply of at least one of the plurality of power control units according to the priority; How to control power in the system.
13. The method of claim 12,
Setting the priority,
Collecting, by the master control unit, power usage information during the first preset period from each of the power control units; And
Based on the collected power usage information, the master controller analyzing the power usage pattern for each power control unit and setting the priority for each power control unit. , Power control method in power control system.
13. The method of claim 12,
When the sum of the amount of power used during the reference time is less than the power amount threshold, further comprising the step of resetting the data for the amount of power used and returning to the step of detecting and providing the amount of power used, power supply in the power supply control system Control method.
13. The method of claim 12,
The master controller may set a power amount limit value for each unit for each of the plurality of power control units, and the amount of power used during the second preset period of each power control unit exceeds the power amount limit value for each unit. A power supply control method in a power supply control system, characterized in that the power supply is cut off from the power supply control unit.
13. The method of claim 12,
The master controller may set a standby power reference value for each power supply control unit for determining whether the electronic device connected to the power supply control unit is in the standby mode, and the amount of power used by each power supply control unit during the third preset period is When the standby power reference value is less than the power supply control method, characterized in that the power supply of the power supply control unit is cut off.
13. The method of claim 12,
When the sum of the amount of power used during the reference time is equal to or more than the power amount threshold, the master control unit further comprises a step of alerting the user through a warning unit or transmitting a warning message to the user, the power supply in the power control system Control method.
13. The method of claim 12,
When the sum of the amount of power used during the reference time is less than the power amount threshold and less than the first preliminary threshold value smaller than the power amount threshold, the master controller generates a preliminary warning to the user through a display unit or a warning unit. Control method.
19. The method of claim 18,
When the sum of the amount of power used during the reference time is less than the first preliminary threshold and smaller than the second preliminary threshold, which is smaller than the first preliminary threshold, the master control unit pre-uses the amount of power used by each power control unit during the reference time in advance. The power supply control method, characterized in that for shutting off the power supply control unit that is less than the set standby power value.
13. The method of claim 12,
The master control unit receives data on the current value detected by the power detection unit or the current detection unit provided in each of the power supply control units, and cuts off the corresponding power supply control unit in which the detected current value is greater than or equal to a preset current threshold value. A power supply control method.

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