KR101821895B1 - Method and system for controlling power of equipment - Google Patents

Abstract

Disclosed are a method for controlling the power supply of a power supply device and a system thereof. According to an embodiment of the present invention, the power supply control method of a power supply device includes the steps of: receiving a first condition for controlling the power supply of the power supply device from a user; setting a second situation notification condition having a predetermined range with respect to the first condition when the first condition is input; determining whether the second situation notification is met; outputting a preliminary notification before executing the first condition regarding the situation of the user occurring after the first condition is met with the first condition when the second situation notification condition is met; and controlling the power supply of the power supply device in accordance with the first condition when the user confirms the preliminary notification before executing the first condition.

Description

[0001] METHOD AND SYSTEM FOR CONTROLLING POWER OF EQUIPMENT [0002]

The present invention relates to a situation-aware automatic power control technology, and more particularly, to a situation-aware automatic power control technology, in which a situation that can occur when power supply equipment is turned on or off according to a set power supply control condition, And more particularly, to a method and system for controlling a power source of a power supply device that can notify a user.

A technology has been proposed to provide convenience to the user by automatically turning on or off the power supply device in the home.

For example, a technique has been commercialized that sets a reserved time for a power supply device and supplies or cuts off the power supply at that time, thereby controlling the power supply of the power supply device.

As described above, in the past, the power supply control to the power supply device can be performed when the predetermined time or the specific temperature is set in advance.

However, in consideration of the environment of the home space in which the power supply apparatus is installed and the relationship between the power supply apparatus and the other power supply apparatus, a method of determining whether or not to execute the power supply control for the power supply apparatus has not been proposed yet.

In other words, the automatic power control method for the existing power supply device is performed by a simple structure that the power supply is turned on or off according to the set value without considering the external environment surrounding the power supply device, so that the power supply control It is difficult to activate the service.

The embodiment of the present invention informs the user in advance of a situation that can occur when the power supply of the power supply apparatus is turned on or off according to the set power supply control condition before the power supply control condition is satisfied, Aware automatic power control that prevents unauthorized damage and disadvantages.

In addition, in the embodiment of the present invention, when a first condition (for example, a time value such as '6 PM') for executing the power control of the power source device is input, a certain range including the first condition is automatically calculated (For example, '5:30 pm') as a condition notification condition (for example, '5:30 pm to 6:00 pm') is satisfied and a condition notification condition The user is informed in advance of the first condition before the first condition is satisfied so that the user can be informed of whether or not the power is controlled.

Further, the embodiment of the present invention can flexibly determine whether or not to execute the automatic power control to the power supply device through the power supply device, the space occupied by the power supply device, and the status of the other power supply devices in the space The purpose.

Further, the embodiment of the present invention is characterized in that, before the time point at which the first condition for power supply control is satisfied and the specified power supply control is automatically executed, a space occupied by the power supply device or a second (For example, 'cumulative electricity consumption amount', 'average indoor temperature and humidity'), it is determined whether or not the automatic power control can be executed. If it is difficult to execute the automatic power control, The present invention aims at proposing an automatic power control technique which is highly utilized by users.

A method of controlling a power supply of a power supply according to an embodiment of the present invention includes the steps of: receiving a first condition from a user to be controlled by a power supply of the power supply; inputting a first condition, Setting a second condition notification condition having a first condition and a second condition notification condition; determining whether the second condition notification condition is satisfied; and if the first condition notification condition is satisfied, A preliminary notification before the execution of the first condition for a user condition that can be generated when the user satisfies the preliminary condition, and a preliminary notification before the execution of the first condition, .

According to another aspect of the present invention, there is provided a system for controlling a power source of a power source device, the system comprising: a first condition input unit for receiving a first condition that a power source of the power source device is controlled by a user; A determination unit for determining whether the second status notification condition is satisfied; and a determination unit for determining whether or not the first status notification condition is satisfied, An interface unit for making a preliminary notification before the execution of the first condition with respect to a situation of a user that can be generated when the condition is satisfied; and a control unit for, if there is confirmation by the user of the preliminary notification before the execution of the first condition, And a control unit for controlling the power supply of the apparatus.

According to an embodiment of the present invention, it is possible to inform a user in advance of a situation that can occur when the power supply is turned on or off according to a set power supply control condition, before the power supply control condition is satisfied, The unexpected damage and disadvantage of the user can be prevented.

According to an embodiment of the present invention, it is possible to notify the user of a situation that may occur in the control of the power supply device at a previous point in time when the set value is expected to arrive, rather than simply controlling the power supply of the power supply device according to the set value. By confirming whether or not the control is performed, power supply control of the power supply device can be flexibly performed according to the situation.

Further, according to the embodiment of the present invention, by determining whether or not to execute the automatic power control preset for the power supply device in consideration of the space occupied by the power supply device or the state of other power supply devices in the space, It is possible to enhance the convenience of the user by further activating the use of the automatic power control for the device.

FIG. 1 is a diagram illustrating a system for controlling a power supply of a power supply apparatus according to an exemplary embodiment of the present invention and an overall connection relationship between power supply apparatuses in a space.
2 is a block diagram illustrating an internal configuration of a system for controlling power supply of a power supply apparatus according to an embodiment of the present invention.
3 is a diagram illustrating an example of controlling power supply to a power supply device in a system for controlling the power supply of the power supply device according to an embodiment of the present invention.
FIG. 4 is a diagram illustrating an example of requesting a user terminal to perform execution of power control in a system for controlling power supply of a power supply apparatus according to an embodiment of the present invention. Referring to FIG.
5 is a flowchart illustrating a procedure of a method of controlling power supply of a power supply apparatus according to an embodiment of the present invention.
6 is a flowchart illustrating a procedure of a method of controlling power supply of a power supply apparatus according to another embodiment of the present invention.

Hereinafter, an apparatus and method for updating an application program according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference symbols in the drawings denote like elements.

FIG. 1 is a diagram illustrating a system for controlling a power supply of a power supply apparatus according to an exemplary embodiment of the present invention and an overall connection relationship between power supply apparatuses in a space.

Referring to FIG. 1, a system for controlling the power source of the power source device of the present invention includes a multi-plug (or multi-tap) 103 in which the power source devices 104, 105 and 106 are plugged in, As shown in FIG.

Here, the multi-plug 103 can be implemented as a context-aware smart plug capable of selectively supplying, intercepting, and delaying power depending on the surrounding environment to the power source devices 104, 105, It is possible to request the user terminal 100 to confirm whether or not to execute the power control through the network, or notify the execution result.

The system for controlling the power supply of the power supply apparatus of the present invention may be implemented in the form of an application in the user terminal 100 so that the power supply apparatus 101 or 102 or the power supply apparatus 104, 102, 104, 105, and 106 through communication with the multi-plug 103 that is connected to the power source apparatus 101. [

The system for controlling the power supply of the power supply apparatus of the present invention is configured to calculate the physical value (for example, time (For example, '6 pm') set for each power source device 101, 102, 104, 105, and 106 with respect to the power source control is changed according to the operation of the power source device (E.g., "cumulative power usage") when touching a predetermined range of criteria (for example, "5:30 pm" to "6:00 pm"), It is possible to determine whether or not the automatic power control can be executed by discriminating whether or not it meets a second condition (for example, "within a progressive tax grade of six stages") set for the space.

For example, the system for controlling the power supply of the power supply apparatus of the present invention may be configured such that when the first condition for controlling the power supply to the power supply unit 'air conditioner' 101 is '30 minutes before 6 pm' And monitors the cumulative power consumption of the power devices 101, 102, 104, 105 and 106 from 'home' to the present. The system for controlling the power supply of the power supply apparatus of the present invention can determine that the state of the space does not match the second condition if the progressive tax grade according to the cumulative power consumption amount is just before the second condition & .

The system for controlling the power supply of the power supply device of the present invention is characterized in that when the state of the space does not meet the second condition, the system requests confirmation of the execution of the power control to the user terminal 100, Upon reception from the terminal 100, the power control can be executed as the physical value satisfies the first condition

For example, the system for controlling the power supply of the power supply device of the present invention outputs to the user terminal 100 a notification message (see 307 in FIG. 3) informing execution delay of power supply to the power supply device 101 . According to the 'execution' selection of the user terminal 100 with respect to the notification message, the system for controlling the power supply of the power supply apparatus of the present invention, when the current time becomes '6 pm' and satisfies the first condition, (Step 306 in FIG. 3) to the user terminal 100, even if there is a concern that the power supply may be upgraded to the '7th step'.

Alternatively, the system for controlling the power supply of the power supply device of the present invention may suspend the power control when the disallowed response is received from the user terminal 100, It is possible to judge whether the second condition is satisfied or not.

For example, in the system for controlling the power source of the power supply device of the present invention, when 'execution delay' is selected from the user terminal 100 for an announcement message (see 307 in FIG. 3) 6 pm ', and even if the first condition is satisfied, power supply to the power supply device can be suspended.

As described above, the system for controlling the power source of the power source device of the present invention is a system for controlling the power source of the power source device when the power source device satisfying the predetermined condition (first condition) It is possible to provide an automatic power control service which is highly utilized by the user by determining whether or not to execute the automatic power control to the power source device through the detection of the status of the other power source devices in the space.

2 is a block diagram illustrating an internal configuration of a system for controlling power supply of a power supply apparatus according to an embodiment of the present invention.

2, a system 200 for controlling power supply of a power supply according to an exemplary embodiment of the present invention includes a setting unit 210, a determination unit 220, an interface unit 230, a control unit 240, And a monitoring unit 250 may be included.

The setting unit 210 receives a first condition that a power source of the power source device is controlled by a user and sets a second condition notification condition having a predetermined range based on the first condition when the first condition is input.

Here, the user may refer to a user terminal such as a smart phone, a tablet PC, and the like possessed by the user.

The setting unit 210 sets a first condition for various physical values related to the power source device for controlling the power source of the power source device on or off according to the power source control type , off).

The first condition may include a condition for a physical value of at least one of time, temperature, humidity, power consumption, electricity rate, and calorific value of the power supply device.

For example, the setting unit 210 can receive a temperature value ('28 ° C') as a first condition for controlling the power source of the power source device ('air conditioner') in use, A time value ('6 PM') may be input as a first condition for turning off the power of the device ('study TV').

The setting unit 210 may automatically calculate the predetermined range by the internal logic of the power supply unit when the first condition is input. At this time, the setting unit 210 can set a certain range of physical values of the same kind as the first condition.

For example, the setting unit 210 can adjust the size of the predetermined range in response to a change in the space (environment) occupied by the power supply device. Also, the setting unit 210 may calculate the predetermined range in consideration of the priority of the physical value, the type of the power source device, the type of power source control (on, off), the number of other power source devices, Also, the setting unit 210 may calculate the range specified by the user terminal in the predetermined range.

For example, when the temperature value ('28 ° C') is inputted as the first condition for controlling the power source of the power source device ('air conditioner') in use, the setting unit 210 sets the first condition (27 ° C to 29 ° C) of "± 1 ° C" based on the temperature (for example, "28 ° C") can be set as the second condition notification condition. Also, the setting unit 210 may set a temperature value range (27 ° C to 28 ° C) of 1 ° C or lower from the first condition (28 ° C) as the second condition notification condition.

At this time, the setting unit 210 calculates the predetermined range to be 1.5 times larger than spring or autumn, for example, when the physical value change (e.g., temperature rise) with time is relatively fast .

For example, the setting unit 210 may set the temperature condition range (26 ° C to 29 ° C) including the first condition ('28 ° C') as the second condition notification condition, ° C '), the user can be informed of the situation that may occur in the power supply control of the power supply device at the time of reaching 26 ° C which is 1 ° C faster than the spring or fall.

The determination unit 220 determines whether the second condition notification condition is satisfied.

That is, the determination unit 220 monitors the change of a physical value (for example, a 'temperature value') inputted through the monitoring unit 250 and inputs the physical value to the second condition notification condition (27 DEG C to 29 DEG C) is reached. For example, the determining unit 220 can determine that the second condition notification condition is satisfied when the room temperature of the space occupied by the power supply unit becomes '27 ° C'.

When determining that the second condition notification condition is satisfied, the interface unit 230 preliminarily notifies the user of the condition of the user, which can occur when the first condition is satisfied, together with the first condition.

That is, if the second condition notification condition is satisfied, the interface unit 230 confirms the status of the user that can be generated when the first condition is satisfied and the power source of the power source device is controlled, I can remind the user before power control of the power device through preliminary notifications.

Here, the situation of the user that can be generated when the first condition is satisfied is determined by whether the progressive fee section of the electric power usage fee is entered, whether the lighting or sound set in the power supply device can be executed A change in the temperature and humidity of the indoor space, a running state of the user in the absence of the user, a fire risk of the heating device, and an influence on the user's health due to the continuous use of the power device.

For example, when the indoor temperature of the space occupied by the power supply device ('air conditioner') becomes '27 ° C' and the second condition notification condition is satisfied, the interface unit 230 transmits a preliminary notice (28 ° C) for executing the power-on control of the power supply device ('air conditioner') is approaching, and at the same time, when the indoor temperature of the space is lower than the first condition ' , It is possible to warn that the electric power usage fee will enter the progressive charge period when the electric power of the power supply device ('air conditioner') is controlled on.

In addition, if the first condition is satisfied, the user's situation that can be generated can be changed according to the power off of the power source device, data loss of the power source device memory in use, An interruption in the use of the power source device, a forced termination of a running program in the background, a change in the temperature and humidity of the indoor space, and an influence on the health of the user due to the unused power source device.

The monitoring unit 250 monitors whether or not the power source is turned off in the other power source device connected to the same plug as the power source device when the power source is cut off according to the first condition.

If the interface 230 is monitored for power use by the other power source device, the interface 230 may provide a preliminary notification before the first condition is implemented.

For example, if the current time is '30 minutes ago' from the first condition '6:00 pm' for turning off the power of the power device 'TV', the interface 230 receives the second condition notification condition Off control of the power unit 'TV' is predicted through the preliminary notification before the execution of the first condition when the power unit 'TV' is satisfied, It is connected to the same multi-plug as 'TV', so that the power of the other power source 'computer' is turned off together to warn that data is lost.

The control unit 240 controls the power source of the power source device according to the first condition when the user confirms the preliminary notification before the first condition is executed.

That is, if there is a user's confirmation within a specific time (for example, '1 minute') from the time of executing the preliminary notification before the execution of the first condition, the control unit 240 notifies the user of the warning , The power source of the power source apparatus in use can be turned off or the power source of the unused power source apparatus can be turned on in accordance with the first condition even if a guidance situation is caused.

For example, when the room temperature of the room becomes '28 ° C', which is the first condition, according to the user's confirmation of the preliminary notification before the first condition is executed, the controller 240 enters the progressive fee interval The power of the power supply device ('air conditioner') can be controlled to be turned on.

In addition, when the current time is '6:00 PM', which is the first condition, the controller 240 determines that the power of the other power source 'computer' is turned off together with the pre- , The power of the power supply device ('TV') can be controlled to be turned off.

The interface unit 230 may repeat the preliminary notification before the first condition is executed at a predetermined time interval if the user's confirmation of the preliminary notification before the first condition is not performed within a predetermined time.

The control unit 240 may not perform the power control of the power source device according to the first condition if the user does not confirm the preliminary notification before the first condition is repeated more than a predetermined number of times.

In this manner, when the first condition is satisfied, the controller 240 can determine whether the power source of the power source device is controlled as it is set, or not, and whether the power source device remains in the current state or not according to the response of the user terminal.

In addition, the control unit 240 may not execute the power control of the power source device according to the first condition when the cancel command is input by the user for the preliminary notification before the first condition.

As described above, according to an embodiment of the present invention, a situation that can occur when the power supply is turned on or off according to a set power supply control condition is informed to the user in advance before the power supply control condition is satisfied, Unexpected damage and disadvantage of the user due to the control can be prevented.

According to an embodiment of the present invention, it is possible to notify the user of a situation that may occur in the control of the power supply device at a previous point in time when the set value is expected to arrive, rather than simply controlling the power supply of the power supply device according to the set value. By confirming whether or not the control is performed, power supply control of the power supply device can be flexibly performed according to the situation.

In another embodiment, a system 200 for controlling the power supply of a power supply according to an embodiment of the present invention is configured such that a first condition related to power control from a user terminal to a power supply is set, Wherein the control unit recognizes an unexpected situation occurring in the space according to the power supply control when the physical value in the space touches the predetermined range based on the first condition, And may guide the user terminal.

For example, the system 200 for controlling the power supply of the power supply device controls to turn on the power supply 'air conditioner' when the temperature becomes '28 ° C.' as the first condition of the indoor space If the temperature is set to '1 ° C', the user terminal can be informed of an unexpected situation in which the progressive class is upgraded when the power supply of the power unit 'air conditioner' is turned on.

Accordingly, the system 200 for controlling the power supply of the power supply device can determine whether to turn on or off the power supply of the power supply device in accordance with the response of the user terminal when the temperature becomes " 28 DEG C & have.

For example, the system 200 for controlling the power supply of the power supply device monitors the cumulative power consumption for a predetermined period of time in the space, and controls the amount of power used by the power supply device according to the power supply control, And when the cumulative cumulative power usage exceeds a grade upper limit value, it is possible to recognize an unexpected situation concerning the progressive agent grade upward.

In this case, when the cumulative power consumption in the space is within a range in which the upward adjustment to the progressive tax grade is required, the system 200 for controlling the power source of the power source device guides the cumulative power consumption amount and the progressive tax grade to be adjusted upward , And output a notification message to the user terminal informing of execution delay of power supply to the power supply device.

In another embodiment of the present invention, the setting unit 210 sets the first condition regarding power supply control to the power supply apparatus and the second condition about the space occupied by the power supply apparatus.

Specifically, the setting unit 210 sets 'power on' or 'power off' as power control for each of the power devices connected to the smart plug in a space (for example, Data relating to at least one physical value of a time value, a temperature value and a humidity value for execution can be set as the first condition.

For example, the setting unit 210 may set the time value '6 PM' input by the user terminal as a first condition for powering on the power supply unit 'air conditioner'. Also, the setting unit 210 may additionally set the temperature value '28 ° C' input by the user terminal as a first condition for powering on the power supply unit 'air conditioner'. Also, the setting unit 210 may set the indoor humidity value '30%' input by the user terminal as a first condition for powering up the power supply 'humidifier'.

Specifically, the setting unit 210 sets a progressive tax grade ('within six steps') according to the cumulative power consumption by the power supply devices in the space, an average standby power in the space, And data on at least one of power usage ("no use") as a second condition related to the space occupied by the power supply device. The second condition may be set for each power supply device by the user terminal.

If the physical value in the space changes as the power source device operates and touches the predetermined range based on the first condition, the determination unit 220 determines that the state of the space is in the second condition It is determined whether or not it is matched.

For example, when the time value (e.g., '6 PM') during which the power supply unit operates in the space is set as the first condition, the setting unit 210 sets the previous arbitrary time point (For example, "5:30 pm" to "6:00 pm") may be set to the above range. If the current time falls within the time range, the determination unit 220 can confirm that the touch is made.

For example, the discrimination unit 220 can recognize that the user touches the above range when the first condition for controlling power to the power unit 'air conditioner' is '30 minutes before 6 pm'. The judging unit 220 judges that the state of the space is within the second condition 'within six steps' if the progressive tax grade according to the cumulative power consumption up to the present in the space 'home' As shown in FIG.

If it is determined that the interface unit 230 does not match, the interface unit 230 requests the user terminal to confirm the execution of the power control.

For example, referring to FIG. 3 (iv), the interface unit 230 outputs to the user terminal a notification message 307 informing execution delay of power supply to the power unit 'air conditioner' Can be selected.

The control unit 240 performs the power control according to the satisfaction of the first condition when the permission response ('execution') is received from the user terminal for the confirmation request.

For example, referring to FIG. 3, when 'execute' is selected by the user terminal in the notification message, if the current time becomes '6:00 PM' and the first condition is satisfied, It is possible to operate the power supply of the power supply unit 'air conditioner' and output the execution result to the user terminal as the notification message 306. [

As another example, when the room temperature value (for example, " 28 DEG C ") is set as the first condition, the setting unit 210 sets the temperature range from the room temperature value to any temperature , &Quot; 26 ° C to 28 ° C ') can be set in the above range. If the current temperature is within the temperature range, the determination unit 220 can confirm that the touch is made.

In addition, the monitoring unit 250 may monitor the current power consumption of the other power source device occupying the space together with the power source device. If the current power consumption of the other power supply unit exceeds the average standby power, the interface unit 230 guides the current power consumption of the other power supply unit and informs the execution of the power supply to the power supply unit And output a notification message to the user terminal.

For example, when the current room temperature is 26 degrees centigrade, the determination unit 220 recognizes that the temperature range is touched, and recognizes that another power source device occupying the same space as the power source device 'air conditioner' You can monitor the current power usage in TV, Humidifier, Stand, and Computer.

If the current power consumption exceeds the average standby power, the determination unit 220 determines that the state of the space does not match the second condition, and the interface unit 230 guides the current power consumption in the other power supply, It is possible to output to the user terminal a notification message informing execution of the power supply to the power supply device 'air conditioner', and to enable execution of the notification.

The control unit 240 suspends the power control when receiving an unauthorized response to the confirmation request from the user terminal, and the determination unit 220 monitors the state of the space at regular intervals It can be judged whether or not it meets the second condition.

For example, when the 'execution delay' is selected from the user terminal for the notification message (see 307 in FIG. 3) for postponing execution, the controller 240 determines that the current time is '6 pm' The power supply to the power supply device can be held. The determination unit 220 monitors the current power consumption of the other power supply devices in the space through the monitoring unit 250 at a predetermined cycle (for example, 'every minute') to determine whether the current power consumption falls below the average standby power, It can be judged whether the condition meets the second condition.

If the state of the space meets the second condition, the control unit 240 can perform the power control as the physical value satisfies the first condition.

For example, referring to FIG. 3, when the current power consumption in the space monitored at regular intervals falls below the average standby power, the controller 240 determines that the current time is '6 pm' , The power supply unit 'air conditioner' is activated and the execution result is output to the user terminal as in the notification message 306.

As described above, according to the present invention, when the first condition (e.g., 'temperature', 'humidity', etc.) for power control is satisfied and the time for automatically executing the specified power control comes, (For example, 'cumulative electricity usage amount', 'average indoor temperature and humidity') set in relation to a space or other power source device is monitored to determine whether or not the automatic power control can be executed, It is possible to confirm whether or not the user terminal is executed.

For example, when the power supply to the power supply unit 240 is to be executed as the power supply control in the control unit 240, the monitoring unit 250 may monitor power use in other power supply units connected to the same plug as the power supply unit .

For example, if the power of the power device 'TV' connected to the multi plug of the space 'study room' is set to be off at 6:00 PM, the monitoring unit 250 may be connected to another power source You can monitor the power usage of the devices 'computer' and 'stand'.

If it is determined that the power is being consumed by the other power source device, the determination unit 220 determines that the power source is not in use, and the interface unit 230 guides the other power source device (computer) It is possible to output a notification message (see 401 in Fig. 4) informing the user terminal that the execution of the power-off is delayed.

 In another example, the monitoring unit 250 may monitor whether the current indoor humidity value in the space exceeds the average indoor humidity. If the current indoor humidity value is monitored as exceeding the average indoor humidity, the determination unit 220 can determine that the state of the space does not match the second condition.

For example, if the power of the power unit 'humidifier' is set to be activated at '6 pm', the determination unit 220 may determine that the current indoor humidity value in the space through the monitoring unit 250 is' And the interface unit 230 guides the current indoor humidity value in the space when the current indoor humidity value exceeds the average indoor humidity and reaffirms whether or not the power supply to the power supply unit is executed (Refer to 402 in FIG. 4) to the user terminal.

As described above, the system for controlling the power source of the power source device of the present invention is a system for controlling the power source of the power source device when the power source device satisfying the predetermined condition (first condition) It is possible to provide an automatic power control service which is highly utilized by the user by determining whether or not to execute the automatic power control to the power source device through the detection of the status of the other power source devices in the space.

The control unit 240 can determine the execution of the power control in consideration of the current state of the space including the other power supply devices in the space as the physical value satisfies the first condition.

For example, when the current time becomes '6:00 pm', which is a time value set for power supply to the power supply unit 'air conditioner', and the first condition is satisfied, the control unit 240 determines that the cumulative The current state including at least one of the power consumption, the temperature and the humidity, the power consumption in the other power supply devices in the space, and the current power consumption is comprehensively considered to determine whether or not the power supply 'air conditioner' can do.

Therefore, according to the embodiment of the present invention, by determining whether or not to execute the automatic power control preset for the power supply device in consideration of the space occupied by the power supply device or the state of other power supply devices in the space, It is possible to enhance the convenience of the user by further activating the use of the automatic power control for the device.

3 is a diagram illustrating an example of controlling power supply to a power supply device in a system for controlling the power supply of the power supply device according to an embodiment of the present invention.

FIG. 3 shows an example of a power supply control process for the power supply unit 'air conditioner'.

Referring to FIG. 3 (i), the system for controlling the power supply of the power supply device includes a time value '6:00 pm' 301, a temperature value '28 ° C' 302 input by the user terminal, The incoming detection '303 can be set as the first condition for powering up the power supply' air conditioner '.

In addition, the system for controlling the power supply of the power supply apparatus can be configured such that the power supply unit 'air conditioner' is set to a value within the average standby power 304 in the space and a progressive tax grade 'within 6 steps' The second condition for the occupied space can be set as shown in Fig. 3 (ii).

The system for controlling the power supply of the power supply apparatus is configured such that when the current time falls within the time range from 5:30 pm to 6:00 pm from the time value 301 to the previous arbitrary time point , It is possible to monitor the cumulative power consumption up to the present in the space occupied by the power supply device.

The system for controlling the power supply of the power supply device judges that the state of the space is not in conformity with the second condition " within 6 steps " if the progressive tax grade according to the cumulative power consumption is just before the seventh step, It is possible to output a notification message 307 informing execution of power to the air conditioner to the user terminal as shown in (iv) of FIG.

In this case, when 'execute' is selected by the user terminal in the notification message 307, the system controlling the power supply of the power supply device, if the current time becomes '6 pm' and satisfies the first condition, It is possible to operate the power supply of the power unit 'air conditioner' and output the execution result to the user terminal as the notification message 306 even if there is a possibility of being upgraded to the '7th step'.

FIG. 4 is a diagram illustrating an example of requesting a user terminal to perform execution of power control in a system for controlling power supply of a power supply apparatus according to an embodiment of the present invention. Referring to FIG.

4 shows an example of the notification messages 401 and 402 output to the user terminal when the current state of the space does not meet the second condition set for the space occupied by the power supply device to control the power supply .

Referring to (i) of FIG. 4, when the system for controlling the power source of the power source device is set to cut off power of the power source device 'TV' connected to the multi plug of the space 'study room' Other power devices connected to the multi-plug monitor the power use of 'computer' and 'stand', and if it is monitored while using power, it can be determined that it does not meet the second condition.

In this case, the system for controlling the power supply of the power supply device informs the other power supply 'computer' that the power is being used and informs the user terminal of a notification message 401 informing of the execution of the power off to the power supply 'TV' Can be output.

Referring to (ii) of FIG. 4, when the power source of the power unit 'humidifier' is set to be in operation at 6:00 PM, the system for controlling the power source of the power source unit, It is possible to monitor whether or not the average indoor humidity is exceeded and to determine that the current indoor humidity value does not meet the second condition when the indoor humidity value exceeds the average indoor humidity.

In this case, the system for controlling the power supply of the power supply device informs the current indoor humidity value in the space and outputs a notification message 402 for confirming whether or not the power supply to the power supply device 'humidifier' can do.

As described above, in the system for controlling the power supply of the power supply apparatus of the present invention, when the automatic power supply control is performed for the power supply apparatus satisfying the power supply control condition (first condition) previously set in each of the power supply apparatuses, It is possible to increase the utilization of the power supply control service for the power supply device by determining in advance the status of the power supply device in the space or the space in which the automatic power supply control is performed.

Hereinafter, a work flow of the system 200 for controlling the power source of the power source apparatus according to the embodiments of the present invention will be described in detail with reference to FIG.

5 is a flowchart illustrating a procedure of a method of controlling power supply of a power supply apparatus according to an embodiment of the present invention.

The method for controlling the power source of the power source apparatus according to the present embodiment may be performed by the system 200 for controlling the power source of the power source apparatus described above.

Referring to FIG. 5, in step 510, the system 200 for controlling the power supply of the power supply apparatus receives a first condition from which power of the power supply apparatus is controlled by the user.

In step 520, the system 200 for controlling the power supply of the power source sets a second status notification condition having a certain range based on the first condition when the first condition is input.

In step 530, the system 200 controlling the power supply of the power supply determines whether the second condition notification condition is satisfied.

If it is determined in step 530 that the second condition notification condition is satisfied, in step 540, the system 200 for controlling the power supply of the power supply apparatus sets the first condition together with the first condition If it is satisfied, preliminary reminders are made before the first condition is fulfilled for the possible situation of the user.

In operation 550, the system 200 for controlling the power source of the power source device controls the power source of the power source device according to the first condition when the user confirms the preliminary notification before the first condition is executed.

Accordingly, according to an embodiment of the present invention, a situation that can occur when the power supply is turned on or off according to the set power supply control condition is informed to the user in advance before the power supply control condition is satisfied, Unexpected damage and disadvantage of the user due to the control can be prevented.

6 is a flowchart illustrating a procedure of a method of controlling power supply of a power supply apparatus according to another embodiment of the present invention.

The method for controlling the power source of the power source apparatus according to the present embodiment may be performed by the system 200 for controlling the power source of the power source apparatus described above.

Referring to FIG. 6, in step 610, the system 200 for controlling the power supply of the power supply apparatus determines the first condition regarding the power supply control to the power supply apparatus and the second condition about the space occupied by the power supply apparatus Setting.

For example, the system 200 for controlling the power supply of the power supply device may be configured to operate as a power supply for each power supply device connected to the smart plug in a space (for example, Or a physical value of at least one of a time value, a temperature value, and a humidity value for executing the " power off ", as the first condition.

In addition, the system 200 for controlling the power supply of the power supply device is configured to have a progressive tax grade ('within 6 steps') according to the cumulative power consumption by the power supply devices in the space, an average standby power in the space, And data on at least one of whether or not power is used in another power source device (" no use ") as a second condition related to a space occupied by the power source device. The second condition may be set for each power supply device by the user terminal.

In step 620, the system 200 for controlling the power supply of the power supply apparatus determines whether the physical value in the space changes as the power supply apparatus operates, and touches the predetermined range based on the first condition.

For example, the system 200 for controlling the power supply of the power supply device may be configured such that when the time value (e.g., '6 PM') during which the power supply device operates in the space is set as the first condition, (For example, "5:30 pm" to "6:00 pm") from the previous time point (for example, "before 30 minutes before") to the previous time point. The system 200 for controlling the power supply of the power supply device can confirm that the touch is made when the current time falls within the time range.

If it is determined in step 620 that the physical value does not reach the predetermined range based on the first condition, the system 200 controlling the power supply of the power supply unit repeats step 620 .

As a result of the determination in step 620, if the physical value touches the predetermined range based on the first condition, the system 200 for controlling the power supply of the power supply device, in step 630, It is determined whether or not the second condition is satisfied.

For example, the system 200 for controlling the power source of the power source device may touch the above range when the first condition for controlling power to the power source device 'air conditioner' is '30 minutes before 6 pm' And monitors cumulative power consumption up to the present in the space 'home' in the same space as the power supply device, so that it can be determined whether the progressive tax grade according to the cumulative power consumption matches the second condition 'within six steps'.

As a result of the determination in step 630, if the state of the space meets the second condition, the system 200 controlling the power supply of the power supply apparatus moves to step 660, and if the physical value satisfies the first condition , The power control is executed.

For example, when the system 200 for controlling the power supply of the power supply device has a progressive grade of '5 steps' and meets the second condition, the current time becomes '6 pm' The power of the apparatus 'air conditioner' is activated, and the execution result can be outputted to the user terminal like a notification message (see 306 in FIG. 3).

Alternatively, if it is determined in step 630 that the state of the space does not match the second condition, in step 640, the system 200 for controlling the power supply of the power supply apparatus executes the execution of the power control, Request confirmation to the terminal.

For example, the system 200 for controlling the power supply of the power source device may be configured such that the progressive state of the space is not matched with the second condition " within six steps " , And a notification message (see 307 in FIG. 3) informing the execution of the power supply to the power supply unit 'air conditioner' is output to the user terminal so that the automatic power control execution can be selected.

At step 650, the system 200 controlling the power supply of the power supply unit confirms whether an acceptance response is received from the user terminal for the confirmation request.

When the permission response is received from the user terminal in step 650, the system 200 controlling the power supply of the power supply unit performs power control in step 660 as the physical value satisfies the first condition.

For example, when 'execute' is selected by the user terminal in the notification message (see 307 in FIG. 3), the system 200 for controlling the power supply of the power source device becomes' 1 condition, the power supply 'air conditioner' can be powered up even if there is a concern that the progressive tax level will be raised to '7th level'.

Alternatively, if an unauthorized response is received from the user terminal in step 650, then in step 670, the system 200 controlling the power supply of the power supply device suspends power control and, while holding the power control, And moves to step 630 to judge whether the state of the space meets the second condition.

For example, the system 200 for controlling the power supply of the power supply device may determine that the current time is '6 pm' when 'execution delay' is selected from the user terminal for the notification message (see 307 in FIG. 3) 1, it is possible to suspend power supply to the power supply device. In addition, the system 200 for controlling the power supply of the power supply device monitors whether the current power consumption in the other power supply devices in the space falls below the average standby power (for example, at intervals of one minute) It can be judged whether or not the condition of the second condition meets the second condition.

If the current power usage drops below the average standby power according to the trial, the system 200 for controlling the power supply of the power supply apparatus proceeds to step 660. As the physical value satisfies the first condition, .

As described above, according to the embodiment of the present invention, the power source apparatus satisfying the preset condition (first condition) is subjected to the power source operation or the power source cutoff, It is possible to provide an automatic power control service with high utilization for the user by determining the state of the other power source device and determining whether or not to execute the automatic power source control to the power source device.

The method according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

200: System that controls the power of the power supply
210: Setting unit 220:
230: interface unit 240: control unit
250: Monitoring section

Claims (18)

A method of controlling power of a power supply device,
Receiving a first condition that a power source of the power source device is controlled by a user;
Setting a certain range of a physical value in a space occupied by the power supply device before the first condition is changed according to time as a second situation notification condition when the first condition is input;
Determining whether the second condition notification condition is satisfied;
When the first condition is satisfied and the power supply of the power supply device is controlled, the first condition is notified to the user when the second condition notification condition is satisfied, ; ≪ / RTI > And
Controlling the power source of the power source device according to the first condition when the first condition is reached when there is a confirmation of the preliminary notification before the first condition is executed
And a power supply for controlling the power supply. The method according to claim 1,
Wherein the step of controlling the power source of the power source device according to the first condition comprises:
Turning off the power source of the power source being used or turning on the power source of the unused power source,
And a power supply for controlling the power supply. The method according to claim 1,
Wherein the setting of the second condition notification condition comprises:
When the first condition is input, automatically calculating the predetermined range by the internal logic of the power supply unit
And a power supply for controlling the power supply. The method according to claim 1,
The first condition includes a condition for a physical value of at least one of a time, a temperature, a humidity, a power consumption, an electricity charge, and a calorific value of a power supply device,
Wherein the setting of the second condition notification condition comprises:
Setting a certain range of physical values of the same kind as the first condition
And a power supply for controlling the power supply. The method according to claim 1,
The situation of the user, which may occur when the first condition is reached,
It is determined whether or not the progressive fee section of the electric power usage fee is entered, whether the lighting or sound set in the electric power unit is executable, the temperature and humidity change of the indoor space, whether the user is in operation, Including the risk of fire and the effect on the user's health as a result of continued use of the powered device
A method of controlling power of a power supply device. The method according to claim 1,
The situation of the user, which may occur when the first condition is reached,
Depending on the power off of the power supply, data loss in the power supply memory in use, interruption in the use of the power supply in use, power availability in other power supply connected to the same plug as the power supply, A forced termination, a change in temperature and humidity of the indoor space, and an effect on the health of the user due to the unused power supply device
A method of controlling power of a power supply device. The method according to claim 1,
If the user's confirmation of the preliminary notification before the execution of the first condition is not within a certain time,
Repeating the preliminary notification before the execution of the first condition at predetermined time intervals
Further comprising the steps of: 8. The method of claim 7,
If there is no confirmation by the user of the preliminary notification before the execution of the first condition that is repeated a predetermined number of times or more,
Performing power control of the power supply device according to the first condition
Further comprising the steps of: The method according to claim 1,
When the power supply to the power supply device is cut off according to the first condition,
Monitoring whether or not power is used in another power source device connected to the same plug as the power source device; And
If it is monitored that power is being used by the other power source device,
Further comprising the steps of: A system for controlling power of a power supply device,
The method of claim 1, further comprising: receiving a first condition that a power source of the power source device is controlled by a user; receiving, when the first condition is input, a physical value in a space occupied by the power source device, A setting unit for setting a second condition notification condition;
A determination unit for determining whether the second condition notification condition is satisfied;
When the first condition is satisfied and the power supply of the power supply device is controlled, the first condition is notified to the user when the second condition notification condition is satisfied, Through an interface; And
A control unit for controlling the power source of the power source device according to the first condition when the first condition is reached,
And a power supply for controlling the power supply. 11. The method of claim 10,
Wherein,
Turn off the power of the power source being used, or turn on the power source of the unused power source
Power system A system that controls the power of the equipment. 11. The method of claim 10,
Wherein,
When the first condition is input, the predetermined range is automatically calculated by the power supply internal logic
Power system A system that controls the power of the equipment. 11. The method of claim 10,
The first condition includes a condition for a physical value of at least one of a time, a temperature, a humidity, a power consumption, an electricity charge, and a calorific value of a power supply device,
Wherein,
A predetermined range of physical values of the same kind as the first condition is set
Power system A system that controls the power of the equipment. 11. The method of claim 10,
The situation of the user, which may occur when the first condition is reached,
It is determined whether or not the progressive fee section of the electric power usage fee is entered, whether the lighting or sound set in the electric power unit is executable, the temperature and humidity change of the indoor space, whether the user is in operation, Including the risk of fire and the effect on the user's health as a result of continued use of the powered device
Power system A system that controls the power of the equipment. 11. The method of claim 10,
The situation of the user, which may occur when the first condition is reached,
Depending on the power-off of the power device, data loss of the power device memory in use, interruption of the use of the power device in use, interruption of use of other power devices connected to the power device, forced termination of the running program in the background, A change in temperature and humidity of the power supply device, and an effect on the health of the user due to the unused power supply device
Power system A system that controls the power of the equipment. 11. The method of claim 10,
If the user's confirmation of the preliminary notification before the execution of the first condition is not within a certain time,
The interface unit includes:
The preliminary notification before the first condition is repeated at predetermined time intervals
Power system A system that controls the power of the equipment. 17. The method of claim 16,
If there is no confirmation by the user of the preliminary notification before the execution of the first condition that is repeated a predetermined number of times or more,
Wherein,
Wherein the power control of the power supply device according to the first condition is not executed
Power system A system that controls the power of the equipment. 11. The method of claim 10,
When the power supply to the power supply device is cut off according to the first condition,
A monitoring unit for monitoring whether power is used in another power source device connected to the same plug as the power source device;
Further comprising:
The interface unit includes:
If it is monitored that power is being used by the other power source device, preliminary notification is made before the first condition is executed
Power system A system that controls the power of the equipment.

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