KR102195042B1 - Socket remote control system and method capable of individually controlling socket through network - Google Patents

Abstract

Disclosed are an outlet remote control system for individually controlling an outlet through a network, and a method for remotely controlling the outlet. According to the present invention, an outlet remote control system for individually controlling an outlet through a network comprises: an outlet which is assigned a unique identification number, monitors power consumed by an electric device when it is connected to a plug of the electric device, and switches on/off whether current flows to the electric device; a power strip having at least one outlet; a gateway through which communication with at least one power strip is connected and for receiving a monitoring signal corresponding to the electric device from the outlet; and an outlet control server for receiving the monitoring signal from the gateway, determining standby power for the electric device based on the transmitted monitoring signal, and controlling on/off switching of the outlet according to the determination result.

Description

An outlet remote control system that individually controls outlets through a network and the outlet remote control method {SOCKET REMOTE CONTROL SYSTEM AND METHOD CAPABLE OF INDIVIDUALLY CONTROLLING SOCKET THROUGH NETWORK}

The present invention relates to an outlet remote control system and a method for remotely controlling the outlet, and more particularly, an outlet provided in at least one multi-tap through a network in a service environment such as a reading room, a study cafe, and a public office. It relates to an outlet remote control system for individually controlling an outlet through a network and a method for remotely controlling the outlet, which can individually control each of the outlets to cut off standby power.

In general, reading rooms, study cafes, and public offices allocate seats to users who have signed up as members, and provide a variety of services that meet the purpose of use such as reading rooms, study cafes, and public offices.

In particular, in service environments such as reading rooms, study cafes, and public offices, a kiosk is provided, access is controlled through the kiosk, and when the user enters, a lighting device corresponding to the user's seat, air purification Power is individually managed for each seat by controlling the power to the electric device such as the device on/off.

However, electrical devices such as lighting devices and air purifiers are generally connected to an outlet at all times. Therefore, even if the power is turned off by a kiosk, standby power is generated by the corresponding electronic device and unnecessary power consumption is generated. There is a problem.

In addition, in the case of using a kiosk to manage power for each electric device such as a reading room, a study cafe, and a common office, if a kiosk breaks down, there is a problem that it interferes with the control of the door and the use of various electric devices. have.

Registered Patent Publication No. 10-1774949 (Registration Date: 2017.08.30)

The present invention was invented to solve the above-described problem, and in a service environment such as a reading room, a study cafe, a public office, etc., each outlet provided in at least one multi-tap is individually controlled through a network to wait. An object of the present invention is to provide an outlet remote control system capable of cutting off power and individually controlling an outlet through a network, and a method for remotely controlling the outlet.

In an outlet remote control system for individually controlling an outlet through a network according to an aspect of the present invention for achieving the above object, a unique identification number is assigned, and when connected to a plug of the electric device, the electric device is An outlet for monitoring power consumed by the electric device and switching on/off whether current flows to the electric device; A power strip having at least one of the outlets; A gateway through which communication with at least one of the multi-taps is connected and for receiving a monitoring signal corresponding to the outlet; And an outlet control server receiving the monitoring signal from the gateway, determining standby power for the electric device based on the transmitted monitoring signal, and controlling on/off switching of the outlet according to the determination result. It features.

Here, the multi-tap includes a mode switching unit that switches to an automatic mode or a manual mode, and transmits a monitoring signal for the electric device to the gateway when the mode switching unit is switched to the automatic mode.

In addition, the multi-tap includes: a first communication monitoring unit for monitoring performance of communication connected to the gateway; And a mode switching control unit for switching and controlling the mode switching unit to a manual mode when the communication performance monitored by the first communication monitoring unit is less than or equal to a set value.

The gateway may include a second communication monitoring unit for monitoring performance of communication connected to the outlet control server; And a mode switching instruction unit for instructing the mode switching unit to switch to the manual mode when the communication performance monitored by the second communication monitoring unit is less than or equal to a set value. In this case, the multi-tap switches the mode switching unit to the manual mode according to the instruction of the mode switching instruction unit.

In addition, the multi-tap includes: a power consumption display unit that displays power consumption for the electric device monitored by the outlet; And a selection button activator for activating a selection button for selecting on/off whether or not current flows to the electric device when the mode conversion unit is switched to the manual mode.

In an outlet remote control method according to an aspect of the present invention for achieving the above object, in the outlet remote control method performed by the outlet remote control system, a plug of an electric device is connected to an outlet assigned a unique identification number. If so, monitoring the power consumed by the electrical device by the outlet; Transmitting, by the multi-tap, a monitoring signal corresponding to the outlet to a gateway; Transmitting, by the gateway, a monitoring signal corresponding to the electric device to an outlet control server through a network; Determining standby power for the electric device based on the monitoring signal received by the outlet control server; And controlling, by the outlet control server, on/off switching of the outlet according to the determination result of the standby power for the electric device.

The above-described outlet remote control method may include the step of switching the power strip to an automatic mode or a manual mode. In this case, the multi-tap transmits a monitoring signal for the electric device to the gateway when it is switched to the automatic mode.

The above-described outlet remote control method includes the steps of: monitoring the performance of communication connected to the gateway by the multi-tap; And switching to the passive mode when the performance of the communication monitored by the multi-tap is less than or equal to a set value.

The above-described outlet remote control method includes the steps of, by the gateway, monitoring performance of communication connected to the outlet control server; Instructing, by the gateway, to switch to the passive mode to the multi-tap when the monitored communication performance is less than or equal to a set value; And converting, by the multi-tap, to the passive mode according to the instruction of the gateway.

The above-described outlet remote control method includes the steps of: displaying power consumption for the electric device for which the outlet is monitored; And when the outlet is switched to the manual mode, activating a selection button for selecting on/off whether or not current flows to the electric device.

According to the present invention, it is possible to cut off standby power by individually controlling outlets provided in at least one multi-tap through a network in a service environment such as a reading room, a study cafe, and a public office.

In addition, according to the present invention, even if a kiosk fails in a service environment such as a reading room, a study cafe, and a public office, it is possible to stably control access doors and manage the use of various electric devices.

1 is a diagram schematically showing an outlet remote control system for individually controlling an outlet through a network according to an embodiment of the present invention.
FIG. 2 is a diagram schematically showing the configuration of the multi-tap shown in FIG. 1.
3 is a diagram schematically showing the configuration of the gateway shown in FIG. 1.
4 is a flowchart showing a method for remote control of an outlet according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described through exemplary drawings. In the description of reference numerals for elements in each drawing, the same elements are denoted by the same numerals as possible even if they are indicated on different drawings. In addition, in describing an embodiment of the present invention, when it is determined that a detailed description of a related known configuration or function interferes with an understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, terms such as first, second, A, B, (a), and (b) may be used in describing the constituent elements of the embodiment of the present invention. These terms are only used to distinguish the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, the component may be directly connected, coupled or connected to the other component, but the component and the other component It should be understood that another component may be "connected", "coupled" or "connected" between elements.

1 is a diagram schematically showing an outlet remote control system for individually controlling an outlet through a network according to an embodiment of the present invention.

Referring to FIG. 1, the outlet remote control system includes at least one outlet 10, at least one multi-tap 20, a gateway 30, a network 40, an outlet control server 50, a kiosk 60, A door 70, a partner center 80, and a manager terminal 90 may be included. Here, the network 40 is defined as a broad concept including mobile communication networks such as Code Division Multiple Access (CDMA), Wideband CDMA (WCDMA), and Long Term Evolution (LTE) as well as the Internet.

The outlet 10 is given a unique identification number, and when connected to a plug of an electric device (not shown), the power consumed by the corresponding electric device is monitored. In addition, the receptacle 10 switches on/off whether or not current flows to the electric device connected through the plug. At this time, the outlet 10 may monitor the current and voltage of the electric device connected through the plug.

The power strip 20 is provided with at least one outlet 10. At this time, the multi-tap 20 is connected to the gateway 30 and the communication, and transmits a monitoring signal of the electrical device monitored by the outlet 10 together with the identification information for the outlet 10 to the gateway 30. In this case, the multi-tap 20 has unique identification information, and it is preferable to transmit its identification information to the gateway 30 together.

The gateway 30 communicates with at least one power strip 20 and receives a monitoring signal corresponding to the outlet 10. That is, the gateway 30 includes identification information for the corresponding power strip 20 from at least one power strip 20, identification information for each outlet 10 provided in the power strip 20, and each outlet 10 It receives a monitoring signal including the current and voltage of the electric device monitored by.

The outlet control server 50 receives a monitoring signal from the gateway 30 through the network 40, determines standby power for the electric device based on the transmitted monitoring signal, and responds to the outlet 10 according to the determination result. ) To switch on/off. In this case, the outlet control server 50 may calculate the amount of power consumed by the electric device connected to the outlet 10 by using the monitoring signal of the current and voltage received in response to the outlet 10. In addition, the outlet 10 may calculate the power factor for the corresponding electric device.

Commercial power is generally 60Hz AC power, and the power factor value varies depending on whether the electric device is composed of a resistive load or an inductive load. That is, the power factor can be expressed as the ratio of active power and reactive power. In the case of a resistive load such as a heater such as an incandescent lamp or an electric pad, the power factor is 1, but the inductive load of a refrigerator or washing machine equipped with a fluorescent lamp or motor is a voltage Depending on the phase difference of the overcurrent, the power factor value may decrease or may be calculated as a value close to 1.

The outlet control server 50 may determine standby power of an electric device corresponding to the outlet 10 by comparing the calculated amount of power and power factor with a preset reference value. In addition, the outlet control server 50 determines standby power of the electric device corresponding to the outlet 10 based on the calculated amount of power and power factor, and turns on/off the outlet 10 according to the determined result to control the standby power. Power can be cut off. The method of determining the standby power of the electric device corresponding to the outlet 10 by the outlet control server 50 is not limited to the described method, and various known standby power determination methods may be used.

2 is a diagram schematically showing the configuration of a power strip used in an outlet remote control system according to an embodiment of the present invention.

2, the multi-tap 20 according to the embodiment of the present invention includes a mode switching unit 21, a first communication monitoring unit 22, a mode switching control unit 23, a power consumption display unit 24, and a selection button. It may include an activation unit 25.

The mode switching unit 21 switches to an automatic mode or a manual mode. Here, the automatic mode activates the communication function of the multi-tap 20, transmits the monitoring signal received from the outlet 10 to the outlet control server 50 through the network 40, and controls the outlet control server 50 It refers to an operation mode for switching on/off the outlet 10 according to the following. In addition, the manual mode refers to an operation mode in which each outlet 10 in the power strip 20 is switched on/off by a user or a keyist. At this time, the multi-tap 20 transmits a monitoring signal for the electric device received from the outlet 10 to the gateway 30 when the mode switching unit 21 is switched to the automatic mode.

The first communication monitoring unit 22 monitors the performance of communication connected to the gateway 30. At this time, the first communication monitoring unit 22 transmits a performance monitoring signal to the gateway 30 at a set period, and is connected to the gateway 30 according to whether there is a response signal received within a set time in response to the transmitted performance monitoring signal. Can judge the performance of communication. However, the communication performance monitoring method described herein is only an example to aid understanding of the invention, and the first communication monitoring unit 22 may monitor the performance of communication connected to the gateway 30 in various ways.

When the performance of the communication monitored by the first communication monitoring unit 22 is less than or equal to a set value, the mode switching control unit 23 switches and controls the mode switching unit 21 to a manual mode. That is, when the performance of the communication monitored by the first communication monitoring unit 22 is less than or equal to a set value, the mode switching control unit 23 determines that a communication error has occurred in the communication line connected to the gateway 30 or the gateway 30. According to this, the mode switching unit 21 is switched to the manual mode so that control is possible by the user or the kiosk 60.

The power consumption display unit 24 displays power consumption for an electric device monitored by the outlet 10. In this case, the power consumption display unit 24 may display the power consumption of the electric device monitored by each outlet 10 in correspondence to each outlet 10 provided in the power strip 20. In this case, the power consumption display unit 24 displays the presence or absence of standby power in different colors corresponding to each outlet 10, or calculates a value of standby power based on a monitoring signal received from the outlet 10 , The calculated value can be displayed as a numerical value.

When the mode switching unit 21 is switched to the manual mode, the selection button activating unit 25 activates a selection button for selecting on/off whether or not current flows to the electric device. That is, the selection button activating unit 25 enables the user to select on/off whether or not the current flows to the electric device corresponding to the outlet 10 when the mode switching unit 21 is switched to the manual mode. At this time, when the user does not press the selection button, current flows into the corresponding electric device in the same way as a general outlet, and current flowing into the corresponding electric device when the user presses the selection button may be blocked.

Through this, the outlet remote control system according to an embodiment of the present invention allows the outlet control server to remotely control each outlet through a network in normal times, and in the event of a network failure, standby power is reduced according to the user's selection. Make it possible to block it.

3 is a diagram schematically showing the configuration of a gateway used in an outlet remote control system according to an embodiment of the present invention.

Referring to FIG. 3, the gateway 30 according to an embodiment of the present invention may include a second communication monitoring unit 32 and a mode change instruction unit 34.

The second communication monitoring unit 32 monitors the performance of communication connected to the outlet control server 50. At this time, the second communication monitoring unit 32 transmits a performance monitoring signal to the outlet control server 50 at a set period, and according to whether or not there is a response signal received within a set time in response to the transmitted performance monitoring signal, the outlet control server ( 50) can determine the performance of the connected communication. However, the communication performance monitoring method described herein is only an example to aid understanding of the invention, and the second communication monitoring unit 32 may monitor the performance of communication connected to the outlet control server 50 in various ways.

The mode change command unit 34 instructs the mode change unit 21 of the multi-tap 20 to switch to the manual mode when the communication performance monitored by the second communication monitoring unit 32 is less than or equal to a set value. In this case, the mode switching unit 21 switches to the manual mode according to the instruction of the mode switching instruction unit 34.

Through this, the outlet remote control system according to an embodiment of the present invention allows the outlet control server to remotely control each outlet through a network in normal times, and in the event of a network failure, standby power is reduced according to the user's selection. Make it possible to block it.

4 is a flowchart showing a method for remote control of an outlet according to an embodiment of the present invention. The outlet remote control method according to an embodiment of the present invention may be performed by the above-described outlet remote control system.

1 to 4, the outlet 10 is assigned a unique identification number, and when connected to the plug of the electrical device, the power consumed by the electrical device is monitored (S102). At this time, the outlet 10 may monitor the current and voltage of the electric device connected through the plug. In addition, the receptacle 10 may switch on/off whether or not current flows to an electric device connected through a plug.

The power strip 20 is provided with at least one outlet 10. Further, the multi-tap 20 can be switched to an automatic mode or a manual mode. Here, the automatic mode activates the communication function of the multi-tap 20, transmits the monitoring signal received from the outlet 10 to the outlet control server 50 through the network 40, and controls the outlet control server 50 It refers to an operation mode for switching on/off the outlet 10 according to the following. In addition, the manual mode refers to an operation mode in which each outlet 10 in the power strip 20 is switched on/off by a user or a keyist. At this time, the multi-tap 20 may transmit a monitoring signal for the electric device received from the outlet 10 to the gateway 30 when the power is switched to the automatic mode.

The multi-tap 20 monitors the performance of the communication connected to the gateway 30 (S104). At this time, the multi-tap 20 transmits a performance monitoring signal to the gateway 30 at a set period, and the performance of the communication connected to the gateway 30 is determined according to whether there is a response signal received within a set time in response to the transmitted performance monitoring signal. I can judge. However, the communication performance monitoring method described herein is only an example to aid understanding of the invention, and the multi-tap 20 may monitor the performance of communication connected to the gateway 30 in various ways.

When the performance of the communication connected to the gateway 30 is greater than or equal to a set value (S106), the power strip 20 transmits a monitoring signal of the electric device monitored by the outlet 10 together with the identification information for the outlet 10. 30) is transmitted (S108). In this case, the multi-tap 20 has unique identification information, and it is preferable to transmit its identification information to the gateway 30 together.

The gateway 30 communicates with at least one power strip 20 and receives a monitoring signal corresponding to the outlet 10. That is, the gateway 30 includes identification information for the corresponding power strip 20 from at least one power strip 20, identification information for each outlet 10 provided in the power strip 20, and each outlet 10 It receives a monitoring signal including the current and voltage of the electric device monitored by.

The gateway 30 monitors the performance of communication connected to the outlet control server 50 (S110). At this time, the gateway 30 transmits a performance monitoring signal to the outlet control server 50 at a set period, and is connected to the outlet control server 50 according to whether there is a response signal received within a set time in response to the transmitted performance monitoring signal. Can judge the performance of communication. However, the communication performance monitoring method described herein is only an example to aid understanding of the invention, and the gateway 30 may monitor the performance of communication connected to the outlet control server 50 in various ways.

When the performance of communication connected to the outlet control server 50 is greater than or equal to the set value (S112), the gateway 30 transmits the monitoring signal received from the power strip 20 to the identification information of the outlet 10 and the identification information of the power strip 20. And transmits to the outlet control server 50 together with their identification information (S114).

The outlet control server 50 receives a monitoring signal from the gateway 30 through the network 40, determines standby power for the electric device based on the transmitted monitoring signal (S116), and responds according to the determination result. On/off switching control of the outlet 10 is performed (S118). In this case, the outlet control server 50 may calculate the amount of power consumed by the electric device connected to the outlet 10 by using the monitoring signal of the current and voltage received in response to the outlet 10. In addition, the outlet 10 may calculate the power factor for the corresponding electric device.

Commercial power is generally 60Hz AC power, and the power factor value varies depending on whether the electric device is composed of a resistive load or an inductive load. That is, the power factor can be expressed as the ratio of active power and reactive power. In the case of a resistive load such as a heater such as an incandescent lamp or an electric pad, the power factor is 1, but the inductive load of a refrigerator or washing machine equipped with a fluorescent lamp or motor is a voltage Depending on the phase difference of the overcurrent, the power factor value may decrease or may be calculated as a value close to 1.

The outlet control server 50 determines standby power of the electric device corresponding to the outlet 10 based on the calculated amount of power and power factor, and controls the on/off switching of the outlet 10 according to the determined result to control standby power. Can be blocked.

On the other hand, when the performance of communication to the gateway 30 monitored by the multi-tap 20 or the communication performance to the outlet control server 50 monitored by the gateway 30 is less than or equal to a set value (S106, S112) , The multi-tap 20 switches to the manual mode (S120).

In this case, the power strip 20 may display power consumption for the electric device monitored by the outlet 10 (S122). In this case, the power strip 20 may display power consumption for the electric device monitored by each outlet 10 in correspondence with each outlet 10. In addition, the power strip 20 displays the presence or absence of standby power in different colors corresponding to each outlet 10, or calculates a value of standby power based on a monitoring signal received from the outlet 10, and Values can be expressed numerically.

In addition, when the multi-tap 20 is switched to the manual mode, the multi-tap 20 activates a selection button for selecting on/off whether or not current flows to the electric device (S124). That is, the multi-tap 20 allows the user to select on/off whether or not current flows into the electric device corresponding to the outlet 10 when it is switched to the manual mode. At this time, when the user does not press the selection button, current flows into the corresponding electric device in the same way as a general outlet, and current flowing into the corresponding electric device when the user presses the selection button may be blocked.

Through this, the outlet remote control system according to the embodiment of the present invention allows the outlet control server to remotely control each outlet through a network in normal times, and in case of a failure on the network, standby power is reduced according to the user's selection. Make it possible to block it.

Although the embodiments according to the present invention have been described above, these are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent ranges of embodiments are possible therefrom. Therefore, the scope of protection of the present invention should be determined not only by the following claims, but also by those equivalents thereto.

Claims (10)

A unique identification number is given, and when connected to a plug of an electrical device, the power consumed by the electrical device is monitored, and whether current flows into the electrical device is switched on or off. Power socket;
A power strip having at least one of the outlets;
A gateway through which communication with at least one of the multi-taps is connected and for receiving a monitoring signal corresponding to the outlet; And
An outlet control server receiving the monitoring signal from the gateway, determining standby power for the electric device based on the transmitted monitoring signal, and controlling on/off switching of the outlet according to the determination result;
Including, the multi-tap,
A mode switching unit for switching to an automatic mode or a manual mode;
A first communication monitoring unit for monitoring performance of communication connected to the gateway;
A mode switching control unit for switching and controlling the mode switching unit to a manual mode when the communication performance monitored by the first communication monitoring unit is less than or equal to a set value; And
A selection button activating unit for activating a selection button for selecting on/off whether or not current flows to the electric device when the mode switching unit is switched to the manual mode;
Including,
The first communication monitoring unit transmits a performance monitoring signal to the gateway at a set period, and determines the performance of the communication connected to the gateway according to whether a response signal is received from the gateway within a set time in response to the transmitted performance monitoring signal. And, when the performance of communication connected to the gateway is greater than or equal to a set value, the communication function of the multi-tap is activated and a monitoring signal corresponding to the outlet is transmitted to the gateway,
The outlet control server is an outlet remote control system for individually controlling outlets through a network, characterized in that the outlet control switching on/off corresponding to the monitoring signal received through the gateway. delete delete The method of claim 1,
The gateway,
A second communication monitoring unit for monitoring performance of communication connected to the outlet control server; And
A mode switching instruction unit for instructing the mode switching unit to switch to a manual mode when the communication performance monitored by the second communication monitoring unit is less than or equal to a set value;
Including,
The power outlet remote control system for individually controlling the outlet through a network, wherein the multi-tap converts the mode switching unit to a manual mode according to an instruction of the mode switching instruction unit. The method of claim 1 or 4,
The multi-tap,
A power consumption display unit that displays power consumption for the electric device monitored by the outlet;
Outlet remote control system for individually controlling the outlet through a network, characterized in that it further comprises. In the outlet remote control method performed by an outlet remote control system in which the outlet control server is connected to a power strip including at least one outlet through a gateway,
When a plug of an electric device is connected to the outlet to which a unique identification number is assigned, monitoring power consumed by the electric device by the outlet;
Monitoring the performance of communication connected to the gateway by the multi-tap;
Transmitting, by the multi-tap, a monitoring signal corresponding to the outlet to the gateway when the performance of communication connected to the gateway is greater than a set value;
Transmitting, by the gateway, a monitoring signal corresponding to the electric device to an outlet control server through a network;
Determining standby power for the electric device based on the monitoring signal received by the outlet control server;
Controlling, by the outlet control server, on/off switching of the outlet according to a determination result of standby power for the electric device;
Switching the multi-tap to a passive mode when the communication capability connected to the gateway is less than or equal to a set value; And
Activating a selection button for selecting on/off whether or not current flows into the electric device when the multi-tap is switched to the manual mode;
Including,
In the step of monitoring the performance of the communication connected to the gateway by the multi-tap, the multi-tap transmits a performance monitoring signal to the gateway at a set period, and whether a response signal is received from the gateway within a set time corresponding to the transmitted performance monitoring signal. Determines the performance of the communication connected to the gateway according to whether or not, and when the performance of the communication connected to the gateway is greater than or equal to a set value, activates the communication function of the multi-tap to transmit a monitoring signal corresponding to the outlet to the gateway,
The outlet control server is an outlet remote control method, characterized in that for switching on / off the outlet corresponding to the monitoring signal received through the gateway. delete delete The method of claim 6,
Monitoring, by the gateway, performance of communication connected to the outlet control server;
Instructing, by the gateway, to switch to the passive mode to the multi-tap when the monitored communication performance is less than or equal to a set value; And
Switching, by the multi-tap, to the passive mode according to an instruction of the gateway;
Outlet remote control method further comprising a. The method of claim 6 or 9,
Displaying, by the power strip, power consumption for the electric device monitored by the outlet;
Outlet remote control method further comprising a.

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