KR101294365B1 - Apparatus and method for controlling energy usage with intuitive user interface on touch screen - Google Patents

Abstract

An apparatus and method for controlling power usage using an intuitive UI by a touch screen are provided. The power usage control device displays the information on the use of power by zones and displays a touch screen for selecting one of the zones from the user, a communication unit connected to communicate with the control module for controlling the distribution panel, and the user touch screen. It includes a control unit for transmitting a power supply control command for the selected area through the communication unit to the control module. As a result, the user can intuitively grasp the current state of the power usage through the intuitive UI by the touch screen, and can immediately perform the energy saving action by intuitively inputting the power usage control command.

Description

CONTROL AND METHOD OF POWER USAGE USING INTUITIVE WIFI WITH A TOUCH SCREEN {APPARATUS AND METHOD FOR CONTROLLING ENERGY USAGE WITH INTUITIVE USER INTERFACE ON TOUCH SCREEN}

The present invention relates to a power usage control apparatus and method, and more particularly, to a power usage control apparatus and method that allows a user to receive information regarding the power usage and input a control command related to the power usage.

Existing energy use feedback system collects the power consumption of electric devices connected to the module by using a smart meter or a module that transmits a wireless signal such as ZigBee to the power source coming from the wall, so that IHD (In-Home Display), etc. By using the feedback of the power consumption information in the home helps the residents in the home to efficiently recognize the current state of electrical energy use.

In addition, by adding a power cut-off function using a relay to the module, it provides a function to increase energy use efficiency by cutting off standby power when the electric device is not in use.

This energy use feedback and control function is enabled by WiFi and 3G / 4G-based smartphones, providing the ability to control the home electrical equipment from a distance even when not at home.

However, it is difficult for home residents to understand the power usage information, and it is difficult to find an intuitive answer about how to use the power usage information to take practical actions to improve the energy efficiency of the home.

In addition, IHD is often attached to the wall of the living room, which is a common place, and after a certain time from the initial IHD installation, the residential residents are less interested in the information access to energy use.

Smartphone app based energy usage feedback and control method also has the advantage of a portable interface by providing a mobile function, but as the frequency of running the app decreases over time, access to energy usage information and control is inferior. have.

Patent Registration No. 10-0963161 (2010.06.10.) Patent Registration No. 10-0953403 (2010.04.19.) Patent Publication No. 10-0909598 (2009.07.24): Standby power control and power consumption display device using an outlet having a standby power / constant power selection function

The present invention has been made to solve the above problems, and an object of the present invention is to provide an apparatus and method for controlling power usage using an intuitive UI by a touch screen.

According to an aspect of the present invention, there is provided a power use control apparatus, including: a touch screen that displays information on whether power is used for each zone and selects one of the zones from a user; A communication unit connected to communicate with a control module that controls the distribution panel; And a control unit which transmits a power supply control command for the area selected by the user through the touch screen to the control module through the communication unit.

The power usage control device may be attached to an indoor side of the door.

In addition, the controller may separately display a power use zone and a power free zone on the touch screen.

The controller may differently display a color of the power usage area and a color of the power usage area.

In addition, the controller may display information on power devices located in a power usage area on the touch screen.

On the other hand, the power usage control method according to another embodiment of the present invention, the step of displaying the information on whether or not to use the power for each zone; Selecting one of the zones displayed in the display step from a user; And transmitting a power supply control command for the zone selected in the selection step to a control module that controls the distribution panel.

As described above, according to the present invention, it is possible to intuitively grasp the current state of power usage through an intuitive UI by the touch screen, and to immediately perform an energy saving action by intuitively inputting a power usage control command. Will be.

In addition, when the power usage control device is installed in the entrance door of the apartment, it is possible to increase the accessibility of the resident's power usage information when entering or leaving the apartment. If you do not know whether you need to use the power of the) is determined that you do not need to use it can immediately cut off the power use of the area.

In addition, the location of the power use control device is close to the distribution panel, it is possible to minimize the installation cost.

1 is a view showing a power usage control apparatus according to an embodiment of the present invention,
2A is a view provided to explain how a user inputs a power down command through a touch screen;
2b is a view showing a result of executing a power off command;
3 is a detailed block diagram of the power usage control device shown in FIG.
4 is a flowchart provided to explain a power usage control method according to another embodiment of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

1 is a view showing a power usage control apparatus according to an embodiment of the present invention. As shown in FIG. 1, the power usage control device 100 is attached to the interior side of the front door 10. It is preferable that the attachment height is the height of the line of sight of the user.

In addition, the power usage control device 100 is connected to communicate with the control module 200. In FIG. 1, the power usage control device 100 and the control module 200 are connected to each other so as to communicate by wire. However, this is merely an example for convenience of description and does not exclude a wireless connection.

The power usage control apparatus 100 includes a touch screen 110, and displays the current state of power usage in an intuitive user interface through the touch screen 110 to guide the user. In addition, the power usage control apparatus 100 displays the power usage status by zone.

In fact, as shown in FIG. 1, it can be seen that the power usage status is displayed on the touch screen 110 by being divided into 'home room', 'living room', 'room', 'porch', and 'kitchen'. The marked 'room' and 'kitchen' represent areas that are currently using power, while the shaded 'living room', 'room' and 'porch' represent areas that are not currently using power.

In FIG. 1, the regions using power and the regions not using power are shown through shading, but they may be distinguished and displayed in a manner other than shading.

For example, color coding makes it possible to distinguish between zones that use power and zones that do not use power. For example, an area currently using power may be represented by "red", and an area not currently using power may be represented by "green".

Meanwhile, the power usage control device 100 receives a power supply / blocking command from the user through the touch screen 110 and transmits the command to the control module 200.

The control module 200 controls the switching operation of the distribution panel 300, and ultimately controls the indoor power supply for each zone. Control of the distribution panel 300 by the control module 200 depends on a control command transmitted from the power usage control apparatus 100.

The distribution panel 300 is generally located near the front door 10. The distribution panel 300 switches the power to supply / block power for each indoor zone, reads the power consumption, and automatically cuts off the power when an overload occurs.

The power supply / blocking command through the touch screen 110 of the power usage control device 100 and the power supply / blocking according thereto are also divided into zones.

Specifically, as shown in FIG. 2A, when the user touches 'home' among the areas shown on the touch screen 110, the power usage control device 100 is supplied to the control module 200 as 'home'. Command to turn off the power.

Thereafter, when the control module 200 controls the switching state of the distribution panel 300 so that the power supplied to the 'room' is cut off, the shadow of the 'room' disappears from the touch screen 110 as shown in FIG. 2B. This means that the power supply to the 'home' is cut off.

On the other hand, it is also possible to input the power supply command in addition to the power off command through the touch screen 110. For example, when the user touches the 'living room' which is not the shaded area (that is, the area that is currently turned off) among the areas displayed on the touch screen 110, the power usage control device 100 controls. Command the module 200 to supply power to the 'living room'.

Then, when the control module 200 controls the switching state of the distribution panel 300 so that power is supplied to the 'living room', shadows appear in the 'living room' on the touch screen 110, which means that power is supplied to the 'living room'. Means that it is supplied.

Hereinafter, the internal configuration of the power usage control device 100 shown in FIG. 1 will be described in detail with reference to FIG. 3. 3 is a detailed block diagram of the power usage control device 100 shown in FIG.

As shown in FIG. 3, the power usage control device 100 includes a touch screen 110, a controller 120, and a communication unit 130.

The touch screen 110 functions as a display for displaying a current state of power usage, and serves as a user input means for receiving a power supply / blocking command from a user. In addition, the communication unit 130 establishes and maintains a communication connection with the control module 200.

The controller 120 provides the power usage status to the user through the touch screen 110, and the power supply / blocking command input by the user through the touch screen 110 to the control module 200 through the communication unit 130. To control power usage.

This process will be described in detail with reference to FIG. 4. 4 is a flowchart provided to explain a power usage control method according to another embodiment of the present invention.

As shown in FIG. 4, first, when it is detected that the user approaches (S410-Y), the controller 120 displays the indoor power usage status by zone on the touch screen 110 (S420).

Step S410 may be omitted as an optional step. User approach detection in step S410, it is possible using a proximity sensor (not shown), it is also possible to use a proximity sensor for automatically lighting the front door with the front door (10).

In step S420, the power use zone and the power non-use zone appear separately on the touch screen 110, so that the user can intuitively grasp the indoor power usage status at the moment when approaching the front door 10 to go out. In addition, it is possible to check the area where the power is supplied even though the power supply is unnecessary.

Therefore, when the user selects the area recognized by the user through the touch screen 110 even though the power supply is unnecessary (S430-Y), the control unit 120 cuts power to the area selected by the user in step S430. The command is transmitted to the control module 200 through the communication unit 130 (S440).

Accordingly, the control module 200 controls the switching state of the distribution panel 300 according to the power cut command received through the step S440, and upon completion, transmits a power cut complete response for the selected section to the power usage control device 100. do.

When receiving the power off completion response from the control module 200 (S450-Y), the control unit 120 performs the step S420 again to display the changed indoor power usage status by zone.

Step S420 is re-executed and the touch screen 110 appears to be cut off from the power supply to the area selected in step S430. The user can confirm that the power is cut off in the area selected by the user.

On the other hand, when performing step S420, the control unit 120 may display on the touch screen 110 how much the energy efficiency has risen by turning off the power to the selected area, to guide the user.

Up to now, preferred embodiments of the power usage control device and method have been described in detail.

In the above embodiment, it is assumed that only the zones are displayed separately on the touch screen 110, but it is possible to further display and provide detailed information about the zones. For example, separate zones may be displayed, but further information about the power devices located in each zone (used in each zone) may be displayed for the user to refer to when selecting the zones to be cut off. have.

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, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

10: front door
100: power control device 110: touch screen
120: control unit 130: communication unit
200: control module 300: distribution panel

Claims (6)

A touch screen that divides information on whether power is used by zones and displays them together on one screen as different graphic items and receives one of the zones from a user;
A communication unit connected to communicate with a control module that controls the distribution panel; And
And a control unit for transmitting a power supply control command for the area selected by the user through the touch screen to the control module through the communication unit.
The control unit,
When the user's approach is detected through a proximity sensor used to automatically light the front door light, the color of the power usage zone and the color of the power usage zone are displayed differently, so that the touch of the power usage zone and the power usage zone is touched. It is displayed separately on one screen on the screen,
The touch screen,
Electric power control device characterized in that attached to the interior side of the front door at the height of the user's line of sight.
delete delete delete The method of claim 1,
The control unit,
The power usage control apparatus, characterized in that for displaying on the touch screen information on the power usage devices located in the power usage area.
Detecting a user's approach with a proximity sensor used to automatically light the front door light;
When the user's approach is detected in the sensing step, dividing information on whether power is used for each zone into different graphic items on one screen on the touch screen;
Selecting one of the zones displayed in the display step from the user; And
And transmitting a power supply control command for the zone selected in the selection step to a control module that controls the distribution panel.
In the displaying step,
By displaying the color of the power usage zone and the color of the power usage-free zone differently, the power usage zone and the power usage-free zone are separately displayed on the one screen,
The touch screen,
Electric power control method characterized in that attached to the indoor side of the front door at the height of the user's line of sight.

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