KR100613577B1 - Apparatus for controlling a power in home network system - Google Patents

Abstract

The present invention is to install a battery in each of the home appliances connected by the home network, and then to charge the night battery in the built-in battery, and to control the power by using the power charged at the power peak, the configuration for this is commercial The power supply unit receives the power and converts the power into DC power, the battery charging the DC power, and the power peak value are analyzed. If the current state is the power peak value, the relay driving signal to the battery is provided. If the power peak value is analyzed and the current state is not the power peak value, the control unit provides a relay drive signal to the power supply, and if the relay drive signal is a relay drive signal to the battery, the relay path to the power supply is blocked. Connect the relay path to the battery and receive DC power charged in the battery. When the relay drive signal is a relay drive signal to the power supply unit, the relay path to the capacitor is cut off and the relay path to the power supply unit is connected to the switching unit for receiving the DC power applied to the power supply unit to switch to the control unit. Include. Therefore, when power consumption is peaked at the same time in many homes, not in one home, the power supply can smoothly supply the power supply to prevent the occurrence of a power failure in advance, and also accumulate battery Since it uses cheap midnight power, it is possible to reduce the user's electricity bill.

Description

Power control device for home network system {APPARATUS FOR CONTROLLING A POWER IN HOME NETWORK SYSTEM}

1 is a view showing a schematic configuration of a conventional home network,

2 is a block diagram illustrating a power control device of a home network system according to the present invention;

3 is a detailed flowchart for the operation of the power control device of the home network system according to the present invention.

<Description of the symbols for the main parts of the drawings>

10-1, ..., 10-n: Home appliance 11-1: Power supply

12-1: storage battery 13-1: switching unit

14-1: control unit 20: IP splitter

30: management server

S10: power supply S20: home appliance driving unit

S30: Network Department

The present invention relates to a power control device of a home network system. In more detail, after charging a late-night power to a battery in a home appliance connected to a home network, the power can be controlled using the charged power at a power peak. It relates to a device that can.

As is well known, home automation for automatically controlling home appliances in each home, or remotely at home, is nearing commercialization.

In the early stages of home automation, each device was controlled separately using a telephone or an infrared ray, and no connection was made between each device, but now, a communication network is used to establish a network between home appliances and control the network. We are using a method that allows integrated management.

That is, FIG. 1 is a diagram illustrating a schematic configuration of a home network that is commercially available. Referring to FIG. 1, a plurality of home appliances 20, 30, 40, and 50 are connected to a network management product 10 and a network management product 10.

As described above, when a plurality of home appliances (20, 30, 40, 50) are connected and used at the same time, the power consumption is a peak value and the overload occurs. In other words, when power consumption is peaked at the same time in a plurality of homes, not in one home, a power supply can not properly supply power, there is a problem that a power outage occurs.

 Accordingly, the present invention has been made to solve the above problems, the purpose of which is to store a battery in each of the home appliances connected to the home network, and then charge the late-night power in the built-in battery, the charge at the power peak The present invention provides a power control apparatus of a home network system that can control power by using power.

In the present invention for achieving the above object, the power control apparatus of the home network system is provided with a commercial power supply to convert the DC power supply to supply the power supply, the battery to charge the DC power, and analyze the power peak value details A control unit for providing a relay drive signal to the battery when the current state is a power peak value, and analyzing the power peak value details and providing a relay drive signal to a power supply unit when the current state is not a power peak value, and a relay; When the drive signal is a relay drive signal to the battery, the relay path to the power supply is cut off and the relay path to the battery is connected to receive the DC power charged in the battery and switch to the controller, and the relay drive signal is connected to the power supply. In the case of a relay drive signal, the relay path to the capacitor By connecting a relay path to the supply receiving portion providing a direct-current power supply is a power supply characterized in that it comprises a switch for switching to the control unit.

Hereinafter, a plurality of embodiments of the present invention may exist, and a preferred embodiment will be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate the objects, features and advantages of the present invention through this embodiment.

2 is a block diagram illustrating a power control device of a home network system according to the present invention, a plurality of home appliances (10-1, ..., 10-n), and Internet Protocol (IP). The distributor 20 and the management server 30 is included.

Any of the home appliances 10-1 among the plurality of home appliances 10-1,..., 10-n receives an AC power of 110V to 220V, which is a commercial power source, and converts the battery into a DC power source. ) And a power supply unit 11-1 for supplying the switching unit 13-1, a storage battery 12-1 for charging the DC power provided from the power supply unit 11-1, and a control unit 14-1. When a relay drive signal is provided from the controller, if the relay drive signal provided is a relay drive signal to the battery 12-1, the relay path to the power supply 11-1 is blocked and the relay path to the battery 12-1 is disconnected. Connected to receive the DC power charged in the battery 12-1 and switch to the control unit 14-1, when the provided relay drive signal is a relay drive signal to the power supply unit 11-1, capacitor 12-1 ) And disconnect the relay path to the power supply unit 11-1 to connect the DC power applied to the power supply unit 11-1. When the switching unit 13-1 and the home appliance driving command and power peak value details provided from the IP splitter 20 through the network unit S30 are provided to the controller 14-1, If the power peak value is analyzed and the current state is the power peak value, the relay driving signal to the battery 12-1 is provided to the switching unit 13-1, and the power peak value is analyzed to determine the current state. If it is not the power peak value, the relay driving signal to the power supply unit 11-1 is provided to the switching unit 13-1, and the power provided through the switching unit 13-1 is supplied to the home appliance driving unit S20. The control unit 14-1 is provided.

The IP splitter 20 distributes the path of the Internet protocol. When the corresponding home appliance is selected by the management server 30, the IP distributor 20 distributes the IP corresponding to the selected home appliance and makes a route. The command and the power peak value are received from the management server 30 and provided to the home appliance 10-1 in which the path is made.

The management server 30 is connected to the power supply source S10 (for example, KEPCO) to the home appliance selection command, the home appliance driving command to the selected home appliances and the power peak details to the IP splitter 20. to provide.

Referring to the flowchart of FIG. 3, the operation of the power control device of the home network system according to the present invention will be described in more detail based on the above-described configuration.

First, the home network system is composed of a network structure as shown in Figure 2, the home structure, a plurality of home appliances (10-1, ..., 10-n) is connected to the IP splitter 20 In these home appliances 10-1, ..., 10-n, storage batteries 12-1, ..., 12-n are incorporated, respectively. In addition, each of the plurality of home appliances 10-2,..., 10-n has a power supply unit 11-2,. (12-2, ..., 12-n), switching unit (13-2, ..., 13-n), control unit (14-2, ..., 14-n), home appliance driving unit (S20) ) And the network unit S30.

And, the management server 30 and the power supply source (S10) can form a variety of partnerships, for example, in the case of a power peak using the power charged in the storage battery, the power supply 11-1 is a commercial power source It is assumed that an AC power source of 110V to 220V is supplied in a late night time zone (for example, a time zone from 10 pm to 8 am next day) to be converted into DC power and supplied to the storage battery 12-1 and the switching unit 13-1.

The management server 30 is connected to the power supply source S10 (for example, Korea Electric Power Corporation), the home appliance selection command from the power supply source S10, the home appliance driving command to the home appliance selected by the selection command, and the power peak The value details are provided, and the provided home appliance selection instruction, the home appliance driving instruction to the home appliances selected by the selection instruction, and the power peak value details are provided to the IP distributor 20 (step 301).

When the home appliance selection command is provided from the management server 30, the IP distributor 20 distributes the IP path to the home appliance (for example, the home appliance 10-1) corresponding thereto (step 302). Thereafter, the IP splitter 20 makes a path to the home appliance 10-1, and then displays the home appliance driving command and power peak value details provided from the management server 30 in the home appliance 10-1 network unit. The control unit 14-1 supplies the control unit 14-1 through step S30 (step 303).

The control unit 14-1 in the home appliance 10-1 provides details of the power peak value when the home appliance driving command and the power peak value details are provided from the IP splitter 20 through the network unit S30. Analyze and determine (step 304).

As a result of the determination 304, if the current state is the power peak value, the relay driving signal to the battery 12-1 is provided to the switching unit 13-1 (step 305).

Since the relay driving signal provided from the controller 14-1 is a relay driving signal to the storage battery 12-1, the switching unit 13-1 cuts off the relay path to the power supply unit 11-1, and the storage battery 12- The relay path 1) is connected to receive the DC power charged in the battery 12-1 and switch to the controller 14-1 (step 306).

Thus, the controller 14-1 supplies the charged DC power provided through the switching unit 13-1 to the home appliance driver S20 (step 307).

On the other hand, if the determination 304 indicates that the current state is not the power peak value, the relay driving signal to the power supply 11-1 is provided to the switching unit 13-1 (step 308).

Since the relay driving signal provided from the control unit 14-1 is a relay driving signal to the power supply unit 11-1, the switching unit 13-1 blocks the relay path to the storage battery 12-1 and the power supply unit 11-1. A relay path to -1) is connected to receive the DC power applied to the power supply 11-1 to switch to the control unit 14-1 (step 309).

Accordingly, the controller 14-1 supplies the applied DC power provided through the switching unit 13-1 to the home appliance driver S20 (step 310).

Therefore, by embedding a battery in each of the home appliances connected by the home network, and then charge the late-night power to the built-in battery, and to drive the home appliances using the power charged during the power peak, a plurality of homes, not one When power consumption peaks at the same time in the home, the power supply source can smoothly supply the power supply to prevent the occurrence of a power outage in advance, and also because the battery power source uses cheap night power In addition, the user's electricity bill can be reduced.

In addition, since the present invention is disclosed as a right within the spirit and claims of the present invention, the present invention may include any modification, use and / or adaptation using general principles, and the present invention as a matter deviating from the description of the present specification. It includes everything that falls within the scope of known or customary practice in the art to which it belongs and falls within the scope of the appended claims.

As described above, the present invention by embedding a battery in each of the home appliances connected by a home network, by charging the built-in battery in the late-night power, by driving the home appliances using the power charged during the peak power, If the power consumption peaks at the same time in many homes, not in one home, the power supply can smoothly supply the power supply to prevent the occurrence of a power outage in advance, and also the power supply of the battery Since it uses cheap midnight power, there is an effect that can reduce the user's electricity bill.

Claims (3)

The home appliance selection command from the power supply source, the home appliance selection command to the home appliance selected by the selection command, and the power supply selection details provided by the management server provided with the details of the power peak value, A power control device of a home network system that provides a home appliance driving command to a home appliance and details of power peak values to the selected home appliance. A power supply unit which receives commercial power and converts it into a DC power supply; A storage battery for charging the DC power supply; Analyzing the power peak value details provided from the management server to provide a relay drive signal to the battery when the current state is the power peak value, and breaks down the power peak value details to analyze the current peak state is not the power peak value. A control unit for providing a relay driving signal to the power supply unit; When the relay drive signal is a relay drive signal to the battery, the relay path to the power supply unit is cut off and the relay path to the battery is connected to receive the DC power charged in the battery and switch to the controller. When the relay drive signal is a relay drive signal to the power supply unit, switching the relay path to the capacitor and connecting the relay path to the power supply unit to receive DC power applied to the power supply unit to switch to the controller part Power control device of a home network system comprising a. The method of claim 1, The control unit, the power control device of the home network system, characterized in that to drive the power supplied by the switching unit to the home appliances. The method of claim 1, In the home network system, an IP corresponding to the home appliance selected by the management server is distributed to create a path, and the power peak value is provided from the management server to provide the path to the home appliance. The power control device of the home network system, characterized in that it further comprises a divider.

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