KR101048904B1 - Power control device for outlets and electrical equipment using power line communication - Google Patents

Abstract

The present invention relates to a power control apparatus for an outlet and an electric device using power line communication, and more particularly, to intelligently cut off the power supply of a power supply outlet and various electric devices of a building from a remote place to eliminate unnecessary waste of electric energy. The present invention provides a power supply control apparatus for an outlet and an electrical apparatus using power line communication to control a power source of an outlet and an electrical apparatus connected to an indoor power line, wherein the outlet and the electrical apparatus are individually controlled by an electrical signal. A controller having first switching means for switching and second switching means for selectively grouping and switching the outlets and electrical devices at the same time; It is provided in the power supply unit of the outlet and the electric device, characterized in that configured as a response switch for switching the power while responding according to the control signal of the controller.

Power lines, outlets, electrical equipment, controllers, response switches.

Description

A socket and power control apparatus for power line communication

The present invention relates to a power control apparatus for an outlet and an electric device using power line communication, and more particularly, to intelligently cut off the power supply of a power supply outlet and various electric devices of a building from a remote place to eliminate unnecessary waste of electric energy. The present invention relates to a power supply control apparatus for an outlet and an electric apparatus using power line communication.

In general, buildings such as offices, factories, warehouses, and homes are equipped with electrical outlets (sockets) or various home appliances such as lighting equipment, computers, refrigerators, TVs, and fax machines (hereinafter referred to as "electric appliances"). The above outlets and electrical equipment are powered on / off by power switches of distribution boards or electrical equipment.

1 is a view showing the indoor wiring of a typical building according to the prior art.

Referring to FIG. 1, an outlet 110 and an electrical device 120 are connected to a power line 100 connected to a distribution panel 200, and the power line 100 is connected to indoor wiring methods (serial, parallel, and complex). Accordingly, the number of strands of the wires is different from each other, and there is no separate switch circuit in the outlet 110 so that only on / off of the distribution board is possible. In other words, standby power is continuously consumed even in the standby mode where the electric device is not used.

For example, an electric device 120 such as a computer, a TV, a water purifier, or an air conditioner consumes unnecessary power due to standby power in the middle of the night when it is not in use, or when it goes out without turning off the electric iron or the electric heater. It is recommended to unplug it because there is a risk of occurrence.

Therefore, in the related art, first, a collective type exposed outlet (multi-outlet) having a switch attached to an outlet or an outlet may be used to cut off standby power by turning on / off power individually. However, in order to cut off the power, it is inconvenient to find the location of each outlet or power strip and operate them individually, and there is a defect that cannot be operated when the outlet is covered by furniture or a structure or embedded in an existing wall.

Second, in the case of a wireless switching power cut-off outlet using a remote controller (infrared ray), an adjacent switch malfunctions or requires a remote controller requiring a separate power source, which is expensive and uneconomical.

Third, a power line communication method is used, and a typical home automation system is used, which enables the operation of electric machines and the control of power. However, since the control body performs switching operation through home automation and power line wiring to respond to it is made by 1: 1 wiring method through the switch of over-current circuit breaker (MCCB) of the distribution panel, indoor wiring of the actual site is complicated as shown in FIG. In addition, it is not applicable to the installation and installation of existing buildings, there was a problem that requires a separate communication wiring.

In addition, the power cut-off device of the home appliance using wired communication should not only have indoor wiring connected directly to each electric device as shown in FIG. 1, but also each circuit board should have a built-in cut-off circuit (modem) that operates on a separate communication signal. . In addition, it was impractical to perform power control of indoors where many of them lived through wired communication lines at offices or sales offices outside the building.

Fifth, the power facility supervisory control system controls the power distribution panel or switchboard outside the building. In the case of the power line lighting control device, the lighting control relay box must be provided and the indoor wiring must be designed differently, and the power line communication can be used outside the building. In this case, the distribution line used under the electric and communication law system is under the jurisdiction of KEPCO. In other words, it is limited to the high-voltage private electric works, the second end of the power receiver in the case of consumers, and the second low voltage meter in the case of low-voltage consumers, so that the actual power line communication cannot be used outside, and a separate wired / wireless connection modem must be used.

As described above, the conventional technologies, such as standby power reduction technology (primarily an outlet product) or power line communication technology, require a complicated number of strands of wiring and require a separate control panel or home automation to be installed. It is difficult to apply. In addition, the installation of a separate control wiring, as well as the relative increase in material and labor costs had a number of problems.

In addition, the standby power control system or the timer attached type that detects the use of electronic products is inconvenient to deal with multiple plugs and exposed floor wiring in the corresponding products, and it may cause electric fires due to overcurrent. There were some problems.

The present invention can intelligently perform the on / off operation of the indoor wiring and lighting of the building, the manual switch (tumbler switch) for the heating circuit and the outlet circuit connected in series or in parallel, It is an object of the present invention to provide a power supply control apparatus for an outlet and an electric device using power line communication, which can be easily set by individual and group switching.

In addition, the purpose is to reduce the consumption of electrical energy to meet the reduction of carbon generation and green technology growth.

The present invention provides a power supply control apparatus for an outlet and an electric device using power line communication to control power of an outlet and an electric device connected to an indoor power line, wherein the outlet and the electric device are individually switched by an electrical signal. A controller provided with a first switching means and a second switching means for selectively grouping and simultaneously switching the outlets and electrical devices; A power supply control device for an outlet and an electric device using power line communication is provided in the power outlet of the outlet and the electric device, and comprises a response switch for switching power while responding according to a control signal of the controller.

In addition, the controller of the present invention, the control unit (CPU); A separate button for individually turning on / off the response switches, a reservation button for simultaneously switching one or more selected among the response switches for each group, and a group setting for storing the ones in the selected group among the individual buttons in the reservation button A key input unit which inputs an operation signal through a button; A memory unit which stores data processed by the controller; An operating frequency generator for generating a frequency signal for each band corresponding to each response switch together with the control signal of the controller; A power line coupling unit for transmitting the control signal and the frequency signal to a power line; It is characterized by consisting of a power supply unit for supplying power.

In addition, the response switch of the present invention, the coupling circuit unit for receiving the control signal and the frequency signal of the controller through the power line; An operation signal detection unit for dividing the received frequency signal to detect a control signal of the corresponding response switch; An actuator operating according to the control signal; A switch for turning on / off a power supply according to the operation of the actuator; It is characterized by consisting of a power supply for power supply.

In addition, the power line of the present invention is characterized in that the wiring in two strands.

The present invention can be easily turned on and off by setting each outlet and electrical equipment individually or in groups without the need for a separate control communication circuit using power line communication. In addition, it can be easily attached to new and existing buildings, so it is easy to install and use, so anyone can easily operate it, and it provides the effect of saving energy or preventing electric fire accidents.

And the present invention consists of a simple configuration can supply the product at a low price, the existing complex indoor wiring circuit (multiple circuit) can be shortened by only two wires can be shortened the working time, wiring, piping materials and There is an economic effect to reduce labor costs.

In addition, the present invention has an effect that can be easily applied by plugging the response switch of the adapter type to the existing outlet of the existing equipment.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and embodiments of the present invention are provided to enable those skilled in the art to more easily understand the present invention. In describing the present invention, when it is determined that the detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Like reference numerals in the drawings refer to like elements.

2 is a schematic view showing a power supply control apparatus for an outlet and an electric device using power line communication according to a preferred embodiment of the present invention, and FIGS. 3 and 4 are schematic diagrams and circuit diagrams showing a controller 10 according to the present invention. to be.

According to the drawings, the present invention, the outlet 110 connected to the indoor power line 100 and the power control device of the outlet and electrical equipment using power line communication to control the power of the electrical device 120, the outlet ( 110 and first switching means for individually switching the electrical device 120 by an electrical signal, and the second switching means capable of switching simultaneously by selectively grouping the outlet 110 and the electrical device 120 A controller 10 provided therewith; The power supply unit of the outlet 110 and the electrical device 120, characterized in that consisting of a response switch 30 for switching the power while responding according to the control signal of the controller (10).

The above is described in more detail as follows.

First, the present invention is a controller 10 that is operated by a user to cut off or connect the power of the outlet 110 and the electrical device 120 at a remote location using power line communication, and the outlet 110 according to the control signal of the controller Or a response switch 30 for switching the power of the electric device 120. The power line communication is a method of transmitting voice, data, and the Internet at high speed by using a power line installed for power supply as a communication network.

The controller 10 is provided with a first switching means for switching the outlet 110 and the electrical device 120 separately, and a second switching means for switching by group.

The first and second switching means, the front of the case of the controller 10, the individual button 22 for individually switching each response switch 30, and the response switch 30 in groups A switch button 24 for switching and a group setting button 26 for designating the selected ones of the response switches for each group are configured.

The controller 10 of the present invention includes a control unit (CPU) 12; A separate button 22 for individually switching the response switches 30, a reservation button 24 for simultaneously switching one or more selected among the response switches 30 for each group, and the individual buttons 22 A key input unit 20 for inputting an operation signal through a group setting button 26 for storing the group of the selected group in the reservation button 24; A memory unit 13 for storing data processed by the controller 12; An operating frequency generator 14 for generating a frequency signal for each band corresponding to each response switch 30 together with the control signal of the controller 12; A power line coupling unit 16 for transmitting the control signal and the frequency signal to the power line 100; It is characterized by consisting of a power supply unit 18 for supplying power.

That is, the key input unit 20 may individually switch the plurality of response switches 20 by the individual button 22, or may switch by each group through the reservation button 24. In addition, the reservation button 24 can be selectively performed by storing a pattern operation (for example, going to work, saving work, leaving work, etc.) for each group of response switches. For this purpose, the group setting button 26 is provided, which is selected by pressing the group setting button 26 and then selecting the individual button 22 corresponding to each response switch, and then simply pressing the reservation button to select one group. Then, the response switches are simultaneously switched as the reservation button is operated as described above.

The operating frequency generator 14 generates a high frequency (pulse) signal for each band corresponding to each response switch according to input signals of the buttons 22 and 24 to transmit a control signal through the power line coupling unit 16. do. The motorized control signal is received by the corresponding response switch, and constitutes a high frequency oscillation circuit as shown in the circuit diagram of FIG. 4.

The power supply unit 18 preferably changes the voltage to supply a control power of DC5-10V. The buttons 22 and 24 are provided with respective display lamps indicating a switching state, and the display lamps are preferably built-in LEDs.

The response switch 30 is attached to the outlet 110 to connect the power through the plug of the electrical device, or attached to the power supply of the electrical device 120 to connect or cut off the power, the controller 10 ) Is preferably installed near the entrance of the building to facilitate operation.

5 is a configuration diagram showing the response switch 30 according to the present invention, Figure 6 is a circuit diagram of the response switch.

Referring to FIG. 5, the response switch 30 of the present invention includes: a coupling circuit unit 32 for receiving a control signal and a frequency signal of the controller 10 through the power line 100; An operation signal detector 34 for detecting the control signal of the corresponding response switch 30 by dividing the received frequency signal; An actuator 36 operating in accordance with the control signal; A switch 40 for turning on / off a power supply according to the operation of the actuator 36; It is characterized by consisting of a power supply unit 38 for power supply.

The response switch 30 receives a signal called by the controller 10 to switch each corresponding power source.

The coupling circuit unit 32 receives the control signal of the controller, and the operation signal detection unit 34 detects the operation frequency of the corresponding response switch and applies the operation signal of the actuator 36 to the switch 40. Turn on / off the power of outlet and electric equipment by operating.

The operation signal detector 34 detects an inherent frequency signal of the response switch so that the response switch corresponding to the control signal of the controller can operate among the plurality of response switches.

Here, the power line 100 of the present invention is characterized in that it is wired by two wires. That is, the control signal transmitted from the controller 10 is only received in the corresponding response switch according to the frequency signal for each band, so that no more than two strands of wires are required, or two or more strands of existing building wiring in parallel or complex type. It is also applicable to.

The response switch 30 is preferably configured to be built in an electric device, such as the outlet 110 or the electric device 120, or in the form of an adapter 30a, as shown in Figure 7 so that it can be plugged into an existing product. Implementation is possible. For example, in a new building, a responsive switch integrated outlet may be newly installed, or simply connected to an electrical outlet through an adapter 30a to an outlet of an existing building.

On the other hand, the auxiliary controller 10a of FIG. 2 is applicable to a partitioned structure of a separate room, and controls the response switch of the separate room by allowing the controller 10 to be interlocked with each other. That is, the response switch of the separate room is designated as a group to transmit an on / off signal to the controller 10.

In addition, the directional commercial frequency filtering unit 17 is provided so that the control signal between the controller and the controller does not collide. In other words, the control signals between the controllers of the floors of the building or the controllers of different rooms do not collide with each other, and the controller signals of the other places (eg, floors, rooms) are not received by the controller.

The power supply control apparatus of the outlet and the electric device using the power line communication of the present invention configured as described above will be more readily understood by the description of the following operating states.

The power supply of the outlet and the electric device using the power line communication of the present invention can control the power of the electric device individually or for each set group.

First, the power can be selectively switched through the response switch 30 at a desired position using the individual button 22, or the response switch for each group can be switched at a time by using the reservation button 24. Will be.

For example, after pressing the group setting button 26, the individual buttons 22-1, 22-3, 22-5 ... 22-n are selectively designated, and then pressing the reservation button 24-A selects the selected response. The switches 30-1, 30-3, 30-5 ... 30-n are stored in group A. When the reservation button 24-A of the designated group A is operated, the response switches of the group A are simultaneously switched. As such, electric devices that require standby power at all times or electric devices that need to be cut off when not in use can be easily switched by setting the reservation mode (A, B, C ... Z) for each group. .

The power supply control apparatus of the outlet and the electric device using the power line communication of the present invention may be associated with an indoor or building security system, as shown in FIG. 7. In other words, when the final departure of the security system 300 operates the security system and at the same time by applying the exit signal to the controller by switching the response switch set to the exit mode from the group setting buttons 26 to cut off the power will be.

In addition, the embodiments of the present invention have been described in detail, but are not intended to limit the technical scope of the present invention, and the present invention will be more clearly and easily described by those skilled in the art having ordinary skill in the art. It is intended to be substituted, modified, and improved.

1 is a view showing the indoor wiring of a typical building according to the prior art.

Figure 2 is a schematic diagram showing a power supply control apparatus of an outlet and an electrical apparatus using power line communication according to an embodiment of the present invention.

3 and 4 is a block diagram and a circuit diagram showing a controller 10 according to the present invention.

5 is a block diagram showing a response switch 30 according to the present invention.

6 is a circuit diagram of a response switch.

7 is a view showing another embodiment of a power supply control apparatus for an outlet and an electric device using power line communication according to the present invention.

Claims (4)

In the power supply control device of the outlet and electrical equipment using power line communication to control the power of the outlet 110 and the electrical equipment 120 connected to the indoor power line 100, First switching means for individually switching the outlet 110 and the electrical device 120 by an electrical signal, and the outlet 110 and the electrical device 120 to selectively group and switch simultaneously A controller 10 having two switching means; A response switch 30 provided in the power supply unit of the outlet 110 and the electric device 120 and switching power while responding according to a control signal of the controller 10; Composed, The controller 10, A control unit (CPU) 12; A separate button 22 for individually switching the response switches 30, a reservation button 24 for simultaneously switching one or more selected among the response switches 30 for each group, and the individual buttons 22 A key input unit 20 for inputting an operation signal through a group setting button 26 for storing the group of the selected group in the reservation button 24; A memory unit 13 for storing data processed by the controller 12; An operating frequency generator 14 for generating a frequency signal for each band corresponding to each response switch 30 together with the control signal of the controller 12; A power line coupling unit 16 for transmitting the control signal and the frequency signal to the power line 100; A power supply unit 18 for supplying power; The response switch 30, A coupling circuit unit 32 for receiving a control signal and a frequency signal of the controller 10 through the power line 100; An operation signal detector 34 for detecting the control signal of the corresponding response switch 30 by dividing the received frequency signal; An actuator 36 operating in accordance with the control signal; A switch 40 for turning on / off a power supply according to the operation of the actuator 36; Power control device for outlets and electrical equipment using power line communication, characterized in that consisting of a power supply for supplying power 38. delete delete delete

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