KR101376386B1 - Sequential power control system - Google Patents

Abstract

The present invention relates to a remote control power distribution system, and more particularly to a power distribution system integrating a communication board, a switch board, and a control board, a construction thereof, and a control method using a TCP/IP protocol network. The remote control power distribution system includes a communication board having a hub function to communicate with a manager through the TCP/IP protocol network and to enable a general Internet access device to access Internet; a control board connecting with the communication board and a USB through a serial interface to control a plurality of switches; and a switch board including the switches, a current sensor, a voltage sensor, and a protective circuit, and the communication board, the control board, and the switch board integrated in one PCB. [Reference numerals] (304) Connection port; (310) Communication board; (320) Control board; (330) Power board; (340) Current, voltage, temperature sensor; (350,370) Protective circuit; (360) Display board; (AA) Switch board

Description

Remote control power distribution system {SEQUENTIAL POWER CONTROL SYSTEM}

The present invention relates to a remote control power distribution system, and more particularly, to a power distribution system integrated with a communication board, a switch board, and a control board, a structure thereof, and a control method using a TCP / IP protocol network.

In general, at present, power distributors for supplying electricity, electronics, production, and control devices connected to the final ends of the electric grid are supplied in a wide variety of types and forms and applied to the entire industry. Growth and energy conservation are closely linked to energy efficiency improvements such as reducing standby power, reducing energy costs by reducing power consumption, and reducing carbon emissions.

However, current power splitters are limited to power switch multi taps and timer outlets to reduce standby power, and a rudimentary level of devices are widely used. Recently, wireless control outlets for home networks are used to reduce standby power and energy load. Although controlled, the working distances and applications are quite limited.

In addition, various industrial, information, and home appliances (security / disaster prevention CCTV, unmanned parking system, remote display device, etc.) can be networked to save through wired / wireless based security / disaster prevention services, environmental control, energy meter reading and monitoring. Environment is already built and operated in various fields.

However, various devices connected to the network cannot perform the functions of acquiring, controlling, and monitoring the above-mentioned information when an error occurs in the built-in drive program. In many cases, a power supply reset is required, causing a problem of discontinuing stable service provision and increasing management costs.

Republic of Korea Patent Publication No. 10-2012-0064082 (June 18, 2012) Republic of Korea Patent Publication No. 10-0822697 (April 10, 2008)

The present invention is to solve the above problems, the remote control power distribution system according to the present invention, without establishing a separate network server, a power distribution system that can be controlled remotely by network communication using TCP / IP The purpose is to provide.

The remote control power distribution system according to the present invention comprises a communication board including a hub function for communicating with an administrator through a TCP / IP protocol network and enabling Internet access of a general Internet access device; And a control board connected to the communication board and a USB through a serial interface and controlling a plurality of switching means, and a switch board including the switching means and a current, a voltage sensor, and a protection circuit. It is characterized in that the switchboard is integrated on one PCB.

The remote control power distribution system according to the present invention by means of the above solution, it is possible to build a low-cost small remote power control network because there is no need to build a separate network management server, the size, weight and weight of the remote power control network It is effective to reduce the operation management cost.

In addition, the power distribution system according to the present invention is equipped with a variety of interfaces to increase the expandability that can be connected to the external device, as well as a function of controlling the output power of the power distribution unit remotely, it is applied to the sensor network relay device It can be used as an effect.

In addition, the power distribution system according to the present invention can prevent the electric shock to the electrical load of the connected terminal as well as the system itself by mounting one or more protection circuits, thereby enabling safe power supply and operation of the remote control system There is.

In addition, the power distribution system according to the present invention can monitor and separately control the power input to the electric load connected to the terminal from the remote, it is possible to create a standby power saving and energy consumption reduction effect.

In addition, the power distribution system according to the present invention is applied to a variety of remote systems connected to the network, by controlling the opening and closing the input power from the remote, there is an effect that can provide a stable service through the minimization of failure time.

1 is a block diagram of a conventional remote power control system using serial communication.
2 is a block diagram of a conventional remote power control system using TCP / IP network communication.
3 is a block diagram of a remote control power distribution system according to an embodiment of the present invention.
4 is an exemplary front view of a remote control power distribution system according to an embodiment of the present invention.
5 is a screen configuration diagram displayed on the Web UI of the remote control power distribution system according to an embodiment of the present invention.
6 is a network diagram of a remote control power distribution system according to an embodiment of the present invention.

Specific matters including the problem to be solved, the solution to the problem, and the effects of the present invention as described above are included in the embodiments and drawings to be described below. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail with reference to the accompanying drawings.

1 is a block diagram of a conventional remote power control system using serial communication.

2 is a block diagram of a conventional remote power control system using TCP / IP network communication.

3 is a block diagram of a remote control power distribution system according to an embodiment of the present invention.

4 is an exemplary front view of a remote control power distribution system according to an embodiment of the present invention.

5 is a screen configuration diagram displayed on the Web UI of the remote control power distribution system according to an embodiment of the present invention.

6 is a network diagram of a remote control power distribution system according to an embodiment of the present invention.

3 to 6, the remote control power distribution system 300 according to the present invention is a communication board 310, control board 320, power board 330, switch board 340, a protection circuit It may be provided to include (350,370), the electric load 305, the web UI 500, the interface 420 and the display board 430.

Remote control power distribution system 300 according to the present invention for achieving the above object is integrated with the communication board 310, the control board 320 and the switch board 340 integrally to the PCB to enable output power control from a remote. It is characterized by one.

The communication board 310 may provide a communication function and a hub function according to the TCP / IP protocol.

The control board 320 is equipped with a web UI for displaying the data obtained from the relay operation state and current, the voltage sensor of the switch board and change the relay operation state, and the external device connected to the USB port or serial communication port MCU (Micro Controller Unit) is provided that can provide communication and control functions.

The switch board 340 includes one or more latch type relay means that can be individually controlled (short-circuit or connected), and the amount of current input to the electric load, the power supplied to the control board and the communication board, and the electricity connected to the connection port. It characterized in that it comprises one or more current and voltage sensors for sensing the power supplied to the load 305.

In addition, the structure of the remote control power distribution system 300 according to an embodiment of the present invention is the amount of current input to the electrical load connected to the output power connection port, the power state to be input to the control board and the communication board, the operating state of the MCU, respectively It is characterized in that the display board for displaying the open state of the relay connected in series with the output power connection of the.

In addition, the control board 320 and the communication board 310 is characterized in that the built-in power board 330 to which the direct-current power supply for producing power is applied.

This configuration allows the present invention to remotely monitor and control the input power of the electric load operating in the terminal.

3 is a block diagram of a remote control power distribution system according to an embodiment of the present invention.

As shown in Figure 3, the remote control power distribution system 300 according to an embodiment of the present invention is connected via a TCP / IP network (Internet network-WAN) is connected in series to the switchboard 340 The output power supply port 304 shows the apparatus of the form which can grasp | ascertain the state of the power supply which inputs the power supply to the electrical load 305 connected to opening / closing control and a connection port.

Referring to Figure 3 in detail with respect to the remote control power distribution system 300 according to the present invention, the communication board 310 is connected to the WAN port 301 for the Internet access of the administrator in the remote, the administrator Through the Internet network 306 using the TCP / IP protocol, it provides a function to access the web UI embedded in the MCU (Micro Controller Unit) of the control board 320 and through the LAN port 302 connected to the communication board. It includes a hub function so that a general internet connection device can access the Internet.

The control board 320 controls the output power by individually opening and closing the relay means mounted on the switch board 340 connected to the manager, and communicates with an external device connected to the USB port or serial communication port 303 And a control function, and collects and processes the current, voltage sensor, and relay open / close status data built in the switch board 340, displays it on the web UI, and sets an IP for the TCP / IP protocol network connection of the communication board And, it performs a function of providing a signal that can display the current amount of current and the operating power of the control board and the power board, the relay opening and closing state on the display board 360, the output power connector 304.

Firmware to perform the above functions is embedded in the MCU's own memory of the control board.

In addition, the open / closed state of the relay means provided from the switch board 340, current and voltage data, temperature sensor data embedded in the switch board 340, an external device connected to a USB port and a serial port (for example, temperature Web page (web UI) that allows administrators to remotely access and view the information provided from the humidity sensor, PLC device, etc.).

The power board 330 is a DC power supply device to convert the commercial power of 50Hz ~ 60Hz, 100Vac ~ 260Vac with a DC power supply (converting) to supply the power required to drive the control board, communication board, display board.

The switch board 340 has one or more relay means and a built-in current, voltage, and temperature sensor. Data obtained from the current, voltage, and temperature sensor is provided to the control board 320, and the signal of the control board 320 is received to perform an opening / closing command of the relay. The relay is connected to the commercial power line 307 line of 50Hz ~ 60Hz, 100Vac ~ 260Vac respectively in series to open and close the relay individually according to the signal of the control board 320 to be applied to the output power connection section 304 To control.

The remote control power distribution system 300 according to the present invention has a built-in protection circuit, and the primary protection circuit 350 is applied to an AC power input terminal input to the remote control power distribution system 300 by applying a circuit breaker. It is installed to be connected in series to automatically cut off the power supply in the non-ideal power consumption situation (e.g., electrical short, short circuit, rated current or more) generated by the power board 330 and the switch board 340 to electrically connect the system. To protect it.

The secondary protection circuit 370 is installed in the switch board 340 a fuse, one end of the fuse is connected in series to the AC line connected to the output power connector 304 is automatically disconnected when the rated current is energized The electrical load of the terminal can be protected from electric shock.

In addition, the control board 320 analyzes the current data obtained from the current sensor of the switch board 340 by using the built-in firmware, and when the current corresponding to the rated current is energized to the output power connector When a warning message is displayed on the display, and if the rated current is energized, the short circuit command of the relay connected to the corresponding output power supply port is transmitted to the switchboard to prevent the AC power from being supplied to the electric load 305 connected to the terminal. .

The display board 360 has a current amount input to an electric load connected to an output power connection port, a power state input to the control board 320 and the communication board 310, an operation state of the MCU, and respective output power connection ports. Since the signal for the opening state of the relay connected in series with the receiving from the control board 320, it can be displayed on the LED and display device on the remote control power distribution system 300 itself installed in the field, On-site workers as well as administrators connected remotely can check the operation status.

In addition, the power distribution system 300 according to the present invention is provided with at least one or more USB and serial interface, not only to control the power input to the electrical load connected by remotely connected, but also various external devices (for example, various sensor networks). , PLC controller, etc.) to increase scalability to collect and control data.

4 is a diagram illustrating a front structure of a power distribution system 300 that can be remotely controlled according to an embodiment of the present invention.

The output power connector 410 is preferably applied to an outlet having a standard for AC commercial power, the shape can be changed by the designer according to the power input cord shape of the electrical load to be connected.

RJ-45 jack is used for the WAN port for the manager's connection through the TCP / IP protocol network and the general Internet access device, and USB, RS-232, 422/485 interface for serial communication with USB. It is equipped with an interface 420 to be connected to a variety of external devices by mounting a port.

Controls the signal of the amount of current input to the electric load connected to the output power connection port, the power state input to the control board and communication board, the operation status of the MCU, and the opening state of the relay connected in series with each output power connection port. The display board 430 capable of being received from the board and displayed on the LED 433 and the display device 431 may be mounted on one side of the system so that not only an administrator but also a field operator who is remotely connected may grasp the operation state.

A switch 432 for selecting at least one output power connector 410 may be mounted on the display board 430 so that the amount of current supplied to the selected output power connector may be displayed numerically on the current display device 431.

5 illustrates a screen configuration diagram displayed on the web UI of the remote control power distribution system 300 according to an exemplary embodiment of the present invention.

When the administrator connects using an IP address set in the control board 320 through a web browser, the administrator can see the web UI display screen as shown in FIG.

IP setting 510 for TCP / IP network connection can be made, and the current amount input to the electric load connected to the output power connection port, the commercial voltage application state, and the relay switching state of the switch board 340 are monitored by Main Monitoring (520). ) can do.

In addition, by displaying the temperature data collected by the temperature sensor embedded in the switch board 340, the power distributor itself can be applied as a sensor grid to the sensor network configuration, which is transmitted from an external device connected to the USB and serial port Various information (eg, temperature, humidity, etc.) may be monitored 560.

In addition, each relay connected to the output power connector may be individually controlled to open and close (530), and when a rated current or more is energized, a warning message displayed automatically may be confirmed (540).

The configuration, shape, and display content of the web UI may be changed by the designer according to the external device connection state and the number of output power connection ports.

6 illustrates a network configuration of a remote control power distribution system according to an embodiment of the present invention.

The manager 610 connects to the IP address set in the power distribution system 600 through a web browser, is connected to the power distribution system through a TCP / IP protocol network (Internet, 620), and is embedded in the power distribution system. The web UI is displayed on the administrator's Internet connection device (e.g., computer 610).

On the web UI screen displayed on the manager's Internet connection device 610, the current supply amount according to the output power connection port, relay switching and power-on state, sensor data, connected external device status can be monitored, and the administrator can relay By controlling the opening and closing, the power input to the electric load 650 of the terminal connected to the output power connector can be controlled remotely.

In addition, the remote control power distribution system 300 according to the present invention provides a hub function that can be connected to the Internet by connecting a general Internet connection device (eg, computer, 630) to the LAN port. Therefore, there is no need to install a separate switch hub for network configuration.

In addition, since the remote control power distribution system 300 according to the present invention has a different IP is set, if TCP / IP is configured using an Internet router and a switch hub, the remote control power distribution system 300 may be installed in the same network by arranging a plurality of remote control power distribution systems. And operation is possible.

As shown in FIG. 1, the remote control power distribution system 300 utilizing the existing TCP / IP network may store and control various information provided by the remote control power distribution system 300 installed at a remote site. Since the network management server connected to the existing Internet network was necessarily installed and operated, the increase of installation cost and the large scale of the network were inevitable.

However, since the remote control power distribution system 600 according to the present invention includes all the monitoring data and the control functions, the remote control power distribution system 600 itself performs the function of the management server, This unnecessary and inexpensive small remote control network can be constructed.

As described above, it is to be understood that the technical structure of the present invention can be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

220: management server 310: communication board
320: control board 330: power board
340: switch board 350,370: protection circuit
305: Electric load 500: Web UI
420: interface 430: display board

Claims (5)

A communication board including a hub function to communicate with a manager through a TCP / IP protocol network and to enable Internet access of a plurality of Internet access devices;
A control board connected to the communication board, at least one USB port and a serial interface, and controlling a plurality of switching means;
A switch board including the switching means, a current sensor, a voltage sensor, and a protection circuit,
Integrate the communication board, control board and switch board on a single PCB,
The control board,
Firmware for controlling the switching means and monitoring sensor data acquired from the current sensor and the voltage sensor; And
A web UI display unit configured to display a UI screen for the administrator to view one or more information from a remote location,
The firmware,
And remotely switching the switching means when a current equal to or greater than a set rated current is energized. The method of claim 1, further comprising:
The at least one USB port and a serial interface, and the amount of current input to the electrical load, the power state input to the control board and the communication board, the operation state of the MCU, a plurality of relay opening and closing state on the LED and display device Display board
Remote control power distribution system characterized in that it further comprises. delete delete The method according to claim 1,
The control board and the communication board, the driving power is supplied from a power board with a built-in DC power supply device,
Remote control power distribution system, characterized in that the control board, the communication board, the switch board and the power board is integrated on a single PCB.

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