KR20080018007A - Restorative ac power system using restorative ac power device of remote control type - Google Patents

Abstract

A restorative AC power system using a restorative AC power device of a remote control type is provided to monitor power supply state and an external environment and to control power supply and external facilities by using a power line communication modem by attaching a smoke sensor, a temperature sensor and all kinds of control signal processors to the restorative AC power device. A restorative AC power system includes a number of restorative AC power devices of remote control type with a built-in power line communication modem and a monitor system. The monitor system includes a wireless communication network and an internet network. The restorative AC power device is linked through the power line communication modem.

Description

Restorative AC power system using restorative AC power device of remote control type}

1 is a functional block diagram schematically showing the configuration of a remote type automatic return power supply apparatus according to an embodiment of the present invention;

Figure 2 is a block diagram schematically showing a power recovery system installed with the remote type automatic return power supply shown in FIG.

<Brief description of the main symbols in the drawings>

1 ... video transformer 2 ... current transformer,

4.Overcurrent detector 5.Earth leakage detector,

7. Signal processing section 12, 20 ... Power line communication modem,

21 ... monitor system.

The present invention utilizes various sensors and power line communication in farming, livestock, and industrial facilities that use commercial single-phase AC power to minimize the loss of property and life due to fire, leakage, external surge, overvoltage, and overcurrent. The present invention relates to a remote type automatic return power supply that can monitor and control the power supply status.

 At present, attempts to receive high-quality service of the power supply and to reduce the damage caused by the electric shutdown are increasing. It is the cause of fire or electric shock by short circuit and surge.

Therefore, the general type ground fault circuit breaker has a function of shutting off power when a ground fault occurs.

However, in general, the disadvantage of the general type earth leakage breaker is frequent malfunction. After the power is cut off by the earth leakage breaker, there is a hassle that a person must go every time to restore the breaker. If the risk is eliminated after the ground fault breaker is operated due to short circuit and surge, the breaker should be automatically returned to minimize the damage caused by this.

In particular, it is expected to be more necessary for farms or industrial sites that suffer massive damage from momentary power outages.

Therefore, when the short-circuit short-circuit phenomenon is released by the lightning, fog, condensation, etc., and the load state is confirmed normal operation, the automatic return-type earth leakage breaker has been proposed in various forms.

However, the conventional self-recovering earth leakage circuit breaker is a stand-alone type, it is composed of a system that detects the external leakage and surge voltage and shuts off again after a certain time.

In addition, if the short circuit and overvoltage continue, the power is turned on / off a given number of times to check whether there is a short circuit.

Such a method may be safer and convenient to use in a short-circuit leakage or in rare places than a passive leakage breaker.

However, power problems caused by short circuits or load abnormalities are often generated continuously for a long time rather than being solved in a short time.

Therefore, the independent self-recovering type earth leakage breaker has no difference from the passive earth leakage breaker when the power problem (leakage, surge, overvoltage, overcurrent, etc.) is continuous.

On the contrary, if the power problem occurs continuously in a time when there are no people in the farm, barn, and industrial facilities that must operate 24 hours with confidence in the automatic return, there is a problem that it is likely to cause property damage without any action.

The present invention has been made to solve the above problems, by attaching a smoke sensor, a temperature sensor and various control signal processor to the automatic return power supply device using a power line communication modem in the remote power supply and external environment (fire, temperature, etc.) Its purpose is to provide a remote type automatic return power supply that can monitor the power supply and control the power control and external equipment (heater, cooler and fire fighting facilities, etc.).

In order to achieve the above object, the remote type automatic return power supply has its own interruption and return in single and continuous power problems (leakage, surge, overvoltage, overcurrent, etc.) It can monitor how many times it has occurred, and it can be configured to adjust the cut-off current capacity and on / off delay time of power supply by itself and remotely.

The remote monitoring system (computer) is connected to external wireless and internet networks to check and take care of power supply failures even further remotely or on the move, enabling farms, livestock and industrial facilities to operate 24 hours a day. It automatically shuts off / returns the power supply status and can integrate monitor and control functions through a power line communication (PLC) modem without the need for a separate environmental control / monitoring system.

Hereinafter, a remote type automatic return power supply apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram schematically showing the configuration of a remote type automatic return power supply apparatus according to a preferred embodiment of the present invention, Figure 2 is a schematic diagram of a power return system installed with the remote type automatic return power supply device shown in FIG. The block diagram shown.

Fig. 1 shows a schematic configuration of the present invention, in which an image current transformer 1 is installed on an input line of a power supply side to detect a difference in leakage current, and the leakage current detected by the image current transformer 1 is a short circuit. The detection unit 5 measures whether a short circuit has occurred.

A current transformer 2 is installed in one of the lines to detect current flowing through the load, and the current detected by the current transformer 2 is signaled by the overcurrent detector 4, and then the amount of current applied to the load. Output as a voltage.

In addition, the surge protector 3 protects the load-side power supply and the internal circuit of the power supply device against surges generated from the outside of the line, and the magnitude of the voltage passing through the surge protector 3 is greater than the set value. In this case, the overvoltage detection unit 6 outputs the detection signal.

The smoke and other sensors 13 as a basic use of the smoke sensor and the temperature sensor to detect the overheating caused by the temperature rise of the fire and wire coating generated from the outside and inside of the power supply device to output a signal, The signal processing unit 7 performs quantitative voltages such as overcurrent detection and temperature sensors in processing signals output from the overcurrent detection unit 4, the earth leakage detection unit 5, the overvoltage detection unit 6, and the smoke and other sensors 13. The A / D conversion is used for the signal outputting, and the discrete signals such as the earth leakage detection and the overvoltage detection are processed using a comparator.

The signal-processed data is subjected to data processing by a program using a one-chip microprocessor, and the operation unit 9 is composed of a switch to control the current capacity of the power supply device, overvoltage range, power return time and other parameters for control. Enter it.

The display unit 8 is composed of a segment display to display the value manipulated by the operation unit 9, the power relay driver 10 is ON / OFF by the power-off, return signal output from the signal processing unit 7 The driving signal is output, and the power relay 11 turns on / off the output of the line by the signal output from the power relay driver 10.

The power line communication modems 12 and 20 are installed in the power supply device and in the power supply system, and are configured to exchange monitor signals and control signals of the power supply device through RS232C communication and discrete input / output terminals of the one-chip microprocessor of the signal processor 7. It is.

2 is a view illustrating an installation and use method according to an embodiment of the present invention, in which a plurality of facilities, such as a farmhouse's plastic house, a farm house, or a farm, exist using a remote station and a remote return power supply device, respectively. Remote monitoring and control is possible through the power line communication modem 20, and the monitoring and control from the mobile and farther remote locations through the wireless communication network 22 and the Internet network 23 through the monitoring system 21 of the station. An example is shown.

When the single-phase commercial power is input through the power meter 24 through the external line, each remote type automatic return power supply connected to the output terminal of the power meter 24 is connected to N, and each remote type automatic return power source is connected. The unique ID is assigned to the device to communicate with the power line communication modem for each state and to monitor fire and control heating and cooling through sensors and control panels attached to the remote automatic return power supply.

As described above, the remote type automatic return power supply device of the present invention automatically shuts off the power in abnormal conditions such as surge, overvoltage, overcurrent, and short circuit occurring on the power line and automatically returns the power after a certain time. The communication modem not only can monitor and control the power status from a remote site, but also can control fire detection and temperature by using an external sensing sensor in farming, livestock, and industrial facilities. It has the effect of enabling remote monitoring and control with one.

Claims (4)

Built-in power line communication modem, a plurality of remote power return power supply is installed, and the automatic return power supply is installed in conjunction with the power line communication modem, the remote type automatic return power supply consisting of a wireless communication network and a monitoring system installed on the Internet network is used. Power return system. The power return power supply device includes: an image current transformer installed on a power supply input line to detect a difference in leakage current; A ground fault detection unit for measuring a ground fault based on the leakage current detected by the video current transformer; A current transformer installed on one side of the input line to detect a current flowing in a load; An overcurrent detector for outputting a voltage applied to the load after the current detected by the current transformer is signal processed; A surge protection unit installed on the input line to protect the load-side power supply and the internal circuit of the power supply device against surges generated from the outside; An overvoltage detector for outputting a detection signal when the voltage passing through the surge protection unit is greater than a set value; Smoke and other sensors for detecting fire and overheating of wire coating generated by the smoke sensor and the temperature sensor in and out of the power supply; A signal processor for processing signals output from the overcharge detector, a ground fault detector, an overvoltage detector, smoke, and other sensors using an A / D and a comparator; An operation unit for inputting parameters for current capacity, overvoltage range, power return time, and other controls; A display unit for displaying a value operated in this operation unit; A power relay driver for outputting an ON / OFF signal in response to a power cut-off and a return signal output from the signal processor; And a power relay for turning on / off the output of the input line by the output signal of the power relay driving unit. The method according to claim 1 or 2, The power line communication modem is a power recovery system using a remote type automatic return power supply device, characterized in that installed in the external line and the monitor system through the microprocessor and RS232C communication and discrete input and output terminals of the signal processing unit. The method of claim 3, Power return system using a remote type automatic return power supply, characterized in that the power meter is installed on the external line.

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