KR101382253B1 - Power unit monitering controller system - Google Patents

Abstract

A power integrated monitoring and controlling system is disclosed, which may collect information on lightning, thunderbolt, or freeze and provides a voice alarm and monitoring, thus preventing damage to a motor and electric circuit. Further, the power integrated monitoring and controlling system may prevent the device from being broken due to a variation in a three-phase voltage and freeze. According to the present invention, the power integrated monitoring and controlling system includes a monitoring sensor that monitors lightning, voltage, thunderbolt, freeze, power factor and overload; a main controller that receives each signal output from the monitoring sensor and performs computation and analysis on the received signals; a voice alerting unit that receives the signal output from the main controller and sends out a voice alert; a monitoring unit that receives the signal output from the main controller and outputs, on the screen in realtime, whether lightening, voltage, thunderbolt, freeze, power factor and overload occurs; an inverter with an end connected with the main controller and another end connected with a three-phase motor to convert a DC current into an AC current; and an MCC (Magnet Circuit Control) that controls the operation of the three-phase motor and prevents damage to the electric circuit. [Reference numerals] (111) Lightening monitoring sensor; (112) Voltage monitoring sensor; (113) Thunderbolt monitoring sensor; (114) Freeze monitoring sensor; (115) Power factor monitoring sensor; (116) Overload monitoring sensor; (130) Voice alerting unit; (140) Monitoring unit; (150) Inverter; (AA) Motor

Description

Power Integration Supervisory Control System {POWER UNIT MONITERING CONTROLLER SYSTEM}

The present invention relates to a power integrated supervisory control system, and more particularly, a power field equipment for use in agricultural open areas, mountainous areas, pressurized facilities for supplying drinking and agricultural agricultural agricultural water, and power for three-phase 380V. It is installed in power supply facilities equipped with various motors, and collects information on lightning, ground fault, phase loss, overload, etc., and is set to alarm and monitor voice and CDMA. The present invention relates to a power integrated supervisory control system that can be expected to protect equipment against three-phase power voltage fluctuations and to prevent device burnout due to an open phase accident.

Electric power monitoring devices are installed in power field equipment for agricultural open areas, mountainous areas, pressurization facilities for water supply for drinking and crop farming, and power supply facilities for various motors using power for three-phase 380V.

The power monitoring device monitors the state of AC power or DC voltage, and when the power state is abnormal, it is configured to notify the manager through a series of procedures.

However, the conventional power monitoring device was configured to monitor only the state of AC power or DC power. Therefore, in order to identify an element indicating an abnormal state, a user needs to visit the corresponding area and check the actual state, which requires a lot of cost, time, and manpower for power monitoring.

In addition, since the conventional power monitoring device is unable to monitor lightning, phase loss, and ground faults, the motor and electric circuits are destroyed by lightning strikes, device damages due to phase-out accidents, damage to equipment due to motor overload, and ground faults. There was a difficulty in coping with the occurrence of the damage quickly.

Related prior art is Korean Patent Publication No. 10-2007-0088559 (published Aug. 29, 2007), which describes a power control system.

The object of the present invention is to prevent the destruction of the motor and electric circuit due to lightning strike, and to protect the equipment safety against three-phase power voltage fluctuations and to prevent the burnout of the device due to phase-out accidents, secondary protection against motor overload, ground fault It is to provide an integrated power monitoring and control system that can expect human life protection and instantaneous power saving by motor power factor monitoring.

Power integrated monitoring control system according to an embodiment of the present invention for achieving the above object is a monitoring sensor unit for monitoring the lightning, voltage, ground fault, phase loss, power factor and overload, respectively; A main controller which receives each output signal from the monitoring sensor unit and computes and analyzes the output signal; A voice notification unit receiving the output signal from the main controller and sending a voice notification message; A monitoring unit which receives the output signal from the main control unit and outputs a lightning, voltage, ground fault, phase loss, power factor and overload on a screen in real time; An inverter, one end of which is connected to the main controller and the other end of which is connected to a three-phase electric motor, converting a DC current into an AC current; And a magnet circuit control (MCC) for controlling driving of the three-phase electric motor and preventing destruction of the electric circuit.

When the power integrated monitoring control system according to the present invention detects an abnormality in information on lightning, voltage, ground fault, phase loss, power factor, overload, and water level, the main power cutoff notification (OCR GOCR, abnormal low voltage, abnormal high voltage), water level By sending voice comments and texts to the voice notification unit 130 and the monitoring unit 140, such as monitoring and alerting and alerting alerts to boundary divisions, the administrator may be able to determine in real time whether or not the equipment is abnormal in the district. In addition, it does not require cost, time and manpower to visit the local area and check the actual situation, and it is possible to monitor lightning, phase loss, ground fault, etc. It can respond quickly to the occurrence of burnout, equipment damage due to motor overload, and personal injury caused by ground fault.

In addition, the power integrated monitoring and control system according to the present invention can prevent the destruction of the motor and the electric circuit due to lightning strikes, the device safety protection against three-phase power voltage fluctuations and the device burnout prevention effect due to phase-out accidents, motor overload Secondary protection for the system, instantaneous protection against ground faults, can protect the life, save power by monitoring the power factor of the motor, monitor the remote control using the CDMA modem, and control the insulation of the induction motor by the inverter.

1 is a view showing a power integrated monitoring control system according to an embodiment of the present invention.
2 is a schematic diagram schematically showing a power integrated monitoring control system according to an embodiment of the present invention.
FIG. 3 is a circuit schematic diagram illustrating the voltage monitoring sensor of FIG. 1 in detail.
Figure 4 is a schematic diagram showing an example of sending speech and text.

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. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, a power integrated monitoring control system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a power integrated monitoring control system according to an embodiment of the present invention, Figure 2 is a schematic diagram showing a power integrated monitoring control system according to an embodiment of the present invention.

1 and 2, the integrated power control monitoring system 100 according to an embodiment of the present invention is pressurized to supply water for agricultural equipment, drinking and crop farming agricultural water located in the farmland or mountainous areas It is installed in either a facility or a power feeding facility equipped with a motor using power for three-phase 380V.

At this time, the power integrated monitoring control system 100 according to an embodiment of the present invention is the monitoring sensor unit 110, the main control unit 120, voice notification unit 130, monitoring unit 140, inverter 150 and MCC (160, magnet circuit control).

The monitoring sensor unit 110 serves to monitor lightning, voltage, ground fault, phase loss, power factor, and overload, respectively. The monitoring sensor unit 110 is a lightning monitoring sensor 111 for detecting a lightning strike, a voltage monitoring sensor 112 for detecting a voltage, a ground fault monitoring sensor 113 for detecting a ground fault, and detects an image An imaging monitoring sensor 114 for controlling, a power factor monitoring sensor 115 for detecting a power factor, and an overload monitoring sensor 116 for detecting an overload may be provided. In addition, the monitoring sensor unit 110 may further include a water level monitoring sensor (not shown) for monitoring the level of the reservoir or reservoir.

At this time, the ground fault monitoring sensor 113 is mounted for the purpose of detecting whether a large current of 380V or more flows to the ground due to the burnout of the motor device, and the phase detection sensor 114 is disconnected from any one of the multiphase alternating current circuits. It is mounted for the purpose of detecting whether or not. The power factor monitoring sensor 115 monitors a power factor which is a phase difference between current and voltage in alternating current. At this time, if there is a phase difference between the current and the voltage in AC, the power is not equal to the product of the current and the voltage, and the power is always small. The product of the actual current and voltage multiplied by a factor is called the power factor of the circuit (abbreviated as PF). As in the present invention, the power factor monitoring sensor 115 is attached to monitor the power factor of the motor, thereby achieving a power saving effect.

3 is a circuit schematic diagram specifically showing the voltage monitoring sensor of FIG. 1.

Referring to FIG. 3, the voltage monitoring sensor 112 includes a transformer 112a for stepping down an AC current to a predetermined level or less, a power IC 112b for measuring AC power output from the transformer 112a, and a DC. A voltage step-down circuit 112c for stepping down the current to a predetermined level or less, an amplifier circuit 112d for amplifying the DC voltage output from the voltage step-down circuit 112c, and a DC voltage amplified by the amplifier circuit 112d. It may include a converter 112e for converting into digital data.

Referring back to FIGS. 1 and 2, the main controller 120 receives and outputs each output signal from the monitoring sensor unit 110 to perform computational and analysis processing. The main controller 120 computes and analyzes each output signal received from the monitoring sensor unit 110 to transmit a voice notification light signal to the voice notification unit 130 and the monitoring unit 140. In addition, the main control unit 120 may wirelessly transmit / receive the remote control unit 180 to check the lightning, voltage, ground fault, phase loss, power factor, and overload at a remote location in real time.

The voice notification unit 130 receives the output signal from the main control unit 120 and sends a voice notification message. The voice notification unit 130 is linked to the monitoring unit 140 in real time to send a voice notification message to the administrator.

The monitoring unit 140 receives the output signal from the main control unit 120 and outputs the occurrence of lightning, voltage, ground fault, phase loss, power factor, and overload on the screen in real time. The monitoring unit 140 to the manager lightning monitoring sensor 111, voltage monitoring sensor 112, ground fault monitoring sensor 113, phase detection monitoring 114, power factor monitoring sensor 115, overload monitoring sensor 116. The normal operation and abnormal operation of the lamp are displayed. At this time, the monitoring unit 140 is made of an LCD panel.

One end of the inverter 150 is connected to the main control unit 120, the other end is connected to the three-phase electric motor, serves to convert AC 60Hz power into AC 0 ~ 300Hz power.

The MCC 160 controls the driving of the three-phase electric motor and is mounted for the purpose of preventing destruction of the electric circuit. At this time, the MCC 160 is used in a three-phase power system using a three-phase electric motor. When one phase is missing in the three-phase power system, unbalanced current flows to the system or single-phase power is supplied, and overcurrent flows to the coil of the three-phase electric motor, causing fire and serious damage to the power system. The MCC 160 is mounted for the purpose.

In addition, the power integrated monitoring control system 100 according to an embodiment of the present invention further includes a main power supply unit 170 and a remote control unit 180.

The main power supply unit 170 supplies power to the monitoring sensor unit 110, the main control unit 120, and the inverter 150. The main power supply unit 170 is set to supply 220V and 0.2A to the monitoring sensor unit 110, 12V and 2A to the main control unit 120, and 12V and 3A to the inverter 150. It is set to supply.

The remote controller 180 wirelessly transmits and receives the main controller 120. The remote control unit 180 preferably uses a code division multiple access (CDMA) modem. This CDMA scheme is one of multiple access schemes using spread-spectrum communication technology. Spread-band communication technology is to spread the signal to a bandwidth much wider than the bandwidth of the signal to be transmitted, it is difficult to detect the presence of the signal because the power density of the signal is lowered. In addition, in order to generate the original signal in the process of despreading the received signal, the receiver must know the code used at the time of spreading so that the confidentiality of the communication is guaranteed. There is an advantage that does not interfere with communication.

Therefore, as in the present invention, when using the CDMA modem as the remote control unit 180, it may be possible to control and monitor the remote control more accurately and quickly over a long distance.

On the other hand, although not shown in the drawings, the power integrated monitoring control system 100 according to an embodiment of the present invention is an intrusion detection sensor (not shown) for monitoring the presence of intrusion in the boundary section and the intrusion signal from the intrusion detection sensor It may further include a wireless transceiver (not shown) for receiving and transmitting intrusion or not. Therefore, the administrators may be able to check in real time whether or not the intrusion notification in the boundary section by transmitting and receiving wirelessly with each other using the intrusion detection sensor and the wireless transceiver.

On the other hand, Figure 4 is a schematic diagram showing an example of sending voice messages and text, will be described in connection with FIG.

1 and 4, when each output signal from the monitoring sensor unit 110 is transmitted to the main control unit 120, the main control unit 120 performs lightning, voltage, ground fault, phase loss, power factor, overload, water level, and the like. Computerized processing and analysis of the output signal.

At this time, when the main control unit 120 detects that there is an error in information on lightning, voltage, ground fault, phase loss, power factor, overload, level, etc., main power cutoff notification (OCR GOCR, abnormal low voltage, abnormal high voltage), water level monitoring and Information such as alerts and alerts for intrusion into border sections is sent to the voice notification unit 130 and the monitoring unit 140 to send voice comments and texts.

Through the voice notification unit 130 and the monitoring unit 140, the administrator may be able to determine in real time the abnormality of the equipment of the district, the cost, time required to check the actual situation to visit the area directly In addition to the need for human resources, it is possible to monitor lightning strikes, missing phases, and ground faults. It may be possible to respond quickly to an occurrence.

When the power integrated monitoring control system according to the above-described embodiment of the present invention detects an abnormality in information on lightning, voltage, ground fault, phase loss, power factor, overload, and water level, the main power cutoff notification (OCR GOCR, abnormal low voltage, By sending voice comments and texts to the voice notification unit 130 and the monitoring unit 140 such as abnormal high voltage), water level monitoring and alarm, and notification of intrusion into the boundary section, the administrator can identify in real time whether or not the equipment is abnormal. It can be possible, not only does not require the cost, time and manpower required to visit the local area to check the actual situation, but also to monitor the lightning, phase loss, ground fault, etc. It can respond quickly to damages of equipment due to phase loss, equipment damage due to motor overload, and human injury to ground fault.

In addition, the power integrated monitoring control system according to an embodiment of the present invention can prevent the destruction of the motor and the electric circuit due to lightning, the device safety protection against the three-phase power voltage fluctuations and the device burnout prevention effect due to the phase-out accident Secondary protection against motor overload, instantaneous shutdown against ground fault, life-saving, power saving by motor power factor monitoring, remote control monitoring using CDMA modem, and insulation control of induction motor by inverter can be achieved. .

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. These changes and modifications may be made without departing from the scope of the present invention. Accordingly, the scope of the present invention should be determined by the following claims.

100: integrated power monitoring control system 110: detection sensor unit
111: lightning monitoring sensor 112: voltage monitoring sensor
113: ground fault monitoring sensor 114: phase loss monitoring sensor
115: power factor monitoring sensor 116: overload monitoring sensor
120: main control unit 130: voice notification unit
140: monitoring unit 150: inverter
160: MCC 170: main power supply
180: remote control

Claims (10)

A monitoring sensor unit for monitoring lightning, voltage, ground fault, phase loss, power factor and overload, respectively;
A main controller which receives each output signal from the monitoring sensor unit and computes and analyzes the output signal;
A voice notification unit receiving the output signal from the main controller and sending a voice notification message;
A monitoring unit receiving an output signal from the main control unit and outputting an image of whether lightning, voltage, ground, phase loss, power factor, and overload occur in real time as an image;
An inverter, one end of which is connected to the main controller and the other end of which is connected to a three-phase electric motor, converting a DC current into an AC current; And
Includes; MCC (magnet circuit control) for controlling the driving of the three-phase electric motor, to prevent destruction of the electrical circuit
The monitoring sensor unit includes a lightning monitoring sensor for detecting a lightning strike, a voltage monitoring sensor for detecting a voltage, a ground fault monitoring sensor for detecting a ground fault, an imaging monitoring sensor for detecting an open phase, and a power factor for detecting a power factor. Monitoring sensor and an overload monitoring sensor for detecting an overload,
The voltage monitoring sensor includes a transformer for indirectly measuring AC load current, a power IC for measuring AC power output from the transformer, a voltage step-down circuit for stepping down DC current to a predetermined level or less, and the voltage step-down circuit. And an converter for amplifying the DC voltage output from the digital signal, and a converter for converting the DC voltage amplified by the amplification circuit into digital data.
delete The method of claim 1,
The monitoring sensor unit
And a level monitoring sensor for monitoring the level of the reservoir or reservoir.
delete The method of claim 1,
The power integrated monitoring control system
The power integrated monitoring control system further comprises a main power supply for supplying power to the monitoring sensor unit, the main control unit and the inverter.
6. The method of claim 5,
The main power supply unit
The monitoring sensor unit is set to supply 220V and 0.2A,
The main control unit is set to supply 12V and 2A,
And the inverter is configured to supply 12V and 3A.
The method of claim 1,
The power integrated monitoring control system
And a remote control unit for remotely transmitting and receiving wirelessly with the main control unit.
8. The method of claim 7,
The remote control unit
A power integrated supervisory control system using a CDMA modem (code division multiple access).
The method of claim 1,
The power integrated monitoring control system
An intrusion detection sensor for monitoring an intrusion in a boundary compartment;
And a wireless transceiver for receiving and transmitting an intrusion signal from the intrusion detection sensor.
The method of claim 1,
The power integrated monitoring control system
The electric power is installed in any one of the agricultural field or mountainous electric power equipment, drinking and crop farming pressurized facilities for water supply, and a three-phase 380V power feeder equipped with a motor using power. Integrated Surveillance Control System.

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