KR100396394B1 - Remote observation method of electric device - Google Patents

Abstract

The present invention is a real-time data by analyzing all the defect factors such as phase loss, power failure, overcurrent, short circuit, transformer overheating, generator battery abnormality and external machine abnormality generated in various equipments such as transformer or water distribution line installed in the customer Collected and stored in RAM, and the stored information is transmitted to the central control room at once through a communication line after a certain time, reducing communication costs, maximizing the use efficiency of the computer, and operating set values of the monitored object. The present invention relates to a remote monitoring system of an electrical installation that enables remote change of a vehicle.

Description

Remote monitoring method of electrical equipment {REMOTE OBSERVATION METHOD OF ELECTRIC DEVICE}

The present invention is a remote monitoring method of the electrical equipment, more specifically, the imaging, power failure, overcurrent, short circuit, transformer overheating, generator battery abnormality and external machinery generated in various equipment such as transformer or water and distribution line installed in the electric customer After collecting defects such as above and collecting them in real time and storing them in RAM, the stored information is transferred to the central control room at a time through a communication line after a certain period of time, thereby reducing communication costs and using computers. The present invention relates to a remote monitoring method of an electrical installation that maximizes efficiency and enables to remotely change an operation set value of an object to be monitored.

In general, in the case of a large-scale electric customer as well as a small-scale simple faucet and a power generation facility, there are problems caused by the continuous maintenance of the electric facility by performing at least one round trip inspection per month in accordance with the Electrical Safety Management Rules. To complement them.

When you want to check the safety of the electrical equipment, it was mainly done in the state of power failure that cut off the power supply.In the case of inspection work, it was inconvenient because the inspector had to check all the conditions such as current, voltage, overheating and phase loss. This was excessively consumed, and there were problems such as excessive consumption of costs for regular inspections.

In order to solve the inconvenience and various problems of safety inspection by manual operation, a remote power monitoring device has already been developed, installed, and operated. For example, a central processing unit installed in a facility by signaling an error generated by a customer's electrical equipment. After determining whether there is an abnormality by comparing with the data set in the above, the remote power monitoring method that transmits to the computer of the central control room through the communication line and contacts the safety manager through wired / wireless as well as output means such as a monitor. It is known as a prior application of the invention (application number: 99-44905).

However, the related art sends the incident related data generated by the customer to the central control room through the modem of the central processing unit installed in the facility or collects and analyzes the power usage data of each customer in real time using the modem in the central control room. Since it was determined whether there was an accident, there was an uneconomical problem in that the burden of the communication fee for receiving data in real time through the leased line was very large.

In addition, when collecting power-related data for one customer, it is necessary to use different computer equipment to collect data for another customer, and to manage multiple customers simultaneously, the amount of computer equipment and manpower that is proportional to the number of customers is required. As it became unavoidable, simultaneous management was difficult.

In particular, most electric facilities had to change the operation setting values of the power remote monitoring device installed in the customer considering the change of temperature and the load characteristics according to the season and the time period. Due to the inconvenience of having to visit the aftercare resulted in poor, there was a problem such that the installation effect of the remote monitoring device is reduced.

The present invention has been made in view of the problems of the conventional power remote monitoring device, the object of which is to store the data collected from each customer in real time, and then transmitted at once, to reduce the communication cost, increase the utilization of the computer It is to provide a remote monitoring method of electrical equipment that can be.

It is another object of the present invention to provide a remote monitoring method of an electrical equipment that can respond to changes in the external environment by allowing the operation setting value of the electrical equipment installed in the customer to be changed remotely from the central control room.

The present invention for achieving this purpose, by using a facility that is configured so that the unit installed in the electrical equipment of the customer can transmit and receive data with the central computer 10 of the control unit 9 of the power company through a modem. After the signals input through the various input units 1 of the unit are amplified and A / D converted, data and an error are transmitted to the central computer 10, and the central computer 10 is set in the unit. A method of changing a setting value as a reference for determining whether an error is present, comprising the steps of: loading and executing a program stored in the ROM storage unit 6, and setting an initial value of the setting value in the central processing unit 4 of the unit; ; Collecting and amplifying and A / D converting data from the input unit 1 in real time, and storing it in the RAM storage unit 5; determining whether a predetermined reporting time has been reached; If it is determined that the reporting time has been reached, the predetermined contents are displayed on the display unit 7, the data and the errors are transmitted to the central computer 10, and then the process returns to the step of collecting and storing real-time data. If it is determined that the error has occurred by comparing the collected data with a set value; if it is determined that the error has occurred, it is determined whether the error number has reached a predetermined number of times; And returning to the storing step; if it is determined that the number of errors reaches a predetermined number of times, the predetermined contents are displayed on the display unit 7 and the real-time data is transmitted to the central computer 10 after the data and the error are transmitted. Return to the collection and storage step, the number of times the error number is predetermined If it is determined that the number has not been reached, returning to the step of collecting and storing real-time data; monitoring whether or not the data is received from the unit is monitored by the central computer 10, and storing the received data and monitoring the data if the data is received. 12); judging whether it is necessary to adjust the set value of the unit of the consumer when the central computer 10 determines that there is no data reception from the unit; and determines that there is a need for adjusting the set value. In this case, the step of updating the set value by driving the modem 11 and connecting to the modem 8 and recording a new set value at a specific address. In the present invention, preferably, the input terminal provided in the input unit 1 is used to monitor power failure, phase loss and low voltage. Monitoring input terminal, overload monitoring input terminal to prevent overheating of main circuit due to overload and burnout of transformer, leakage monitoring input terminal to prevent electric shock and fire, transformer temperature monitoring input terminal for measuring temperature of transformer, battery life And a battery voltage monitoring input terminal for preparing for an emergency and an input terminal for monitoring a contact provided in a facility such as waste water or a gas leakage alarm.

1 is a block diagram showing the overall configuration of a remote monitoring system of the present invention;

2 is a flow chart showing the operation of the unit installed in the customer in the remote monitoring system of the present invention;

3 is a flowchart showing the operation of the computer of the central control unit connected by modem to the unit.

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

1 input unit 2 amplification unit

3: A / D conversion unit 4: Central processing unit

5: RAM storage 6: ROM storage

7: Display part 8, 11: Modem

9 control unit 10 central computer

12: monitor 13: automatic telephone connection device

14: remote control device

Hereinafter, described in detail with reference to the accompanying drawings the remote monitoring system of the electrical equipment of the present invention.

Figure 1 is a block diagram showing the overall configuration of the remote monitoring system of the present invention, Figure 2 is a flow chart showing the operating state of the unit installed in the customer in the remote monitoring system of the present invention, Figure 3 is a modem to the unit It is a flow chart which shows the operation state of the computer of the central control part connected.

The unit installed in various electrical equipments of the electric consumer has an input unit (1) having a plurality of input terminals for monitoring various types of accidents that may occur in the facility, and the digital signal by amplifying the input signal by the amplification unit (2) It consists of the central processing unit 4 which detects the presence or absence of abnormality after comparing with the data set via the A / D conversion unit 3 which converts into a signal.

The input terminal provided in the input unit 1 is a voltage monitoring input terminal for monitoring power failure, phase loss and low voltage, an overload monitoring input terminal for preventing overheating of the trunk due to overload and damage of the transformer in advance, for preventing electric shock and fire. Earth leakage monitoring input terminal, transformer temperature monitoring input terminal for measuring transformer temperature, battery voltage monitoring input terminal for battery life and emergency, and input terminal for monitoring contacts provided in facilities such as waste water or gas leakage alarm It monitors various types of abnormalities and accidents that may occur in electrical equipment.

The central processing unit (4) includes a RAM storage unit (5) for comparing the signal measured and input from the input terminal with the setting data and storing the result for a predetermined period of time for each period, and the operation in the central processing unit (4). ROM storage unit 6 for storing a program for processing, a display unit 7 for displaying the processing result of the central processing unit 4, and a control unit 9 for the safety manager to determine whether there is an abnormality And modems 8 for transmitting and receiving are respectively connected.

In addition, the central computer 10 installed in the control unit 9 for remote control has a modem 11 for transmitting and receiving to and from the central processing unit 4 of the unit installed in the customer, and the received information to the safety manager. In addition to the monitor 12 and the image information, the automatic telephone connection device 13 that can transmit information to the safety manager quickly by using a wired / wireless communication means separately from the safety manager, and the Remote control for controlling the data stored in the central processing unit (4) of the customer's unit to adjust the voltage or temperature set value of the electrical equipment installed in the customer by seasonal time zone through the central computer (10) of the control unit (9) The device 14 is connected with the central processing unit 4.

Accordingly, the present invention as described above is to set the initial value for each element through a setting unit (not shown) provided in the central processing unit of the unit to meet the specifications of the customer's electrical equipment, the setting for the low voltage generator (B) To protect the load side by setting a range that does not interfere with the load side and the low voltage duration time in the event of voltage abnormality of the KEPCO line, for example, the loss of voltage setting. By setting it properly, it sets the phase delay time to prevent three-phase power load protection and burnout of single-phase load due to other phase voltage rise.

In addition, the overcurrent setting protects the transformer and the load side overload by setting the load side overcurrent limit setting and time, and the leakage current setting prevents malfunction, electric shock and fire by setting the leakage current minutely to a size of 1 mA. Set the maximum allowable temperature and time of the transformer and motor to protect the transformer and motor.

In addition, the data transmission time setting inputs the peak time zone according to the characteristics of the customer, and transmits the load to the computer in real time to obtain accurate data values. The telephone number setting inputs the telephone number of the person in charge or the customer for contact.

When operating the remote monitoring system of the present invention in the state of setting each reference value as described above, each signal generated from the male and the distribution terminal is input to the input terminal corresponding to the signal to each input terminal installed in the input unit 1, The analog signal input to the input unit 1 is amplified by the amplifier 2, converted into a digital signal by the A / D converter 3, and then transmitted to the central processing unit 4.

Therefore, as shown in FIG. 2, the data inputted to the central processing unit 4 confirms an error by comparing with a setting value initially set, and stores the data in the RAM storage unit 5 in real time when the confirmed result is normal. When the result is abnormal, the contents are stored in the RAM storage unit 5 and the error is transmitted to the central computer 10 of the control unit 9.

Various data measured and compared by the central processing unit 4 are stored in the RAM storage unit 5 in real time according to the measurement time and the number of measurement times (about 300 times), and then each modem 8 of the customer unit and control unit ( 11) By transmitting to the central computer 10 at the same time through the communication line connecting, it is possible to communicate with the unit installed in the various customers if the transmission time zone is different by one communication line, as well as to minimize the number of communication The cost can be reduced, and since various information are transmitted to the central computer sequentially, malfunctions due to the overload of information can be prevented.

On the other hand, if a value is determined to be an error as a result of comparing the data input to the central processing unit 4 and the set value, an error occurs to the control unit 9 through the modem 8 and the telephone line as well as the display unit provided in the unit itself. Send a signal.

When the error signal is input to the central computer 10 through the modem 11 installed in the control unit 9 and displays the error signal through the monitor 12 connected to the central computer 10 so that the operator can check the error signal; At the same time, it is stored in the internal memory (not shown) of the central computer 10, and if the error occurrence time is weekly, after passing through the extension to the person in charge and the type and time of the message delivered to the person in charge and the processing result of the person in charge Will be stored in memory.

In addition, when the error occurrence time is night, the telephone number of the person in charge is automatically dialed in the automatic telephone connection device (13) to contact, and if the contact with the person in charge is not available, save the message to the person in charge Call another phone number so that you can contact the person in charge.

In addition, if a person in charge from outside contacts the central computer in the control room and saves it in the memory so that the user can receive the received error message, the user can contact the person in charge for errors occurring in the water supply and distribution lines, and can deal with it promptly. .

On the other hand, if the customer's electrical equipment is affected by the season or the climate, the remote control device 14 provided in the central computer of the control room has the data set value set in the central processing unit 4 of the unit installed in the customer's electrical equipment. By operating and controlling the setpoint remotely, it is possible to monitor the electric equipment in optimum condition according to external conditions.

As described above, the remote monitoring system of the electrical equipment of the present invention makes data of various signals generated by the electrical equipment of each customer, confirms the error, and promptly informs the result according to the result, and stores the data in real time. Communication costs can be reduced by transmitting to the central computer, and safety can be improved by monitoring the electrical equipment accurately by remotely controlling the central processing unit installed in the customer's electrical equipment from the central computer in the control room where the safety manager resides. There is also an advantage.

Claims (2)

The unit installed in the customer's electrical equipment is connected to the central computer 10 of the control unit 9 of the electric power company via a modem. After the input signal is amplified and A / D converted, data and an error are transmitted to the central computer 10, and the central computer 10 sets a reference value for determining whether an error is set in the unit. In how to change, Loading and executing a program stored in the ROM storage unit 6, and setting an initial value of the set value in the central processing unit 4 of the unit; Collecting data from the input unit 1 in real time, amplifying and A / D converting the data, and storing the data in the RAM storage unit 5; Determining whether a predetermined reporting time has been reached; If it is determined that the reporting time has been reached, the predetermined contents are displayed on the display unit 7, the data and the error are transmitted to the central computer 10, and then the process returns to the step of collecting and storing real-time data, and the reporting time is reached. If not, determining whether an error has occurred by comparing the collected data with a setpoint; If it is determined that the error has occurred, determining whether the error number has reached a predetermined number, and if it is determined that the error is not an error, returning to the step of collecting and storing real-time data; If it is determined that the number of errors has reached a predetermined number of times, the predetermined contents are displayed on the display unit 7, the data and the error are transmitted to the central computer 10, and then the process returns to the step of collecting and storing real-time data. If it is determined that the number of times does not reach a predetermined number of times, returning to the step of collecting and storing real-time data; Monitoring whether or not the data is received from the unit by the central computer (10), and storing the received data and outputting the received data to the monitor (12); Judging whether or not the central computer 10 needs to adjust the set value of the unit of the consumer when it is determined that there is no data reception from the unit; If it is determined that the setting value needs to be adjusted, driving the modem 11 to connect with the modem 8 to update the setting value by writing a new setting value at a specific address; Remote monitoring method of the electrical equipment, characterized in that consisting of. The method of claim 1, The input terminal provided in the input unit 1 is a voltage monitoring input terminal for monitoring power failure, phase loss and low voltage, an overload monitoring input terminal for preventing overheating of the trunk due to overload and damage of the transformer in advance, for preventing electric shock and fire. Earth leakage monitoring input terminal, transformer temperature monitoring input terminal for measuring transformer temperature, battery voltage monitoring input terminal for battery life and emergency, and input terminal for monitoring contacts provided in facilities such as waste water or gas leakage alarm Remote monitoring method of the electrical equipment, characterized in that configured to include any one or more of.