KR20070050900A - Demand controller with built-in arc, heat and gas sensor for danger-monitering in electric panel - Google Patents

Abstract

The present invention relates to a maximum demand power management device installed in a multi-functional switchgear to control the maximum demand power of the power consumer, and more specifically, the maximum demand power by providing an arc, heat, gas detection sensor inside the maximum demand power management device In addition to the management function, the purpose is to effectively perform the function of preventing the failure and fire of the equipment installed and operated in the switchgear.

The present invention to achieve the above object, the maximum demand power management device inside; An arc detection sensor installed in a switchgear and detecting an arc occurring due to an age deterioration and an accident of devices in operation; A heat sensor for detecting a sudden increase in winding temperature due to aging of transformer components; A gas sensor for detecting carbon monoxide (CO) and carbon dioxide (CO2) generated during internal fire in switchboards; An amplifying unit for amplifying the received fine signal into a usable signal; An A / D converter converting the amplified analog signal into a digital signal; CPU processor for performing a risk determination inside the switchboard; An alarm relay to warn the field worker of danger in the event of an accident; Transmission of danger signals to warn remote workers of danger in the event of an accident; It includes having a.

Multi-functional switchgear, maximum demand power management device, arc sensor, heat sensor, gas sensor, amplifier, A / D converter, CPU processor

Description

DEMAND CONTROLLER WITH BUILT-IN ARC, HEAT AND GAS SENSOR FOR DANGER-MONITERING IN ELECTRIC PANEL}

1 is a view showing the configuration of a conventional maximum demand power management system,

2 is a view showing the internal configuration principle of the maximum demand power management device built-in arc, heat, gas detection sensor according to the present invention,

3 is a view showing the configuration of the maximum demand power management system built-in arc, heat, gas detection sensor according to the present invention,

4 is a flowchart illustrating the operation of the present invention.

** Description of symbols for the main parts of the drawing **

100: remote monitoring monitoring PC 200: maximum demand power management device

300: electronic electricity meter 400: power management server

500: Maximum demand power management device with built-in arc, heat and gas sensor

510: arc detection sensor 520: heat detection sensor

530: gas detection sensor 540: amplifier

550: A / D conversion unit 560: CPU processor

570: alarm relay 580: dangerous signal transmission

600: display / warning bell

The present invention relates to a maximum demand power management device installed in a multi-functional switchgear to control the maximum demand power of the power consumer, and more specifically, the maximum demand power by providing an arc, heat, gas detection sensor inside the maximum demand power management device In addition to the management function, the purpose is to effectively perform the failure monitoring and fire monitoring functions of the equipment installed and operated in the switchgear.

In general, the demand demand controller is a control device that performs power management so that the maximum demand power above the target power set by the consumer is not recorded in the meter of the power supply by constantly monitoring the power consumption of the power consumer. KEPCO and the Korea Energy Management Corporation have implemented the Direct Load Control (DLC) for the purpose of maintaining proper reserve ratio and power quality, stabilizing power prices, and efficiently operating power generation facilities and energy resources. Is installed inside the switchgear for high-voltage customers, and it is mandatory to install the maximum demand power management device in the multi-functional switchgear even when high efficiency equipment is certified.

As described above, the maximum demand power management device is widely used in switchboards, but due to the failure prevention and monitoring equipment for early detection of abnormal signs on power transformers and devices installed in switchboards, At the time of occurrence, it was spread to large-scale accidents such as power outages and fires, which resulted in the damage of property and human property.

The present invention has been made in view of the above problems, and is equipped with an arc, heat, gas detection sensor in the maximum demand power management device which is mandatoryly mounted in the multi-functional switchgear to monitor the risk detection elements in the switchgear at all times By adding a function, on-site workers can warn the workers through the danger indicator lamps and warning alarms to take immediate action, and in the far field, remote workers can take appropriate action by sending a danger signal through the monitoring PC. Provided are a failure prevention system and a method thereof.

In order to achieve this technical problem, the maximum demand power management device of the present invention; An arc detection sensor installed in a switchgear and detecting an arc occurring due to an age deterioration and an accident of devices in operation; A heat sensor for detecting a sudden increase in winding temperature due to aging of transformer components; A gas sensor for detecting carbon monoxide (CO) and carbon dioxide (CO2) generated during internal fire of the switchboard; An amplifying unit for amplifying the received fine signal into a usable signal; An A / D converter converting the amplified analog signal into a digital signal; CPU processor for performing a risk determination inside the switchboard; An alarm relay to warn the field worker of danger in the event of an accident; And a danger signal transmission to warn the remote worker of danger in the event of an accident.

At this time, the arc detection sensor is mounted on the rear of the maximum demand power management device to use a sensor that can monitor the entire area inside the switchboard, and discriminates between the simple arc occurring during the operation of the equipment and the arc in case of aging or accident. Set the arc detection threshold so that it can be done. If it is determined that an accident is detected during the arc detection, the worker is warned of the danger.

In addition, the thermal sensor is mounted on the rear of the maximum demand power management device to measure the winding temperature of the power transformer installed inside the switchboard. In particular, the power transformer installed inside the switchgear is the most important device in the switchgear system, so it is necessary to monitor the failure prevention of the transformer. In addition, the standard value is set to distinguish between the temperature rise due to the rise of the ambient temperature and temporary overload and the temperature rise in the event of an accident, and if the temperature rise due to the accident is determined, the site workers and remote workers are warned of danger.

In addition, the gas sensor is also mounted on the rear of the maximum demand power management device to detect the concentration of carbon monoxide (CO) and carbon dioxide (CO2) in the switchboard. In addition, the reference value is set to determine the concentration of carbon monoxide (CO) and carbon dioxide (CO2) and the concentration at the time of an accident, and if the concentration is determined at the time of an accident to warn field workers and remote workers.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. It should be noted that, if it is determined that the detailed description of the sensing function and its configuration built in the maximum demand power management device related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. .

Hereinafter, the overall technical spirit of the present invention with reference to the drawings.

1 is a view showing the configuration of a conventional maximum demand power management system. As shown in Figure 1, the maximum demand power management system is installed in the maximum demand power management device 200, the electric power meter 300 is installed in the power inlet area of the power consumer, the worker is installed where Remote monitoring monitoring PC 100, which includes the power management server 400 for monitoring the supply and demand of power.

Referring to the function of the maximum demand power management device 200 shown in FIG. 1 in detail, a power amount pulse signal and a 15 minute demand time signal are received from an electronic power meter 300 installed to measure power consumption of a power consumer. Power monitoring is performed at all times to ensure that the maximum demand power above the target power set by the customer is not recorded in the meter of the power supplier. By using the load control relay built-in as a power management means to control the unnecessary load of the customer to maintain the maximum demand power below the target power at all times, and through the remote monitoring monitoring PC (100) through the power management situation The power management server 400 transmits.

On the other hand, Figure 2 is a view showing the internal membership of the maximum demand power management device 500 incorporating the arc, heat, gas detection sensor according to the present invention. As shown in Figure 2, the maximum demand power management device 500 according to the present invention to early detection of abnormal signs for the maximum demand power management device 500 and power transformers and devices that are installed inside the switchgear In order to add an arc, heat, gas sensor (510, 520, 530) is characterized.

Looking specifically at the membership of Figure 2, the interior of the switchboard and the built-in arc detection sensor 510, heat detection sensor 520, gas detection sensor 530 in the rear of the invented maximum demand power management device 500 This state is input through the arc, heat and gas sensors. Since the received analog data is a fine signal, the CPU amplifies the large signal usable through the amplification unit 540 inside the device and performs a failure determination through an analog-to-digital converter 550. It is input to the processor 560. The CPU processor operates the display lamp or the alarm bell by using the built-in alarm relay 570 to determine the normal state and the fault condition, and transmits a danger signal 580 to the remote monitoring monitoring PC 100. Will be performed.

Next, FIG. 3 is a diagram illustrating a configuration of a maximum demand power management system incorporating an arc, heat, and gas detection sensor according to the present invention, in addition to the conventional maximum demand power management apparatus 200 shown in FIG. 1. An arc detection sensor 510, a heat detection sensor 520, and a gas detection sensor 530 are built in, and when an accident occurs, a warning device and a warning bell 600 are used to warn workers of danger.

Hereinafter, the overall flow of the failure symptom and the fire monitoring method of the maximum demand power management device through the system configured as described above with reference to Figure 4 as follows.

First, as shown in Figure 4, the interior of the switchboard and the state of the devices are input to the arc, heat, gas detection sensor built in the maximum demand power management device 500 invented in the form of an analog signal (S400).

Next, since the analog signal input to the arc, heat, gas sensor (S400) is a fine signal, the CPU processor 560 amplifies the usable signal through the amplification unit operation in the device (S410).

Next, the amplified analog signal is converted into a digital signal that can be used by the CPU processor 560 via the A / D converter (S420).

The CPU processor 560 determines the accident by comparing the arc, heat, and gas signals, which are always A / D converted and inputted with the measured values in the normal state (S430). After 1 second of the determination data, the data is additionally collected and reconfirmed (S440).

At this time, if it is finally determined that the accident by operating the on-site display device and the warning bell to inform the site workers (S450), the remote surveillance monitoring PC by sending a danger signal to inform the far workers (S460).

Although described and illustrated in connection with a preferred embodiment for illustrating the technical spirit of the present invention, the present invention is not limited to the configuration and operation as shown and described as described above, it is a deviation from the scope of the technical idea It will be understood by those skilled in the art that many modifications and variations can be made to the invention without departing from the scope of the invention. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

According to the present invention as described above, the built-in arc, heat, gas detection sensor in the maximum demand power management device to monitor the risk detection elements inside the switchboard in real time to promptly respond to the risk in the field and distant in the event of an accident It is effective in preventing accidents and reducing physical and human damage in the event of an accident.

Claims (4)

In the maximum demand power management system for controlling the maximum demand power of the consumer, Maximum demand power management device 500 having an arc detection sensor 510 therein; A maximum demand power management device 500 having a thermal sensor 520 therein; And Maximum demand power management device 500, characterized in that it comprises a gas demand sensor (530) built-in maximum demand power management device (500). The method according to claim 1, Maximum demand power management device that is installed inside the switchgear and has a sensor that detects the arc of the equipment in operation and in case of an accident. The method according to claim 1, Maximum demand power management device that incorporates a sensor that detects the heat caused by the sudden rise in winding temperature that occurs during an accident due to normal and secular deterioration of the power transformer inside the switchgear. The method according to claim 1, Maximum demand power management device that incorporates sensors that detect the concentrations of carbon monoxide (CO) and carbon dioxide (CO2) that occur during normal and fire accidents inside the switchgear.

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