KR102184650B1 - Monitoring device and monitoring method using the same for a photovoltaic facility fire protection - Google Patents

Abstract

The present invention relates to a monitoring device for preventing fire in solar facilities, and a monitoring method using the same. According to the present invention, the monitoring device for preventing fire in solar facilities comprises a connection board housing, an inverter housing, a circuit breaker housing, and a central server, wherein the connection board housing comprises at least one of an infrared temperature sensor, a smoke sensor, a carbon monoxide sensor, a fine dust sensor, and a flame sensor. According to the present invention, an abnormal temperature can be precisely monitored.

Description

Monitoring device and monitoring method using the same for a photovoltaic facility fire protection}

The present invention relates to a monitoring device for preventing fire in a solar power facility and a monitoring method using the same, and more specifically, a fire detection monitoring and blocking through a composite sensor, and a user notification form, graded according to a sensing value, and linked thereto. It also includes countermeasures, and if the value of the complex sensor is out of the set range by registering the mobile phone number of the manager, it is immediately transmitted as a text message to quickly respond to the elementary school, and a monitoring device for preventing fire in solar power facilities suitable for various fire situations and It relates to a monitoring method using this.

In general, a plurality of sensors are installed inside the solar panel enclosure due to the risk of fire.

Conventionally, when a fire occurs, a fire is detected by installing a temperature sensor that provides an alarm and signal by fumes.

Conventional temperature sensors are installed on the inner plate of the enclosure to which the connection board is attached, and if the temperature is above the set temperature, it is judged as a fire, and there is a malfunction with only the temperature sensor. Was judged as.

However, if smoke is generated enough to be detected by the fire sensor, a very dangerous situation occurs because a fire is already in progress at one or somewhere in the connection panel.

On the other hand, the conventional inventor Korean Patent No. 1669222 uses a temperature sensor and a fire sensor to support the identification of a fire area where a fire is expected to occur inside the connection panel, and a preset fire pattern corresponding to the fire area It provides alarm information by verifying whether a fire has occurred or not.

However, there is a problem in that the fire pattern can be very different for each fire situation, and it cannot but be detected after the fire has progressed for a considerable amount of time because an accurate fire situation cannot be identified.

Korean Patent No. 1669222 Korean Registered Patent No.1736343 Korean Patent Registration No. 1658834

The present invention has been made to solve the above problems, a carbon monoxide sensor that provides an alarm and a signal when a gas is generated by a fire or a chemical reaction similar thereto, a carbon monoxide sensor that detects air particles and is much more than a smoke detection sensor for smoke. A composite sensor including a fine dust sensor that measures more precisely and a flame detection sensor that detects sparks caused by arcs and short circuits is constructed and installed on the ceiling inside the connection panel, and if an abnormal situation occurs in one of them, A solar facility fire that can block more than 90% of fires by cutting the fuse that receives the solar DC input, breaking the DC output breaker at the second stage using a trip, and blocking the circuit breaker for the inverter that outputs AC at the third stage. The purpose is to provide a monitoring device for prevention.

In addition, an object of the present invention is to provide a monitoring device for preventing fire in a solar power facility that can precisely monitor an abnormal temperature situation in a connection panel by installing an infrared temperature sensor with overlapping detection ranges.

In addition, an object of the present invention is to provide a monitoring device for preventing fire in a solar power facility that can appropriately respond according to the state of a connection panel by transmitting fire response manual information according to a sensor value measured by a composite sensor.

In addition, in the present invention, the central server determines that an abnormal situation has occurred because the sensor value measured by the composite sensor is more than a certain value, through the communication module, when the first alarm target administrator terminal is absent or does not receive contact within a certain time. It is an object of the present invention to provide a monitoring device for preventing fires in solar power facilities that can be communicated to the second and third manager terminals in turn.

In order to solve the above problems, the present invention provides a connection panel enclosure including a connection panel positioned between the solar module and the inverter to transmit DC power input from the solar module to the inverter and to place a protection device if necessary; An inverter enclosure including an inverter that converts DC power input through the connection panel into AC power and sends AC power to KEPCO through a grid connection panel; A circuit breaker enclosure including a circuit breaker that cuts off the AC power converted by the inverter when it exceeds a predetermined value; Includes; a central server for generating corresponding control information by receiving the information generated from the connection panel enclosure, inverter enclosure, and circuit breaker enclosure, wherein the access panel enclosure is attached to the interior of the access panel enclosure to detect the internal infrared temperature Infrared temperature sensor; A smoke detection sensor for detecting smoke inside the connection panel enclosure; A carbon monoxide sensor that detects toxic gas first before the concentration of the fumes reaches a predetermined value or more when arcs and smoke occurs inside the junction box, and provides an alarm and a signal; A fine dust sensor that compares and understands air quality by measuring smoke through detection of air particles inside the connection panel enclosure; A flame detection sensor that detects a flame caused by an arc and a short circuit inside the connection panel enclosure; Contains one or more of.

The central server provides the first alarm through the communication module when an abnormal situation occurs when the sensor value measured by one of the infrared temperature sensor, smoke detection sensor, carbon monoxide sensor, flame detection sensor, and fine dust sensor is above a certain value. The first manager is contacted, and if the first manager is absent or does not receive contact within a certain period of time, it is controlled so that the second and third managers can be contacted in turn.In the case of the first manager, fire response Control to transmit manual information.

The measurement data displays alarms and situations using a monitoring server or an app so that the administrator can constantly monitor and monitor through wired communication and wireless communication.

The central server determines that an abnormal situation has occurred because the sensor value measured by one of the infrared temperature sensor, smoke detection sensor, carbon monoxide sensor, flame detection sensor, and fine dust sensor is above a certain value, and the fuse to which the solar DC input is received. Is cut by the control signal.

The present invention is located between the photovoltaic module and the inverter to transmit the direct current power input from the photovoltaic module to the inverter and, if necessary, a connection panel housing including a connection panel capable of disposing a protection device; When an arc and smoke occurs inside the junction panel, a carbon monoxide sensor that first detects toxic gases and provides an alarm and a signal before the concentration of the fumes reaches a certain value, and air particles inside the junction panel are detected. A fine dust sensor that compares and understands air quality by measuring smoke; It includes; a flame detection sensor for detecting a flame caused by an arc and a short circuit inside the junction box.

A central server that receives the information generated by the access panel, generates corresponding control information, and transmits it to the manager terminal through a communication module; further including, the infrared temperature sensor, smoke detection sensor, carbon monoxide sensor, flame detection sensor, and The central server, which determines that an abnormal situation has occurred because the sensor value measured by one of the fine dust sensors exceeds a certain value, transmits alarm information to the administrator terminal through the communication module, and the first administrator, the first alarm target, is absent. To facilitate initial response by controlling to contact the 2nd and 3rd managers in turn, and in the case of the 1st manager, sending fire response manual information do.

The present invention comprises the steps of sensing an infrared temperature inside a junction box through an infrared temperature sensor; Detecting smoke inside the junction box through a smoke detection sensor; Detecting the toxic gas first before the concentration of the fumes reaches a predetermined value or higher when arcs and smoke are generated in the junction box through a carbon monoxide sensor, and providing an alarm and a signal; Comparing and grasping the quality of air by measuring smoke by detecting air particles inside the junction box through a fine dust sensor; It includes; detecting a flame due to an arc and a short circuit inside the junction box through a flame detection sensor.

The first alarm through the communication module is the central server that determines that an abnormal situation has occurred because the sensor value measured by one of the infrared temperature sensor, smoke sensor, carbon monoxide sensor, flame detection sensor, and fine dust sensor is above a certain value. When the target first manager terminal is absent or does not receive contact within a predetermined time, the contact is transferred to the second and third manager terminals in sequence; In the case of the first manager, the initial response step by controlling to transmit the fire response manual information; further includes.

In the present invention made as described above, a carbon monoxide sensor that provides an alarm and a signal when a gas is generated by a fire or a chemical reaction similar thereto, detects particles of air, and can measure smoke more precisely than a smoke detection sensor. .

In addition, in the present invention, since the infrared temperature sensor module is a non-contact type, it is possible to detect temperature changes of components such as the connection board PCB or diode than the conventional method of detecting the temperature of the heat sink and the inner plate. You can be very active in making situational decisions.

In addition, the present invention can precisely monitor an abnormal temperature situation in the connection panel by installing the infrared temperature sensor overlapping the detection range.

In addition, according to the present invention, the fire response manual information can be transmitted according to the sensor value measured by the composite sensor, so that appropriate response can be made according to the state of the connection panel.

In addition, the measurement data of each sensor according to the present invention can be conveniently informed of the alarm and situation using a monitoring server or an app so that the administrator can always monitor and monitor through wired communication and wireless communication.

In addition, according to the present invention, when a manager is absent or does not receive contact within a certain period of time, the contact is transferred to the second and third managers in sequence, so that the primary school response can be promptly handled to prevent the spread of secondary damage.

1 is a view showing the overall configuration of a monitoring device for preventing fire in a solar facility according to an embodiment of the present invention.
FIG. 2 is a view showing the front structure of a connection panel enclosure of a monitoring device for preventing fire in a solar facility according to an embodiment of the present invention.
3 is a diagram showing a detailed configuration of a monitoring device for preventing fire in a solar facility according to an embodiment of the present invention.
4 and 5 are flowcharts illustrating a monitoring method using a monitoring device for preventing fire in a solar facility according to an embodiment of the present invention.
6 is a flowchart illustrating a monitoring method using a monitoring device for preventing fire in a solar facility according to another embodiment of the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shape of the element in the drawings may be exaggerated to emphasize a clearer description. It should be noted that in each drawing, the same member may be indicated by the same reference numeral. In addition, detailed descriptions of known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention will be omitted.

As shown in Fig. 1, the present invention provides a connection panel enclosure 10, an inverter enclosure 20, a circuit breaker enclosure 30, a central server 100, a composite sensor 11, 12, 13, 14, 15, and a manager. It consists of / manager / maintainer terminal 200, etc.

The present invention is a carbon monoxide sensor 13 that provides a signal when a gas is generated by a fire or a chemical reaction similar thereto, and a fine dust sensor 14 that detects air particles and measures the smoke more accurately than a smoke detection sensor. ), and a flame detection sensor 15 that detects fire caused by arc and electric leakage, and is installed on the ceiling 10-1 inside the connection panel.

In addition, the sensor value measured by one of the infrared temperature sensor 11, smoke detection sensor 12, carbon monoxide sensor 13, and fine dust sensor 14 and flame detection sensor 15 is more than a certain value. As a result, the central server 100, which determines that an abnormal situation has occurred, cuts the fuse 10-3 into which the solar DC input is received by a control signal.

For example, if a composite sensor is installed on the ceiling inside the connection panel and an abnormal situation occurs in one of the sensors, the central server 100 first cuts the fuse 10-3 to which the solar DC input is input, and The DC output breaker (10-2) is cut off using a trip, and the inverter wiring breaker that outputs AC in the third order is cut off.

The fuse is a fuse cut by a control signal from the central server 100.

Therefore, the present invention does not judge the current temperature as a fire when it is above the set temperature while measuring the current temperature with a temperature sensor, but a carbon monoxide sensor that provides an alarm and a signal by a fire or a chemical reaction similar thereto, Including a dust sensor and a flame detection sensor that detects flames, it is possible to actively judge the situation for normal and abnormal situations.

The connection panel enclosure 10 includes a connection panel that is located between the solar module and the inverter to transmit DC power input from the solar module to the inverter and, if necessary, arrange a protection device.

The inverter enclosure 20 includes an inverter that converts DC power input through a connection panel into AC power and transmits AC power to KEPCO through a grid connection panel.

The circuit breaker enclosure 30 includes a circuit breaker that cuts off the AC power converted by the inverter when it exceeds a predetermined value.

The central server receives the information generated from the access panel housing 10, the inverter housing 20, and the circuit breaker housing 30 to generate corresponding control information.

In addition, it further includes a communication module 110 for connecting the central server and the manager terminal 200 through a network, and the central server 100 receives the information generated by the access panel 10 and generates corresponding control information. do.

The sensor value measured by one of the infrared temperature sensor 11, smoke detection sensor 12, carbon monoxide sensor 13, and fine dust sensor 14 and flame detection sensor 15 exceeds a certain value The central server 100, which determines that an abnormal situation has occurred, controls the second and third managers to be contacted sequentially through the communication module when the first alarm target manager is absent or does not receive contact within a certain time. And, in the case of the first manager, it is possible to facilitate initial response by controlling to transmit fire response manual information.

Among the complex sensors, the infrared temperature sensor 11 is a sensor that is attached to the interior of the junction box 10 to sense the infrared temperature therein, as shown in FIG. 2.

The infrared temperature sensor 11 not only eliminates a blind spot for detection, but also more accurately monitors the inside of the connection panel by attaching a plurality of the inside of the connection panel opening and closing door to overlap the sensing range. Can be detected.

In addition, by installing the infrared temperature sensor 11 overlapping the detection range so as to detect the temperature of the front opening door and the internal connection panel as well as the ceiling of the connection panel enclosure 10, abnormal temperature conditions within the connection panel can be precisely monitored. .

The smoke detection sensor 12 is a sensor that detects smoke inside the junction box housing 10, and the carbon monoxide sensor 13 has a concentration of fumes above a certain value when arcs and smoke occur inside the junction box housing 10. It is a sensor that detects toxic gas first before becoming, and provides an alarm and a signal by a fire or a similar chemical reaction.

The carbon monoxide sensor 13 may also detect the toxic gas first before the concentration of the fumes is thick when the arc and smoke are generated.

The fine dust sensor 14 measures the smoke through detection of air particles inside the junction box 10, and compares it with the current air quality after grasping the usual air quality in advance.

The flame detection sensor 15 is a sensor that detects a flame caused by an arc and a short circuit inside the connection box housing 10.

The flame flame in the junction box 10 radiates energy in a wide spectrum, and radiates ultraviolet rays and infrared rays in a wavelength band in which the flame cannot be seen with the naked eye other than visible rays. However, in the flame, a gentle waveform appears near 2 to 3 μm or has a sharp maximum value near 4.3 μm, so the flame detector according to the present invention is designed to respond to energy radiation having a wavelength of 4.35 μm±0.2 μm. It is desirable.

The sensor value measured by any one of the infrared temperature sensor 11, smoke detection sensor 12, carbon monoxide sensor 13, fine dust sensor 14, and flame detection sensor 15 exceeds a certain value. The central server 100, which determines that an abnormal situation has occurred, contacts the first administrator, who is the first alarm target, through the communication module, and when the first administrator is absent or does not receive contact within a certain time, the second and third administrators Controls to be contacted in order, and in the case of the first manager, control to display fire response manual information on the manager terminal 200.

Therefore, even for beginners or managers who lack related knowledge, it is possible to respond quickly to the initial stage.

The measurement data displays alarms and situations using a monitoring server or an app so that the administrator can constantly monitor and monitor through wired communication and wireless communication.

On the other hand, as another embodiment of the present invention, it includes a connection box housing 10, a central server 100, a manager/person in charge/maintenance terminal 200, a carbon monoxide sensor, a fine dust sensor, a flame detection sensor, and the like.

The connection panel enclosure 10 is located between the solar module and the inverter and transfers DC power input from the solar module to the inverter.

The carbon monoxide sensor 13 first detects toxic gases before the concentration of fumes reaches a certain value or higher when arcs and smoke occurs inside the connection panel 10, and generates alarms and signals by fire or a similar chemical reaction. to provide.

The gas sensing unit of the carbon monoxide sensor 13 includes a cation exchange membrane, a hygroscopic coating membrane formed on both sides of the cation exchange membrane, a reaction electrode formed on a porous support and pressed onto one side of the cation exchange membrane, a corresponding electrode, and a reference electrode.

The cation exchange membrane may be formed of a solid polymer electrolyte having high ionic conductivity and mechanical strength, and good chemical resistance and thermal stability.

The hygroscopic coating film has a structure in which hygroscopic ultrafine particles are dispersed in a solid electrolyte resin.

The solid electrolyte resin serves as an adhesive having cation conductivity, and the hygroscopic ultrafine particles adsorb water formed in the corresponding electrode to replenish moisture to the cation exchange membrane to maintain a constant relative humidity.

As an embodiment, a carbon dioxide sensor that can be used instead of the carbon monoxide sensor follows the principle that the electromotive force measured by the sensing electrode and the reference electrode provided on both sides of a solid electrolyte in a galvanic battery structure is changed according to the concentration of the surrounding carbon dioxide gas.

At this time, the solid electrolyte is an alkaline ion conductor such as lithium, sodium, and potassium, and in more detail, beta alumina, Nasicon, Na ₂ CO ₃ , Li ₂ CO ₃ , K ₂ CO ₃ Alkali metal carbonate, such as Li ₃ PO ₄ or LIPON (Lithium Phosphorous OxyNitride), or a mixture thereof may be used.

The fine dust sensor may measure smoke through detection of particles of air inside the connection panel enclosure 10 and compare the air quality to determine.

The flame detection sensor detects flames caused by arcs and short circuits inside the junction box housing 10.

Hereinafter, a monitoring method using a monitoring device for preventing fire in a solar power facility for the implementation of the present invention will be described in detail with reference to FIGS. 4 to 6.

Looking at steps S101 to S105, the infrared temperature inside the junction box is first sensed through an infrared temperature sensor.

And, through a smoke detection sensor, it detects the smoke inside the junction box.

At this time, since the smoke inside the junction box is expressed later than the temperature, the infrared temperature sensor and the smoke detection sensor may be operated at the same time.

In addition, when the arc and smoke in the junction box are generated through the carbon monoxide sensor, toxic gases are first detected before the concentration of the fumes reaches a predetermined value or more, and an alarm and signal are provided by a fire or a similar chemical reaction.

In addition, through a fine dust sensor, air particles inside the connection panel are detected and smoke is measured to determine the usual air quality.

In addition, the presence or absence of a fire can be indirectly predicted by comparing the usual air quality with the current air quality.

As an embodiment, a small device capable of real-time measurement was implemented by applying a light scattering method as the fine dust sensor, and the conventional light scattering method applied a voltage level signal to overcome the disadvantage that it was difficult to separate fine dust particles by size. For this, the FFT algorithm was applied. As a result of classifying the size of fine dust particles at the frequency level, it is possible to separate particles such as ultra fine dust, fine dust, and smoke.

Looking at steps S201 to S206, the central server 100 judges that an abnormal situation has occurred because the sensor value measured by one of the infrared temperature sensor, smoke sensor, carbon monoxide sensor, and fine dust sensor is above a certain value. Through the communication module, if the manager, who is the first alarm target, is absent or does not receive contact within a certain period of time, the contact is transferred to the second and third managers in sequence.

Since the infrared temperature sensor module is a non-contact type, it is possible to detect changes in the temperature of components such as the connection board PCB or diode rather than the conventional method of detecting the temperature of the heat sink and the inner plate, so they are very active in normal and abnormal situations. You can judge the situation.

In the case of the first manager, it controls to transmit the fire response manual information to respond initially.

Thereafter, the central server controls the second and third managers to be contacted in turn when the first alarm target manager is absent or does not receive contact within a certain time.

To this end, the present invention may further include a blank period setting unit for setting at least one of a vacation day and a public holiday of an administrator/person in charge/maintainer as a blank period in the central server.

The blank period setting unit sets the blank period for at least one of a vacation day and a public holiday of the manager according to the lunar or solar calendar, and the step of transmitting abnormal sensor information during the blank period is excluded in the case of the manager. I can.

After that, the central server 100 controls the alarm to go to the second and third administrators excluding the administrator in sequence.

In the content of the alarm, detailed information on which of the plurality of places in which the monitoring device for preventing fire of the solar power facility is installed is displayed, and the alarm is stopped when the number of times the alarm sounds is more than a certain value. The maximum number of alarms is constantly adjusted by reflecting the schedule schedules of the second and third managers, so that there is no number of alarms in case of the leave of the second and third managers, and the number of alarms is set when the working hours have passed. It can be adjusted below a certain value.

In the present invention, a flame screen is inserted on the surface of the composite sensor mounted inside the connection panel enclosure 10 to provide a role of extinguishing flames by instantaneously taking away heat when the flame passes through the flame prevention network.

In addition, the flame protection net is used for the purpose of preventing the flame from entering the complex sensor.

As a material used for the ignition protection net, copper having a high thermal conductivity or a material having a thermal conductivity similar to copper may also be used.

As an embodiment, the ignition prevention net may be made of stainless steel, aluminum, cast iron, or Monel (Ni+Cu).

Therefore, the ignition prevention net deprives the heat required for the combustion reaction from the oil vapor passing around the composite sensor, reducing the risk of ignition when the oil vapor is discharged to the outside, and blocks the transfer of external flames into the composite sensor.

10: connection panel enclosure
20: inverter enclosure
30: circuit breaker enclosure
11, 12, 13, 14, 15: composite sensor
11: infrared temperature sensor
12: smoke detection sensor
13: carbon monoxide sensor
14: fine dust sensor
15: flame detection sensor
100: central server
200: manager/person in charge/maintenant terminal

Claims (7)

A connection panel enclosure that is located between the photovoltaic module and the inverter and includes a connection panel capable of transmitting DC power input from the photovoltaic module to the inverter and placing a protection device if necessary;
An inverter enclosure including an inverter that converts DC power input through the connection panel into AC power and sends AC power to KEPCO through a grid connection panel;
A circuit breaker enclosure including a circuit breaker that cuts off the AC power converted by the inverter when it exceeds a predetermined value;
Includes; a central server for generating corresponding control information by receiving the information generated from the connection panel enclosure, the inverter enclosure, and the circuit breaker enclosure,
The connection panel enclosure,
An infrared temperature sensor attached to the interior of the junction box to sense an infrared temperature therein;
A smoke detection sensor for detecting smoke inside the connection panel enclosure;
A carbon monoxide sensor that detects toxic gas first before the concentration of the fumes reaches a predetermined value or more when arcs and smoke occurs inside the junction box, and provides an alarm and a signal;
A fine dust sensor that compares and understands air quality by measuring smoke through detection of air particles inside the connection panel enclosure;
Consists of a composite sensor including; a flame detection sensor for detecting a flame caused by an arc and a short circuit inside the connection panel enclosure,
When an abnormal situation occurs in which the sensor value measured by one or more of the infrared temperature sensor, smoke sensor, carbon monoxide sensor, flame sensor, and fine dust sensor is above a certain value, the solar DC input is Cut the incoming fuse by the control signal,
Firstly, the fuse that receives the solar DC input is cut off, the secondly, the DC output breaker is cut off using a trip, and the third is the circuit breaker for the inverter that outputs AC, and the first alarm target is 1 Contact the manager, and if the first manager is absent or does not receive contact within a certain time, control so that the second and third managers can be contacted in turn,
The infrared temperature sensor monitors the inside of the connection panel by overlapping the detection range by attaching a plurality of the inside of the connection panel opening and closing door to eliminate a blind spot for detection and accurately detects the temperature state inside the connection panel,
A monitoring device for fire prevention in solar power facilities, characterized in that it acts as an anti-flame by instantaneously taking heat when a flame passes through the flame protection net by inserting a flame screen on the surface of the composite sensor mounted inside the junction box . delete The method according to claim 1,
A monitoring device for fire prevention in solar power facilities, characterized in that the measurement data of each sensor displays an alarm and situation using a monitoring server or an app so that the administrator can constantly monitor and monitor through wired communication and wireless communication. delete delete delete delete

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