KR101732436B1 - Smart fire prevention system of solar power generation device and ESS - Google Patents

Abstract

The present invention relates to a smart fire prevention system of a photovoltaic power generation device and an energy storage system and, more specifically, relates to a smart fire prevention system of a photovoltaic power generation device and an energy storage system which monitors a fire in a photovoltaic power generation device and an energy storage system in real time, autonomously extinguishes a fire by an automatic fire extinguishing device when a fire occurs, and is forcibly operated when the automatic fire extinguishing device does not operate normally to prevent fire damage from increasing. The smart fire prevention system of a photovoltaic power generation device and an energy storage system comprises: a photovoltaic power generation device to produce solar light energy in electric energy by a plurality of arranged solar cell modules; an energy storage system to store and manage produced power of the photovoltaic power generation device; an automatic fire extinguishing device installed in devices of the photovoltaic power generation device and the energy storage system, wherein a surface of a container is melted at a specific temperature and a fire extinguishing agent filled therein is discharged at a high pressure to extinguish a fire when a fire occurs; a temperature sensor installed in the devices to detect an internal temperature; a server to receive temperature information of the temperature sensor in real time to store the temperature information; a communication module installed in the devices to bidirectionally communicate with the server; a terminal to receive data of the server to remotely monitor the internal temperature of the devices; and an auxiliary operating device installed on one side of the automatic fire extinguishing device to forcibly damage the surface of the container of the automatic fire extinguishing device to perform a fire extinguishing operation when the automatic fire extinguishing device does not operate normally.

Description

[0001] The present invention relates to a smart fire prevention system for a solar power generation device and an energy storage device,

FIELD OF THE INVENTION The present invention relates to a smart fire prevention and disaster prevention system for a photovoltaic power generation device and an energy storage device, which enables real-time monitoring of fires occurring in a solar power generation device and an energy storage device, And a smart fire prevention system for an energy storage device and a photovoltaic power generation device for preventing a fire damage from being increased by forcibly operating the fire extinguishing device when the automatic fire extinguishing device is not operated normally.

Generally, a photovoltaic device is supplied to each use place through a power conversion device such as an inverter, a DC power produced by a plurality of solar cell panels. The production power of such a photovoltaic power generation apparatus can be used immediately. However, in addition to the power supply system of the electric power generation system, an energy storage apparatus (ESS: Energy Storage System) can also be installed and operated.

In the case of the connection panel and the switchboard included in the devices of the solar power generation device and the energy storage device, various electric parts and wiring are installed in a complicated manner, and there is a great risk of occurrence of fire due to over current or short- , It should be suppressed at an early stage so that the fire damage does not increase.

As a prior art for solving such a problem, Patent Document 10-1572608 (a photovoltaic power generation system having an automatic fire extinguishing function) includes a cooling fan, a fire extinguisher, a temperature sensor, a gas sensor, and a control unit in a housing of a connection panel. The control unit controls the operation speed of the cooling fan in proportion to the detected temperature at a temperature lower than the reference temperature T0 that is lower than the rupture temperature of the extinguishing tube by receiving the detection signal, The driving of the cooling fan is stopped when the gas is detected through the exhaust pipe.

The prior art is to control the cooling fan to enhance the effect of fire suppression. Since the fire extinguishing tube which is responsible for the fire suppression does not detect the fire directly, it does not operate and therefore the fire detection If it is not done properly, it is difficult to suppress the fire.

SUMMARY OF THE INVENTION The present invention has been devised to solve the above-mentioned problems, and it is an object of the present invention to provide a solar energy generator and an energy storage device capable of real- Provided is a photovoltaic power generation device and a smart fire prevention system for an energy storage device that can fire themselves through a fire extinguishing device and can be operated by force when the normal operation of the automatic fire extinguishing device is not performed. There is purpose in.

The present invention relates to a photovoltaic power generation apparatus for producing solar energy as electric energy through a plurality of solar cell modules arranged in a row, an energy storage device for storing and managing the production power of the photovoltaic power generation apparatus, An automatic fire extinguishing device installed inside the device of the energy storage device for extinguishing the fire extinguishing agent filled in the inside while the surface of the container melts itself at a specific temperature when a fire occurs, A communication module installed inside the device and performing bidirectional communication with the server, and a controller for receiving the data of the server and monitoring the internal temperature of the device, And an automatic fire extinguishing device installed at one side of the automatic fire extinguishing device to automatically It characterized in that it comprises a; secondary work apparatus to be damaged by force to the container surface of the automatic fire extinguishing system operation, if operation is not carried out.

The automatic fire extinguishing system may further comprise: Characterized in that the material of the container is made of a thermoplastic resin of a polymer and a clean fire extinguishing agent composed of a halogen compound-based fire extinguishing agent or an inert gas-based fire extinguishing agent is filled therein.

The auxiliary actuating device further comprises: A case which is fixedly installed on the path of the automatic fire extinguishing device and which is made of a housing and which is capable of being brought into contact with the surface of the container in the case and a condition in which the operating rod can damage the surface of the container of the automatic fire extinguishing device And an operation control module for applying an operation signal to the operation means according to a detection signal of the temperature sensor.

In addition, the case may include an installation pipe for passing the automatic fire extinguishing device through the tube, a contact hole is formed at one side of the installation pipe so as to be in contact with the operating rod, And a medicament discharge conduit communicating with the outside of the case is formed.

The operating rod is formed in a sharp shape at its end portion and the operating means moves the end portion of the working rod toward the surface of the container so as to cause physical damage to the surface of the container of the automatic fire extinguishing device so that the fire extinguishing operation can be performed .

In addition, the working rod is formed in rounded shape so that it can always contact with the surface of the container, and the operating means heats the working rod at a temperature higher than the melting temperature of the automatic fire extinguishing device to cause thermal damage to the surface of the container, So that it can be performed.

Further, the operation control module may be configured to apply an operation signal to the operation means when a predetermined time elapses in a state where the detection signal of the temperature sensor reaches the melting temperature of the automatic fire extinguishing device, or when the temperature exceeds the melting temperature.

In addition, the operation control module is connected to the communication module and is capable of setting operating conditions through a terminal of the administrator.

The present invention enables real-time monitoring of temperature information of a temperature sensor installed in a device of a solar power generation device and an energy storage device through a terminal of a manager so that device management and fire detection can be performed early.

Further, according to the present invention, when the fire occurs, the surface of the container constituting the automatic fire extinguishing device is melted by heat, and the extinguishing agent filled in the inside is discharged at a high pressure, so that the fire suppression can be automatically performed.

Further, when the automatic fire extinguishing device is not operated normally, the automatic fire extinguishing device is forcibly operated to prevent an increase in fire damage.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a block diagram showing a smart fire prevention system of a solar power generation device and an energy storage device according to the present invention;
2 is a view showing an automatic fire extinguishing device and an auxiliary operating device installed in a device of a solar photovoltaic device and an energy storage device according to the present invention.
3 is a block diagram showing the operating relationship of the auxiliary operating device according to the present invention
4 is a perspective view showing an automatic fire extinguishing system and an auxiliary operation device according to the present invention;
5 is an exploded perspective view showing a case structure of an auxiliary operating device according to the present invention.
6 to 7 are cross-sectional views illustrating an operation of the auxiliary operation device according to the first embodiment of the present invention
8 to 9 are cross-sectional views illustrating the operation of the auxiliary operation device according to the second embodiment of the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

As shown in FIG. 1, the smart fire prevention system of the photovoltaic device and the energy storage device of the present invention includes a solar photovoltaic device 10 for producing solar energy as electric energy through a plurality of solar cell modules, An energy storage device 20 for storing and managing the production electric power of the photovoltaic device 10; and an electric energy storage device 20 installed inside the devices of the solar battery device 10 and the energy storage device 20, An automatic fire extinguishing system 30 in which the surface of the container 31 is melted by itself and the extinguishing agent filled therein is discharged at a high pressure to be extinguished, a temperature sensor 40 installed inside the apparatus for detecting the internal temperature, A server 50 for receiving and storing temperature information of the temperature sensor 40 in real time, a communication module 60 installed in the device for bidirectional communication with the server 50, Data from A terminal 70 installed at one side of the automatic fire extinguishing device 30 for monitoring the internal temperature of the device at a remote location; And an auxiliary actuating device (80) for forcibly damaging the surface of the container (31) so as to be extinguished.

The automatic fire extinguishing device (30) of the present invention comprises: And is fixed to a side wall or a ceiling inside the apparatuses of the solar cell power generation apparatus 10 and the energy storage apparatus 20 as shown in FIG. The container 31 of the automatic fire extinguishing apparatus 30 is made of a thermoplastic resin of a polymer type and a clean fire extinguishing agent 32 composed of a halogen compound-based fire extinguishing agent or an inert gas- It is packed.

Therefore, when a fire occurs inside the apparatus, the surface of the container 31 is melted when the surface of the container 31 reaches a specific temperature (about 120 ° C) due to heat due to fire, So that the liquid clean extinguishing agent 32 filled in the inside is evacuated to the outside and the fire is suppressed by the chemical reaction of the vaporized medicament. The clean fire extinguishing agent 32 used in the automatic fire extinguishing apparatus 30 of the present invention can be variously applied, and a detailed description of the components of the clean fire extinguishing agent 32 is omitted.

As described above, the automatic fire extinguishing apparatus 30 of the present invention does not detect and operate by an electrical signal like the conventional automatic fire extinguishing technology but directly operates by the melting temperature. Therefore, the fire extinguishing can be performed immediately, There is an advantage that no malfunction due to the power supply problem is caused at all.

The temperature sensor 40 of the present invention measures the temperature inside the device in real time and transmits the temperature information to the server 50 through the communication module 60. Then, the temperature information is transmitted to the terminal 70 of the administrator, and the administrator can monitor the temperature information of the device in real time through the terminal 70. In addition, when the temperature of the inside of the apparatus is outside the proper temperature (-10 to 40 ° C) through the program of the terminal 70, the message can be transmitted in a form of warning.

Also, the measured temperature of the temperature sensor 40 can be used for real-time monitoring while controlling the operation of the auxiliary actuator 80, and a specific embodiment thereof will be described again

The automatic fire extinguishing device 30 is designed to be melted at a specific temperature (about 120 ° C.), but the installation position of the automatic fire extinguishing device 30 is distant from the fire generating position, ) Itself may not be able to operate normally due to defects. Therefore, the automatic fire extinguishing device 30 is forcibly operated in a state where the normal operation of the automatic fire extinguishing device 30 is not performed through the auxiliary operation device 80 of the present invention, so that the fire extinguishing can be performed.

The auxiliary actuating device 80 of the present invention forcibly damages the surface of the container 31 of the automatic fire extinguishing device 30 so that the internal clean extinguishing agent 32 can be discharged. A case 81 which is fixedly installed on the path of the automatic fire extinguishing apparatus 30 and includes a working rod 82 which can be brought into contact with the surface of the container 31 in the case 81, An operating means 83 for converting the operating rod 82 to a condition that the surface of the container 31 of the automatic fire extinguishing apparatus 30 can be damaged; And an operation control module 84 for applying an operation signal to the operation control module 84.

The power supply to the auxiliary operation unit 80 may be a power supply supplied to the internal structure of the device, or a separate battery may be used to supply power.

The case 81 is provided with an installation pipe 81a for allowing the automatic fire extinguishing apparatus 30 to pass through and a contact hole 81a is formed at one side of the installation pipe 81a, And a chemical discharge pipe 81c communicating with the inside of the installation duct 81a and the outside of the case 81 is formed in a form crossing the installation duct 81a. The contact hole 81b is formed to be larger than the diameter of the operating rod 82 so that the cleaned fire extinguishing agent 32 vaporized by the gap between the contact hole 81b and the operating rod 82 can be discharged, ) Is also formed to be slightly larger than the outer diameter of the container (31).

The auxiliary actuating device 80 can discharge the clean extinguishing agent 32 while the inside of the case 81 is open, but in order to protect the internal structure, the cover 81d And a plurality of passage portions 81d 'are formed in the lid 81d. The case 81 of the auxiliary actuating device 80 is configured such that the vaporized cleansing and extinguishing agent 32 is discharged through the contact hole 81b into the passage 81d 'of the lid 81d, And is discharged in various directions through the medicine discharge pipe 81c.

The working rod 82 and the operating means 83 used in the auxiliary actuating device 80 of the present invention can be largely made of two embodiments and will be described below.

6 to 7, the operating rod 82 is formed in a sharp shape at its end, and the operating means 83 is provided at the end of the working rod 82 It is possible to move the end portion in the direction of the surface of the container 31 to cause physical damage to the surface of the container 31 of the automatic fire extinguishing device 30 so that the fire extinguishing operation can be performed. That is, the operating rod 82 of the first embodiment is formed in a sharp-edged shape at its end, and the operating means 83 is constituted by a driving device such as a cylinder or a motor to perform forced operation in the form of piercing the surface of the container 31 .

In addition, the operating rod 82 of the first embodiment is formed in the form of a drill bit, and the operating means 83 can be made to rotate and advance together, thereby damaging the surface of the container 31.

8 to 9, the operation rod 82 of the second embodiment of the auxiliary actuating device 80 is formed in a rounded shape so that it can always contact the surface of the container 31 , The operating means 83 may heat the working rod 82 at a temperature higher than the melting temperature of the automatic fire extinguishing device 30 to thermally damage the surface of the container 31 so that the fire extinguishing operation can be performed. That is, the working rod 82 of the second embodiment is made of a metal having high thermal conductivity, and the operating means 83 is composed of a heater for heating the working rod 82 so as to melt the surface of the vessel 31 Operation can be performed.

In addition, the second embodiment can advance the working rod 82 as in the first embodiment, thereby facilitating the heat transfer.

The operating conditions of the auxiliary actuating device 80 according to the present invention can be set by the operation control module 84. [ That is, the operation control module 84 determines whether the detection signal of the temperature sensor 40 has reached a melting temperature (about 120 ° C) of the automatic fire extinguishing apparatus 30, ), The operation signal is applied to the operation means 83.

Since the operating condition of the auxiliary operating device 80 is generally lower than the operating condition of the automatic fire extinguishing device 30, when the fire suppression of the automatic fire extinguishing device 30 is normally performed, the operation of the auxiliary operating device 80 There is a fire suppression in the past. Therefore, the fire-fighting system of the present invention can automatically fire extinguish the fire extinguishing system itself by the material characteristics of the fire extinguishing system 30, The device 30 can be forcibly operated so that double fire detection and operation are performed.

The operation control module 84 is connected to the communication module 60 and can easily set the operating conditions (operating temperature and operation time) through the terminal 70 of the administrator, So that the fire suppression can be performed more quickly.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: Photovoltaic device 20: Energy storage device
30: automatic fire extinguishing device 31: container
32: Clean fire extinguishing agent 40: Temperature sensor
50: server 60: communication module
70: terminal 80: auxiliary operating device
81: Case 81a: Installation duct
81b: Contact hole 81c: Drug discharge pipe
81d: cover 81d '
82: working rod 83: operating means
84: Operation control module

Claims (8)

A solar power generation device for producing solar energy as electric energy through a plurality of arranged solar cell modules, an energy storage device for storing and managing production power of the solar power generation device,
A tube type automatic fire extinguishing device installed inside the apparatus of the solar power generation device and the energy storage device and extinguishing the fire extinguishing agent filled in the inside thereof while the surface of the container itself melts at a specific temperature at the time of fire,
A temperature sensor installed inside the apparatus for detecting an internal temperature, a server for receiving and storing temperature information of the temperature sensor in real time, a communication module installed inside the apparatus for bidirectional communication with the server, A terminal receiving data and monitoring the internal temperature of the device at a remote location,
And an auxiliary operation device installed on the path of the automatic fire extinguishing device and forcing the surface of the container of the automatic fire extinguishing device to be extinguished when the normal operation of the automatic fire extinguishing device fails,
Said auxiliary actuating device comprising: A case which is fixedly installed on the path of the automatic fire extinguishing device and which is made of a housing and which is capable of being brought into contact with the surface of the container in the case and a condition in which the operating rod can damage the surface of the container of the automatic fire extinguishing device And an operation control module for applying an operation signal to the operation means according to a detection signal of the temperature sensor,
Wherein the case is formed with an installation duct so that the automatic fire extinguishing device of the tube type can pass through, the diameter of which is larger than the outer diameter of the automatic fire extinguisher container so that the extinguishing agent vaporized through the installation duct can be discharged, A contact hole having a larger hole than the diameter of the working rod is formed on one side so that the extinguishing agent vaporized by the gap between the contact hole and the working rod can be discharged and a medicine which communicates the inside of the installation pipe and the outside of the case, And a discharge duct is formed in the energy storage device.
The method according to claim 1,
The automatic fire extinguishing system includes: Characterized in that the material of the container is made of a polymer-based thermoplastic resin and a clean fire extinguishing agent composed of a halogen compound-based fire extinguishing agent or an inert gas-based fire extinguishing agent is filled therein. Smart fire prevention system of storage device
delete delete The method according to claim 1,
Characterized in that the end of the working rod is formed in a sharp shape and the operating means moves the end of the working rod in the direction of the surface of the container so as to cause physical damage to the surface of the container of the automatic fire extinguishing device, Smart fire protection system for photovoltaic devices and energy storage devices
The method according to claim 1,
The operating rod is formed in a rounded shape so that the operating rod can always contact the surface of the container, and the operating means heats the working rod at a temperature higher than the melting temperature of the automatic fire extinguishing device to cause thermal damage to the surface of the container, And a smart fire prevention system of the energy storage device
The method according to claim 1,
Wherein the operation control module applies an operation signal to the operation means when a predetermined time elapses or a melting temperature is exceeded in a state where the detection signal of the temperature sensor reaches the melting temperature of the automatic fire extinguishing device, And smart energy fire prevention system of energy storage device
The method according to claim 1,
Wherein the operation control module is connected to the communication module and is capable of setting an operating condition through a terminal of an administrator. The smart fire prevention < RTI ID = 0.0 >

Images