KR102188260B1 - Error Operating Preventing System of Carbon Dixoide Extinguishing System of Semiconductor and Method thereof - Google Patents

Abstract

The present invention relates to a method for preventing a malfunction of carbon dioxide fire-extinguishing equipment in a semiconductor factory. The method comprises: a step in which a management server of the carbon dioxide fire-extinguishing equipment forms a new block based on unique information of sensor units installed for each section of the semiconductor factory, location information of the sections where the sensor units are installed, and unique information of the carbon dioxide fire-extinguishing equipment installed at the locations, transmits the formed new block to each node, and stores the same; a step in which the sensor units installed in each section and each including a heat detector and a smoke detector detect a fire and transmit fire detection information and the unique information of the sensor units to a blockchain; a step in which the blockchain transmits the received fire detection information and the unique information of the sensor units to each node to determine the location information of the sensor units matching the unique information of the sensor units, and the unique information of the carbon dioxide fire-extinguishing equipment at the locations; a step in which each node transmits determination result information to the blockchain; a step in which the blockchain transmits the determination result information to the management server of the carbon dioxide fire-extinguishing equipment; and a step in which the management server of the carbon dioxide fire-extinguishing equipment controls a carbon dioxide control unit based on the determination result to drive the carbon dioxide fire-extinguishing equipment in the corresponding sections so as to extinguish the fire.

Description

[Error Operating Preventing System of Carbon Dixoide Extinguishing System of Semiconductor and Method thereof]

The present invention relates to preventing malfunction of carbon dioxide fire extinguishing equipment installed in important facilities such as high-rise buildings or semiconductor factories. In general, a sprinkler should be installed in facilities, sales facilities, and warehouse facilities with more than 100 people, and a carbon dioxide fire extinguishing facility should be installed in a semiconductor factory. In case a sprinkler or carbon dioxide fire extinguishing facility malfunctions, the products in the facility, It causes enormous damage to the facility or the facility of the factory.

The prior art related to the present invention is published in Korean Patent Registration No. 10-1717774 (announced on March 17, 2017). 1 is a block diagram of the conventional smart fire detection device. In FIG. 1, a conventional smart fire detection device includes a fire detection unit 100, a smart fire control unit 200, and a firefighting equipment unit 300. The fire detection unit 100 includes various sensors for detecting whether a fire occurs within the fire protection section and a module for receiving or transmitting a signal detected by these sensors, and the smart fire control unit 200 includes a fire detection unit ( 100) receives various fire detection data, analyzes it, determines whether a fire exists, etc., and provides a fire treatment packet in a certain form when determining a fire, not only warning about the occurrence of a fire, but also a fire door installed in the firefighting equipment unit 300 The firefighting equipment unit 300 includes various firefighting-related facilities installed in the fire protection section, and in this case, the firefighting equipment unit 300 protects the fire according to a predetermined control signal. It alarms the occurrence of fire in the section, operates the ventilation equipment and sprinkler equipment, and operates auxiliary equipment (such as fire doors).

The conventional smart fire detection device configured as described above is sold as a fire control unit that detects a fire by detection sensors and receives a fire detection signal, determines whether there is a fire, and drives the firefighting equipment unit to alarm the fire and operate the ventilation equipment. In facilities or large factories, if a sprinkler or a carbon dioxide fire extinguishing facility of a semiconductor factory operates due to malfunction, it causes enormous damage to facilities and people. The present invention is to accurately determine whether a fire is detected using a block chain, and to drive a sprinkler or a carbon dioxide fire extinguishing facility without malfunction.

The method for preventing the malfunction of the carbon dioxide fire extinguishing facility of the semiconductor factory of the present invention having the above object includes the unique information of the detection sensor unit installed in each division of the semiconductor factory by the carbon dioxide fire extinguishing facility management server, the location information of the compartment in which the detection sensor unit is installed, The step of forming a new block based on the unique information of the carbon dioxide fire extinguishing facility installed at the location and transmitting and storing the formed new block to each node, and a detection sensor unit composed of a heat detector and a smoke detector installed in a number of sections to detect a fire Transmitting the fire detection information and the unique information of the detection sensor unit to the blockchain, and a detection sensor unit that transmits the received fire detection information and the unique information of the detection sensor unit to each node to match the unique information of the detection sensor unit is installed. The steps of determining the location information and the unique information of the carbon dioxide fire extinguishing facility at the location, each node transmitting the determination result information to the blockchain, and the blockchain transmitting the determination result information to the carbon dioxide fire extinguishing facility management server And, the carbon dioxide fire extinguishing facility management server controlling the carbon dioxide control unit based on the determination result to drive and extinguish the carbon dioxide fire extinguishing facility in the corresponding compartment.

The method for preventing the malfunction of the carbon dioxide fire extinguishing equipment of the present invention and the system using the same configured as described above can prevent the malfunction of the carbon dioxide fire extinguishing equipment in an important facility such as a semiconductor factory. In addition, the invention matches and installs a plurality of detection sensor units and carbon dioxide fire extinguishing equipment for each division, and operates the carbon dioxide fire extinguishing equipment installed in the corresponding area in case of a fire, thereby preventing the spread of carbon dioxide fire extinguishing equipment in case of fire and minimizing damage. It can be limited. In addition, a number of detection sensor units installed in each compartment are installed in pairs of smoke detectors and heat detectors, which has the effect of eliminating errors in the detection of fire paper. It is possible to operate the carbon dioxide fire extinguishing equipment of the company, and also has the effect of being able to safely protect and manage from external hacking. In addition, when the setting standard is set to 90%, there is an effect of reducing system malfunction due to a network error connecting each node through communication.

1 is a configuration diagram of a conventional smart fire detection device,
2 is a flowchart illustrating a method for preventing malfunction of a carbon dioxide fire extinguishing facility of a semiconductor factory of the present invention;
3 is a block diagram of a system for preventing malfunction of a carbon dioxide fire extinguishing facility of a semiconductor factory of the present invention;
4 is a detailed configuration diagram of a management server applied to the present invention.

A method for preventing malfunction of a carbon dioxide fire extinguishing facility of a semiconductor factory of the present invention having the above object and a system using the same will be described with reference to FIGS. 2 to 4 as follows.

2 is a flowchart illustrating a method for preventing malfunction of a carbon dioxide fire extinguishing facility of a semiconductor factory of the present invention. In Fig. 2, the method for preventing the malfunction of the carbon dioxide fire extinguishing facility of the semiconductor factory of the present invention includes the unique information of the detection sensor unit installed for each division of the semiconductor factory by the carbon dioxide fire extinguishing facility management server, location information matching the unique information of the detection sensor unit, and location. The step of forming a new block based on the unique information of the carbon dioxide fire extinguishing facility matching the information and transmitting the formed new block to each node to store it (S11), and a detection sensor unit consisting of a heat detector and a smoke detector installed in a number of divisions. And transmitting the fire detection information and the unique information of the detection sensor unit to the blockchain (S12), and the block chain transmits the received fire detection information and the unique information of the detection sensor unit to each node to detect each node. Searching for the unique information of the sensor unit, the corresponding location information, and the unique information of the carbon dioxide fire extinguishing facility to determine whether to match (S13), each node transmitting the determination result information to the blockchain (S14), and a block The chain transmits the received determination result information to the carbon dioxide fire extinguishing facility management server (S15), and when the carbon dioxide fire extinguishing facility management server determines that the received determination result information is more than a preset standard, the control signal is sent to the carbon dioxide of the corresponding compartment. Transmitting to the fire extinguishing facility control unit (S16), the carbon dioxide fire extinguishing facility control unit of the corresponding compartment to drive the carbon dioxide fire extinguishing facility to extinguish the fire (S17), and the carbon dioxide fire extinguishing facility control unit of the corresponding compartment block the control result information It characterized in that it comprises a step of transmitting to the chain (S18) and the step of upgrading the block by transmitting the control result information received by the block chain to each node (S19). In addition, in the above, the node of the block chain may include a plurality of fire hydrant modules, a carbon dioxide fire extinguishing facility management server, and a plurality of carbon dioxide fire extinguishing facility control units. In addition, the block chain transmits the received fire detection information and the unique information of the detection sensor to each node, so that each node searches for the location information of the detection sensor unit matching the unique information of the detection sensor unit and the unique information of the carbon dioxide fire extinguishing facility to see if they are matched. In the step S13 of determining, each node determines whether the unique information of the detection sensor unit received from the block chain matches the location information previously stored in the block of the corresponding furnace and the unique information of the carbon dioxide fire extinguishing facility. In the above, the setting criterion can be set to 100% or more than 90% according to the importance of the fire place. In addition, the setting criterion above can be set to 100% or less is that if a node fails, the node may not be able to transmit the information as a result of the determination to the blockchain. The result information may be omitted due to late transmission, or the result information may be transmitted differently due to hacking. In addition, in the step of transmitting the control result information to the block chain by the carbon dioxide fire extinguishing facility control unit of the corresponding section (S18), it may be regarded as the control result information that the carbon dioxide fire extinguishing facility control unit transmits the control signal to the carbon dioxide fire extinguishing facility, The CO2 fire extinguishing facility control unit receives information on the result of spraying the fire extinguishing agent from the carbon dioxide fire extinguishing facility, and the received drug application result information can be regarded as the control result information.

3 is a block diagram of a system for preventing malfunction of a carbon dioxide fire extinguishing facility of a semiconductor factory of the present invention. 3, the system for preventing malfunction of the carbon dioxide fire extinguishing facility of the semiconductor factory of the present invention forms a new block based on the detection sensor unit and the unique information, the location information where the detection sensor unit is installed, and the carbon dioxide fire extinguishing facility unique information installed at the location. And transmits the formed new block to the blockchain, receives the determination result information from the blockchain, transmits a control signal to the CO2 fire extinguishing facility control unit if the determination result information is above the set standard, and receives the control result information from the blockchain A carbon dioxide fire extinguishing facility management server 100 to upgrade, and a detection sensor unit 200 for detecting smoke or heat of a fire in a certain compartment and transmitting the detected fire detection information and unique information to a block chain including a fire hydrant module , Receiving a new block from the carbon dioxide fire extinguishing facility management server and transmitting the received new block to each node for storage, receiving the determination result information from each node and transmitting it to the carbon dioxide fire extinguishing facility management server, Blockchain 300 that receives the control result information and transmits it to each node to upgrade the block, and receives a control signal from the carbon dioxide fire extinguishing facility management server to control the operation of the carbon dioxide fire extinguishing facility in the corresponding compartment, and blocks the control result information The carbon dioxide fire extinguishing facility control unit 400 transmitted to the chain and the carbon dioxide fire extinguishing facility of the corresponding compartment are operated by a control signal from the control signal of the carbon dioxide fire extinguishing facility control unit to extinguish the fire in the area and transmit the control result information to the carbon dioxide fire extinguishing facility control unit The carbon dioxide fire extinguishing facility 500 and a plurality of detection sensor units, a plurality of fire hydrant modules, a carbon dioxide fire extinguishing facility management server, and a carbon dioxide fire extinguishing facility control unit are connected to the Internet network or wireless communication network 600 through a network. In the present invention, the carbon dioxide fire extinguishing facility is installed by dividing the fire extinguishing area into each compartment, and when a fire occurs in a certain compartment, the carbon dioxide fire extinguishing facility in the corresponding compartment where the fire occurs is controlled to operate without error. In the above, the detection sensor unit is configured as a pair of a smoke detector and a heat detector to more accurately detect fire, and the detection sensor unit may be installed in one compartment. For example, there are 10 divisions, and among the 10 divisions, detection sensor units 1 to 3, carbon dioxide fire extinguishing facilities 1 and 2 are installed in 1 area, detection sensor 4 and carbon dioxide fire extinguishing facilities 3 are installed in area 2, and area 3 The detection sensor units 5 to 9 and the carbon dioxide fire extinguishing equipment 4, 5, and 6 are installed, and ... 10 can be installed together with the area detection sensor unit 15 and the carbon dioxide fire extinguishing equipment 20. In this case, when a fire detection signal is generated by the detection sensor unit 3, the location information matching the detection sensor unit 3 may be zone 1, and the carbon dioxide fire extinguishing facilities matching the zone 1 may be 1 and 2. In addition, the fire hydrant module 250 included in the block chain in the above includes a function of providing an alarm by receiving fire detection information from the detection sensor unit. In addition, in the detection sensor unit, a smoke detector and a heat detector are installed in pairs, and a detection signal is transmitted to the block chain by an or gate. In addition, in FIG. 3, two detection sensor units, one carbon dioxide fire extinguishing facility control unit and one carbon dioxide fire extinguishing facility are configured in the first compartment, and three detection sensor units are configured in the second compartment, and one carbon dioxide fire extinguishing facility control unit and It shows an example in which two carbon dioxide fire extinguishing facilities are configured, one detection sensor unit is installed in the n-th area, one carbon dioxide fire extinguishing facility control unit and one carbon dioxide fire extinguishing facility are installed.

4 is a detailed configuration diagram of a carbon dioxide fire extinguishing facility management server applied to the present invention. In FIG. 4, the carbon dioxide fire extinguishing facility management server applied to the present invention forms a block based on the unique information of the detection sensor unit, the location information of the compartment where the detection sensor unit is installed, and the unique information of the carbon dioxide fire extinguishing facility installed at the location of the corresponding compartment. A fire information DB 110 storing the formed block, an information determination unit 120 that determines whether the determination result information received from the block chain is more than a set standard, a fire hydrant module, a carbon dioxide fire extinguishing facility management server, and carbon dioxide extinguishing The transmission/reception module 130 for transmitting and receiving data to and from the facility control unit, the display unit 140 providing data if necessary, and the unique information of the detection sensor unit received from the input unit, the location information of the compartment in which the detection sensor unit is installed, and the location of the corresponding compartment A new block is formed based on the unique information of the installed carbon dioxide fire extinguishing facility, the new block is stored in the fire information DB, and the new block stored in the fire information DB is controlled to be transmitted to the block chain, and the result of the determination of each node from the block chain. The main control unit 150 for receiving information and controlling the information determination unit to determine whether the determination result information is greater than or equal to a preset standard, and to transmit a control signal to the carbon dioxide fire extinguishing facility control unit when the determination result information is greater than or equal to a preset standard It is characterized by consisting of.

100: carbon dioxide fire extinguishing facility management server, 200: detection sensor unit,
300: block chain, 400: carbon dioxide fire extinguishing facility control unit,
500: carbon dioxide fire extinguishing facility, 600: internet network or wireless communication network

Claims (3)

In a method for preventing malfunction of a carbon dioxide fire extinguishing facility of a semiconductor factory installed for each division of a fire extinguishing area,
The method for preventing the malfunction of the carbon dioxide fire extinguishing equipment of the semiconductor factory,
A fire information DB 110 that forms a block and stores the formed block based on the unique information of the detection sensor unit, the location information of the compartment in which the detection sensor unit is installed, and the carbon dioxide fire extinguishing facility installed at the location of the corresponding compartment, and a block An information determination unit 120 that determines whether the determination result information received from the chain is more than a set standard, a fire hydrant module, a carbon dioxide fire extinguishing facility management server, a transmission/reception module 130 for transmitting and receiving data with a carbon dioxide fire extinguishing facility control unit, If necessary, a new block is formed based on the unique information of the detection sensor unit received from the display unit 140 providing data and the input unit, the location information of the compartment in which the detection sensor unit is installed, and the unique information of the carbon dioxide fire extinguishing facility installed in the compartment location. The newly formed block is stored in the fire information DB, and the new block stored in the fire information DB is controlled to be transmitted to the blockchain, and the decision result information of each node is received from the block chain, and the decision result information is preset by the information determination unit. A carbon dioxide fire extinguishing facility management server composed of a main control unit 150 that controls to transmit a control signal to a carbon dioxide fire extinguishing facility control unit when the determination result information is greater than or equal to a predetermined standard is installed for each division of the semiconductor factory. Forming a new block based on the unique information of the detection sensor unit, location information matching the unique information of the detection sensor unit, and the unique information of the carbon dioxide fire extinguishing facility matching the location information, and transmitting and storing the formed new block to each node (S11) )Wow;
A step (S12) of detecting a fire by a detection sensor unit installed for each section and transmitting the fire detection information and the unique information of the detection sensor unit to a block chain;
The blockchain transmits the received fire detection information and the unique information of the detection sensor unit to each node, so that each node searches for the unique information of the received detection sensor unit, the location information, and the unique information of the carbon dioxide fire extinguishing facility to determine whether they match. Step (S13) and;
Each node transmitting the determination result information to the blockchain (S14);
The block chain transmits the received determination result information to the carbon dioxide fire extinguishing facility management server (S15);
When the carbon dioxide fire extinguishing facility management server determines that the received determination result information is greater than or equal to a preset standard, transmitting a control signal to the carbon dioxide fire extinguishing facility control unit of the corresponding section (S16);
And a step (S17) of allowing the control unit of the carbon dioxide fire extinguishing facility of the corresponding compartment to extinguish the fire by driving the carbon dioxide fire extinguishing facility.
In the malfunction prevention system of the carbon dioxide fire extinguishing facility of a semiconductor factory installed for each division of the fire extinguishing area,
The system for preventing malfunction of the carbon dioxide fire extinguishing facility of the semiconductor factory,
A new block is formed based on the detection sensor unit and unique information, the location information on which the detection sensor unit is installed, and the carbon dioxide fire extinguishing facility unique information installed at the corresponding location, and the formed new block is transmitted to the block chain, and the result of judgment information from the block chain Is received, and if the determination result information is higher than the set standard, the control signal is transmitted to the carbon dioxide fire extinguishing facility control unit, and the block is upgraded by receiving the control result information from the block chain. A fire information DB 110 that forms a block and stores the block based on the location information of the CO2 fire extinguishing facility installed at the location of the corresponding compartment, and whether the determination result information received from the block chain is above the set standard The information determination unit 120 for determining the, a fire hydrant module, a carbon dioxide fire extinguishing facility management server, a transmission/reception module 130 for transmitting and receiving data to and from the carbon dioxide fire extinguishing facility control unit, and a display unit 140 for providing data and an input unit if necessary. A new block is formed based on the unique information of the detection sensor unit, the location information of the compartment in which the detection sensor unit is installed, and the carbon dioxide fire extinguishing facility’s specific information installed in the compartment location, and stores the new block in the fire information DB, and fire information The new block stored in the DB is controlled to be transmitted to the blockchain, and by receiving the determination result information of each node from the blockchain, the information determination unit controls to determine whether the determination result information is above a preset standard, and the determination result information is A carbon dioxide fire extinguishing facility management server 100 comprising a main control unit 150 for controlling a control signal to be transmitted to a carbon dioxide fire extinguishing facility control unit when it is more than a preset standard;
A detection sensor unit 200 for detecting smoke or heat of a fire in a compartment and transmitting the detected fire detection information and unique information to a block chain including a fire hydrant module;
Receives a new block from the CO2 fire extinguishing facility management server, transmits the received new block to each node and stores it, receives the determination result information from each node and transmits it to the CO2 fire extinguishing facility management server, and is controlled by the CO2 fire extinguishing facility control unit A block chain 300 that receives the result information and transmits it to each node to upgrade the block;
A carbon dioxide fire extinguishing facility control unit 400 that receives a control signal from the carbon dioxide fire extinguishing facility management server, controls to drive the carbon dioxide fire extinguishing facility in the corresponding compartment, and transmits control result information to a block chain;
A carbon dioxide fire extinguishing facility 500 for extinguishing a fire in a corresponding area by operating a carbon dioxide fire extinguishing facility in a corresponding section by a control signal from a control signal of the carbon dioxide fire extinguishing facility control unit and transmitting control result information to the carbon dioxide fire extinguishing facility control unit;
And an Internet network or wireless communication network 600 connecting a plurality of detection sensor units, a plurality of fire hydrant modules, a carbon dioxide fire extinguishing facility management server, and a carbon dioxide fire extinguishing facility control unit through a network. system.

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