KR102564172B1 - Fault Detection and Fire Protection Method and Apparatus for Main Power Transfer System in Ship - Google Patents

Abstract

A method and device for detecting anomalies in a main power switching system in a ship and blocking fire are presented. The apparatus for detecting an anomaly in a main power switching system in a ship and blocking a fire according to the present invention uses a sensor unit including a plurality of sensors for detecting an anomaly and a measurement value measured through a plurality of sensors in the sensor unit. The determination unit that determines whether a phenomenon has occurred and transmits information related to the occurrence of an anomaly to the MCU, receives the information related to the occurrence of an anomaly, stops all switching system equipment in the ship, and controls to spray fire extinguishing sheets in case of fire It includes an MCU to detect fire and a microcapsule mounting part that automatically detects the occurrence of fire and releases an extinguishing liquid in the event of a fire.

Description

Fault Detection and Fire Protection Method and Apparatus for Main Power Transfer System in Ship}

The present invention relates to a method and apparatus for detecting an anomaly in a main power switching system in a ship and blocking fire.

Unlike land, ships have many vulnerabilities in the event of a fire because they operate in the sea. Although there are various sprinklers and fire extinguishers inside the ship, the inside of the ship is narrow, so in case of many fires, it can be transferred to other equipment and cause a large fire. In particular, since most ships perform their duties in the cockpit and control room rather than the engine room, the equipment in the engine room is exposed to danger. It is common for each equipment to prepare for a fire by detecting a fire through various sensors.

In the case of a power conversion system in a ship, it is vulnerable to thermal runaway due to electricity/temperature as it changes from existing mechanical equipment to electronic equipment. As a result, the importance of safety has risen, and various regulatory standards are emerging. As a representative example, in the case of batteries in ships, standards have recently been established, and various standards such as electricity, temperature, and humidity have appeared. Accordingly, there is a need for a plan for equipment safety of a system that converts through electronic equipment rather than a system that converts using an existing mechanical system.

Korean Patent Registration No. 10-2127684 (2020.06.23.)

The technical problem to be achieved by the present invention is to provide a method and device for detecting anomalies in the main power switching system in a ship for equipment safety of a system that switches through electronic equipment rather than a system that uses conventional mechanical switching and blocks fire. there is. Sensors are installed on the exterior and interior tubes to detect electrical characteristics and temperature, and a heat insulation sheet is used to prevent fire from spreading. In addition, since ships are sensitive to weight, the problem of weight is to be solved by using micro digestive capsules.

In one aspect, the apparatus for detecting an anomaly in a main power switching system in a ship and blocking a fire according to the present invention measures a sensor unit including a plurality of sensors for detecting an anomaly and a plurality of sensors in the sensor unit. The determination unit that determines whether an abnormal phenomenon has occurred using the value and transmits information related to the occurrence of the abnormal phenomenon to the MCU. It includes an MCU that controls to spray the sheet and a microcapsule mount that automatically detects the occurrence of a fire and releases an extinguishing liquid in the event of a fire.

The judgment unit judges each measurement value measured through a plurality of sensors of the sensor unit in order to reduce the error of detecting an anomaly, and an anomaly occurs when at least two of the measurement values are higher than a preset value recognized as an anomaly. It judges as , indicates an alarm, and transmits anomaly occurrence-related information including corresponding time and temperature data to the MCU.

The determination unit receives the information related to the occurrence of an abnormality when an abnormality occurs and the MCU stops all switching system equipment in the ship. In case of a fire, it controls to spray the fire extinguishing sheet, and then measures the measurement through a plurality of sensors. The value is judged again, and if at least two of the measured values are higher than the preset value recognized as an abnormal phenomenon, it is determined that the abnormal phenomenon continues to occur and an alarm is displayed, and the MCU converts to a manual control state by the operator. control to do

The sensor unit includes a photoelectric sensor for detecting a fire waveform detected from a fire and an ionization sensor for detecting smoke generated when a fire occurs.

A heat insulating sheet is included between the SCR (Silicon Controlled Rectifier) and the SCR in the device for detecting anomalies in the main power switching system in a ship proposed in the present invention and preventing heat transfer in the event of a fire, and a fan for temperature control (fan).

In one aspect, the method for detecting an anomaly in a main power switching system in a ship and blocking a fire proposed in the present invention includes detecting an anomaly through a sensor unit including a plurality of sensors, and a determination unit through a plurality of sensors in the sensor unit. Determining whether an abnormal phenomenon has occurred using the measured value, and transmitting information related to the occurrence of the abnormal phenomenon to the MCU, receiving the information related to the occurrence of the abnormal phenomenon through the MCU, stopping all switching system equipment in the ship, and In the event of occurrence, controlling the fire extinguishing sheet to be sprayed and automatically detecting the occurrence of fire through the microcapsule mounting portion and discharging the extinguishing liquid when a fire occurs.

Electrical characteristics by installing sensors installed on the exterior and interior tubes through a method and device for detecting anomalies in the main power switching system in a ship and blocking fire for equipment safety of a system switching through non-electronic equipment according to embodiments of the present invention It can detect over temperature and prevent fire from spreading by using an insulating sheet to block heat transfer. In addition, since ships are sensitive to weight, the weight problem can be solved by using micro digestive capsules.

1 is a diagram showing the configuration of an abnormal phenomenon detection and fire blocking device of a main power switching system in a ship according to an embodiment of the present invention.
2 is a view for explaining the configuration of the arrangement of an anomaly phenomenon detection and fire blocking device of a main power switching system in a ship according to an embodiment of the present invention.
3 is a view for explaining a spraying process of a fire extinguishing sheet according to an embodiment of the present invention.
4 is a view for explaining the configuration of a fire extinguishing sheet according to an embodiment of the present invention.
5 is a flowchart illustrating a method for detecting an anomaly and blocking a fire in a main power switching system in a ship according to an embodiment of the present invention.
6 is a flowchart illustrating a process of detecting an anomaly according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing the configuration of an abnormal phenomenon detection and fire blocking device of a main power switching system in a ship according to an embodiment of the present invention.

The proposed device for detecting anomalies in the main power switching system in a ship and blocking fire (100) includes a sensor unit (110), a determination unit (120), a Micro Controller Unit (MCU) (130), and a microcapsule mounting unit (140). do.

The sensor unit 110 includes a plurality of sensors for detecting abnormal phenomena. The sensor unit 110 may include at least two or more sensors to solve errors and increase reliability. The sensor unit 110 may include a photoelectric sensor for detecting a fire waveform detected in a fire and an ionization sensor for detecting smoke generated when a fire occurs. The sensor unit 110 is installed on the exterior and interior tubes to detect abnormal phenomena including fire through the measurement of electrical characteristics, temperature, gas, and the like.

The determination unit 120 determines whether or not an anomaly occurs using measurement values measured through a plurality of sensors of the sensor unit, and transmits information related to occurrence of the anomaly to the MCU.

The determination unit 120 determines each measurement value measured through a plurality of sensors of the sensor unit in order to reduce an error in detecting an anomaly, and determines whether at least two of the measurement values are equal to or greater than a preset value recognized as an anomaly. (for example, when a target value indicating that a fire has occurred) is determined as an abnormal phenomenon and an alarm is displayed. If it is determined that an anomaly has occurred, information related to an anomaly including time and temperature data is transmitted to the MCU.

The MCU 130 receives information related to occurrence of an anomaly, stops equipment of all switching systems in the ship, and controls to spray a fire extinguishing sheet when a fire occurs.

The microcapsule mounting portion 140 automatically detects the occurrence of fire and discharges an extinguishing liquid when a fire occurs. Since ships are sensitive to weight, the weight problem can be solved by using materials with low weight. According to an embodiment of the present invention, the microcapsule mounting portion 140 is mounted on the upper exterior to automatically fire the microcapsules in case of fire to extinguish the fire at an early stage.

When an anomaly occurs, the MCU 130 receives the information related to the occurrence of the anomaly, stops all switching system equipment in the ship, and controls to spray a fire extinguishing sheet in the case of a fire, and then the determination unit 120 detects the sensor Measurement values measured through the plurality of sensors of the unit 110 are determined again.

If each measured value measured again is smaller than a preset value recognized as the occurrence of an anomaly (for example, when a target value that indicates that a fire has been extinguished is reached), it is determined that the occurrence of the anomaly has been cancelled, and the corresponding time and Transmits information related to cancellation of anomalies including temperature data to the MCU.

On the other hand, if at least two of the measured values still measured after re-determination are equal to or greater than a preset value recognized as the occurrence of the anomaly, it is determined that the occurrence of the anomaly continues and an alarm is displayed.

If it is determined that the occurrence of the anomaly continues, the MCU 130 controls to convert to a manual control state by the operator. According to an embodiment of the present invention, the MCU 130 converts to a manual control state by an operator, and uses a sprinkler attached to the ceiling to extinguish a fire.

According to an embodiment of the present invention, an insulating sheet for preventing heat transfer in the event of a fire may be included between a silicon controlled rectifier (SCR) and the SCR in the device for detecting anomalies and blocking fire. In addition, a fan for temperature control may be included, and the temperature may be continuously measured by attaching a temperature sensor to the heat sink.

2 is a view for explaining the configuration of the arrangement of an anomaly phenomenon detection and fire blocking device of a main power switching system in a ship according to an embodiment of the present invention.

The proposed device for detecting anomalies in the main power switching system in a ship and blocking fire is a sensor unit 210, a determination unit (not shown), a micro controller unit (MCU) (not shown), a microcapsule mounting unit 220, It includes a plurality of components 230, a plurality of fans 241 and 242 for temperature control, and a busbar 243.

In addition, the SCR (Silicon Controlled Rectifier) 250 in the abnormal phenomenon detection and fire blocking device may include a heat insulating sheet 251 between the SCRs and SCRs to prevent heat transfer in the event of a fire. In addition, a fan 253 for temperature control may be included, and the temperature may be continuously measured by attaching a temperature sensor 252 to the heat sink.

3 is a view for explaining a spraying process of a fire extinguishing sheet according to an embodiment of the present invention.

If it is determined that an anomaly has occurred, the determination unit transmits information related to an anomaly including time and temperature data to the MCU.

The MCU receives the information related to the occurrence of an anomaly, stops equipment of all switching systems in the ship, and controls to spray the fire extinguishing seat 310 when a fire occurs. The structure of the fire extinguishing sheet 310 will be described in more detail with reference to FIG. 4 .

4 is a view for explaining the configuration of a fire extinguishing sheet according to an embodiment of the present invention.

The fire extinguishing sheet according to an embodiment of the present invention may have a multi-layer structure and may be formed to have a preset area, and each layer including the fire extinguishing layer 430, the shielding layer 410, and the adhesive layer 420. It is formed in a layered form.

The extinguishing layer 430 includes a graphite component and is a component positioned to face the target direction. That is, the fire extinguishing layer 430 is a layer located inside when the fire extinguishing sheet is formed to surround a target, and serves to block fire from occurring in the target direction or to extinguish a fire when it occurs.

The barrier layer 410 also includes a graphite component and has a stacked form on the fire extinguishing layer 430 . In particular, the shielding layer 410 is positioned to face the opposite direction of the fire extinguishing target, and accordingly, the shielding layer 410 is a layer located on the outside when the fire extinguishing sheet is formed to surround the target, and high heat or fire etc. When this occurs, it plays a role in blocking the effect from being transmitted to the target.

The adhesive layer 420 adheres the fire extinguishing layer 430 and the shielding layer 410 to each other, and is formed to have flame retardancy and has properties capable of resisting high heat and flame.

In the fire extinguishing sheet according to the embodiment of the present invention, a plurality of heat dissipation holes ( 440) are arranged in the column and row directions. Therefore, the fire extinguishing sheet prevents heat from accumulating in the object, preventing the possibility of fire due to high heat. The heat dissipation holes 440 are arranged at regular intervals and are formed to have the same diameter, but unlike this, the disposition shape and diameter of the heat dissipation holes 440 may be variously formed.

5 is a flowchart illustrating a method for detecting an anomaly and blocking a fire in a main power switching system in a ship according to an embodiment of the present invention.

The proposed method for detecting an anomaly in the main power switching system in a ship and blocking fire includes detecting an anomaly through a sensor unit including a plurality of sensors (510), and determining the measured value through a plurality of sensors in the sensor unit. Step 520 of determining whether an anomaly has occurred and transmitting information related to the occurrence of an anomaly to the MCU using the MCU (520). In this case, it includes controlling to spray the fire extinguishing sheet (530) and automatically detecting the occurrence of fire through the microcapsule mounting part and discharging the fire extinguishing liquid (540) when a fire occurs.

In step 510, an abnormal phenomenon is sensed through a sensor unit including a plurality of sensors. The sensor unit may include at least two or more sensors to solve errors and increase reliability. The sensor unit may include a photoelectric sensor for detecting a fire waveform detected from a fire and an ionization sensor for detecting smoke generated when a fire occurs. The sensor unit is installed on the exterior and interior tubes to detect abnormal phenomena including fire through the measurement of electrical characteristics, temperature and gas.

In step 520, the determination unit determines whether or not an anomaly occurs by using measurement values measured through a plurality of sensors of the sensor unit, and transmits information related to the occurrence of an anomaly to the MCU.

The determination unit judges each measurement value measured through a plurality of sensors of the sensor unit in order to reduce the error of detecting an anomaly, and if at least two of the measurement values are higher than a preset value recognized as an anomaly (for example, For example, if the target value that a fire has occurred is reached), it is determined that an abnormal phenomenon has occurred and an alarm is displayed. If it is determined that an anomaly has occurred, information related to an anomaly including time and temperature data is transmitted to the MCU.

In step 530, information related to the occurrence of anomalies is received through the MCU, and equipment of all switching systems in the ship is stopped, and when a fire occurs, a fire extinguishing sheet is controlled to be sprayed.

In step 540, when a fire occurs, the occurrence of a fire is automatically detected through the microcapsule mounting portion and the extinguishing liquid is discharged. Since ships are sensitive to weight, the weight problem can be solved by using materials with low weight. According to an embodiment of the present invention, the microcapsule mounting portion is mounted on the upper exterior to automatically fire the microcapsules in case of fire to extinguish the fire at an early stage.

According to an embodiment of the present invention, a method for detecting an anomaly in a main power switching system in a ship and blocking fire occurs when an anomaly occurs, the MCU receives information related to the occurrence of the anomaly, stops all switching system equipment in the ship, and fires In the event of occurrence, after controlling the fire extinguishing sheet to be sprayed, the determination unit re-determines the measured values measured through the plurality of sensors, and at least two or more of the measured values are preset values that are recognized as abnormal occurrences. In case of an abnormality, the step of displaying an alarm by determining that the occurrence of the abnormality continues, and the step of controlling the MCU to convert to a manual control state by an operator if it is determined that the occurrence of the abnormality continues.

When an anomaly occurs, the MCU receives the information related to the occurrence of the anomaly, stops all switching system equipment in the ship, and controls the fire extinguishing sheet to be sprayed in the event of a fire. Re-evaluate the measured value.

If each measured value measured again is smaller than a preset value recognized as the occurrence of an anomaly (for example, when a target value that indicates that a fire has been extinguished is reached), it is determined that the occurrence of the anomaly has been cancelled, and the corresponding time and Transmits information related to cancellation of anomalies including temperature data to the MCU.

On the other hand, if at least two of the measured values still measured after re-determination are equal to or greater than a preset value recognized as the occurrence of the anomaly, it is determined that the occurrence of the anomaly continues and an alarm is displayed.

If it is determined that the occurrence of the anomaly continues, the MCU controls to convert to a manual control state by the operator. According to an embodiment of the present invention, the MCU converts to a manual control state by an operator, and uses a sprinkler attached to the ceiling to extinguish a fire.

According to an embodiment of the present invention, an insulating sheet for preventing heat transfer in the event of a fire may be included between a silicon controlled rectifier (SCR) and the SCR in the device for detecting anomalies and blocking fire. In addition, a fan for temperature control may be included, and the temperature may be continuously measured by attaching a temperature sensor to the heat sink.

6 is a flowchart illustrating a process of detecting an anomaly according to an embodiment of the present invention.

An anomaly detection process according to an embodiment of the present invention first detects an anomaly through a sensor unit including a photoelectric sensor for detecting a fire waveform detected in a fire and an ionization sensor for detecting smoke generated in the event of a fire.

The determination unit determines whether an abnormal phenomenon has occurred using measurement values measured through a plurality of sensors of the sensor unit. In order to reduce the error of detecting an anomaly, each measurement value measured through a plurality of sensors of the sensor unit is determined, and if at least two of each measurement value are greater than a preset value recognized as an anomaly (for example, When the B value, which is the target value indicating that a fire has occurred, is reached), it is determined that an abnormal phenomenon has occurred, an alarm is displayed, and an abnormal phenomenon occurrence-related information including corresponding time and temperature data is transmitted to the MCU.

The microcapsule mounting part automatically detects the occurrence of fire and releases the extinguishing liquid in the event of a fire. The microcapsule mounting part is mounted on the upper exterior, and in the event of a fire, the microcapsule can be automatically fired to extinguish the fire at an early stage.

The MCU receives the information related to the occurrence of abnormalities, stops the equipment of all switching systems in the ship, and controls to spray the fire extinguishing sheet in the event of a fire.

When an anomaly occurs, the MCU receives the information related to the occurrence of the anomaly, stops all switching system equipment in the ship, and controls the fire extinguishing sheet to be sprayed in the event of a fire. Re-evaluate the measured value.

If each measurement value still measured after re-judgment is smaller than the preset value recognized as the occurrence of an anomaly (for example, if the target value A value that indicates that the fire has been extinguished is reached), it is determined that the occurrence of the anomaly has been cancelled. , and transmits the information related to canceling the occurrence of the anomaly, including the corresponding time and temperature data, to the MCU.

On the other hand, if at least two of the measured values still measured after re-determination are equal to or greater than a preset value recognized as the occurrence of the anomaly, it is determined that the occurrence of the anomaly continues and an alarm is displayed.

If it is determined that the occurrence of the anomaly continues, the MCU controls to convert to a manual control state by the operator. According to an embodiment of the present invention, the MCU converts to a manual control state by an operator, and uses a sprinkler attached to the ceiling to extinguish a fire.

Thereafter, the determination unit re-determines the measurement value measured through the plurality of sensors of the sensor unit. If each measured value measured again is smaller than a preset value recognized as the occurrence of an anomaly (for example, when the target value A value that the fire is extinguished is reached), it is determined that the occurrence of the anomaly has been cancelled, It transmits the information related to canceling the occurrence of the abnormality including the corresponding time and temperature data to the MCU.

On the other hand, if at least two or more of the measured values are determined again and are equal to or greater than a preset value recognized as the occurrence of an anomaly, the manual control state by the operator is maintained.

The devices described above may be implemented as hardware components, software components, and/or a combination of hardware components and software components. For example, devices and components described in the embodiments may include, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA), It may be implemented using one or more general purpose or special purpose computers, such as a programmable logic unit (PLU), microprocessor, or any other device capable of executing and responding to instructions. A processing device may run an operating system (OS) and one or more software applications running on the operating system. A processing device may also access, store, manipulate, process, and generate data in response to execution of software. For convenience of understanding, there are cases in which one processing device is used, but those skilled in the art will understand that the processing device includes a plurality of processing elements and/or a plurality of types of processing elements. It can be seen that it can include. For example, a processing device may include a plurality of processors or a processor and a controller. Other processing configurations are also possible, such as parallel processors.

Software may include a computer program, code, instructions, or a combination of one or more of the foregoing, which configures a processing device to operate as desired or processes independently or collectively. The device can be commanded. Software and/or data may be any tangible machine, component, physical device, virtual equipment, computer storage medium or device, intended to be interpreted by or provide instructions or data to a processing device. can be embodied in Software may be distributed on networked computer systems and stored or executed in a distributed manner. Software and data may be stored on one or more computer readable media.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program commands recorded on the medium may be specially designed and configured for the embodiment or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. - includes hardware devices specially configured to store and execute program instructions, such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include high-level language codes that can be executed by a computer using an interpreter, as well as machine language codes such as those produced by a compiler.

As described above, although the embodiments have been described with limited examples and drawings, those skilled in the art can make various modifications and variations from the above description. For example, the described techniques may be performed in an order different from the method described, and/or components of the described system, structure, device, circuit, etc. may be combined or combined in a different form than the method described, or other components may be used. Or even if it is replaced or substituted by equivalents, appropriate results can be achieved.

Therefore, other implementations, other embodiments, and equivalents of the claims are within the scope of the following claims.

Claims (10)

A sensor unit including a plurality of sensors for detecting abnormal phenomena;
a determination unit for determining whether or not an anomaly occurs using measurement values measured through a plurality of sensors of the sensor unit, and transmitting information related to the occurrence of an anomaly to an MCU;
An MCU that receives information related to the occurrence of anomalies, stops equipment of all switching systems in the ship, and controls to spray fire extinguishing sheets in the event of a fire; and
Microcapsule mounting part that automatically detects fire and releases extinguishing liquid in case of fire
including,
The judge,
In order to reduce the error of anomaly detection, each measured value measured through a plurality of sensors of the sensor unit is judged, and if at least two of the measured values are higher than a preset value recognized as an anomaly, it is judged as an anomaly. to indicate an alarm, transmit information related to the occurrence of anomalies including corresponding time and temperature data to the MCU,
When an anomaly occurs, the MCU receives the information related to the occurrence of the anomaly, stops all switching system equipment in the ship, and in case of a fire, controls the fire extinguishing sheet to be sprayed, and then measures the measured value through a plurality of sensors. judge again,
If at least two of the measured values are greater than or equal to a preset value recognized as an anomaly, it is determined that the anomaly continues to occur and an alarm is displayed,
The MCU,
Controlled to convert to manual control by the operator
A device for detecting anomalies in the main power switching system in a ship and blocking fire. delete delete According to claim 1,
sensor part,
It includes a photoelectric sensor that detects the fire waveform detected in the fire and an ionization sensor that detects the smoke generated in the event of a fire.
A device for detecting anomalies in the main power switching system in a ship and blocking fire. According to claim 1,
Between the SCR (Silicon Controlled Rectifier) and the SCR in the anomaly detection and fire blocking device, a heat insulating sheet is included to prevent heat transfer in the event of a fire, and a fan is included for temperature control.
A device for detecting anomalies in the main power switching system in a ship and blocking fire. detecting an anomaly through a sensor unit including a plurality of sensors;
determining, by a determination unit, whether or not an anomaly occurs using measurement values measured through a plurality of sensors of the sensor unit, and transmitting information related to the occurrence of an anomaly to an MCU;
Receiving information related to the occurrence of anomalies through the MCU, stopping equipment of all switching systems in the ship, and controlling to spray a fire extinguishing sheet in the event of a fire; and
In the event of a fire, automatically detecting the occurrence of fire through the microcapsule mounting part and releasing the extinguishing liquid
including,
The step of determining whether an anomaly occurs by the determination unit using the measurement values measured through a plurality of sensors of the sensor unit, and transmitting information related to the occurrence of an anomaly to the MCU,
In order to reduce the error of anomaly detection, each measured value measured through a plurality of sensors of the sensor unit is judged, and if at least two of the measured values are higher than a preset value recognized as an anomaly, it is judged as an anomaly. to indicate an alarm, transmit information related to the occurrence of anomalies including corresponding time and temperature data to the MCU,
The step of determining whether an anomaly occurs by the determination unit using the measurement values measured through a plurality of sensors of the sensor unit, and transmitting information related to the occurrence of an anomaly to the MCU,
When an anomaly occurs, the MCU receives the information related to the occurrence of the anomaly, stops all switching system equipment in the ship, and in case of a fire, controls the fire extinguishing sheet to be sprayed, and then the determination unit measures the measurement through a plurality of sensors Re-determining the value, and displaying an alarm by determining that the abnormality continues to occur if at least two of the measured values are equal to or greater than a preset value recognized as the occurrence of the abnormality; and
Controlling the MCU to convert to a manual control state by the operator when it is determined that the abnormality continues to occur
A method for detecting anomalies in the main power switching system within a ship and blocking fires further comprising a. delete delete According to claim 6,
The step of detecting an anomaly through a sensor unit including a plurality of sensors,
The photoelectric sensor detects the fire waveform detected in the fire, and the ionization sensor detects the smoke generated in the event of a fire.
A method for detecting anomalies in the main power switching system in a ship and blocking fire. According to claim 6,
Between the SCRs in the anomaly detection and fire blocking device, an insulation sheet is included to prevent heat transfer in the event of a fire, and a fan is included for temperature control.
A method for detecting anomalies in the main power switching system in a ship and blocking fire.