KR102022961B1 - Refuge guide and communication relay device and system thereby - Google Patents

Abstract

An evacuation guidance and communication relay device and a system using the same are provided. The evacuation guidance and communication relay device according to an embodiment of the present invention is an evacuation guidance and communication relay device for performing PLC communication using a power cable, which is formed on the power cable, is powered on to induce an evacuation path At least one emergency induction light; At least one connector electrically and structurally coupled to the power cable; A PLC module for performing the PLC communication with an external user using the power cable; A measuring unit including a light quantity measuring module capable of measuring the amount of light around the power cable; An emergency state warning unit configured to measure surrounding information to notify the surroundings of a dangerous or emergency situation when the surroundings of the power cable are in a dangerous or emergency state; Communication unit for performing communication with the operator to send and receive a communication signal; And a controller configured to control operations of the emergency induction lamp, the PLC module, the measuring unit, and the communication unit to output an evacuation route by turning on the emergency induction lamp in the case of the dangerous or emergency state. When receiving external information including the evacuation path from the external user, the flashing time, interval, brightness, etc. of the emergency induction light formed on the power cable located in the evacuation path is controlled, and the brightness of the emergency induction light is measured by the amount of light It is controlled according to the measurement result of the module.

Description

Evacuation guidance and communication relay device and system using same

The present invention relates to an evacuation guidance and communication relay device and system, in particular, in addition to inducing the evacuation route to facilitate the evacuation of workers in the event of an emergency in ship construction and internal confined space of the offshore plant, An apparatus and system for evacuation guidance and communication relay that can eliminate blind spots.

In general, power line communication (PLC) refers to a communication method of receiving a communication signal through a high frequency filter after transmitting a communication signal as a high frequency signal of 2MHz to 24MHz using a power line installed in a home or office.

In the case of such power line communication, communication is performed by using an installed power line compared with other wired communication methods, and thus no cost burden for opening a new communication line is generated, and various communication services using an electric plug without a separate cable (Internet, Recently, utilization is increasing because it has the advantage of providing Internet telephony (VoIP), home networking, home automation and remote meter reading.

On the other hand, the internal sealed working space of a ship or offshore plant under construction is essential to secure communication facilities for communication between workers. In the case of ships, due to the limitation of wireless communication due to the hull made of steel plate, the blind spots are generated and data communication for voice communication, safety / environmental information, etc. is not made. It is becoming.

However, power lines for power supply are arranged in large ships or offshore plant workplaces that are being built, and supply power for each work space through these power lines.

In addition, such an electric power line induces an evacuation route in a lit state in which an induction light is connected to facilitate the evacuation of workers in an emergency situation.

Therefore, electric power line communication (PLC) is used to guide the evacuation route through induction lamps in the closed working space of a ship or offshore plant under construction, and in case of emergency, voice and data communication is performed smoothly at the risk site. There is a need for a technology that can solve the problem.

KR 2014-0011501 A

In order to solve the problems of the prior art as described above, one embodiment of the present invention and the induction lamp function to induce the evacuation path by lighting to facilitate the evacuation of the worker in the event of an emergency in the vessel's interior and the sealed space of the offshore plant In addition, the present invention seeks to provide an evacuation guidance and communication relay device and a system using the communication relay function capable of smoothing voice and data communication at risk sites, thereby eliminating communication blind spots.

According to an aspect of the present invention for solving the above problems, there is provided an evacuation guidance and communication relay device. The evacuation guidance and communication relay device is an evacuation guidance and communication relay device for performing PLC communication by using a power cable, formed in the power cable, at least one emergency induction lamp that is lighted by receiving power to guide the evacuation path ; At least one connector electrically and structurally coupled to the power cable; A PLC module for performing the PLC communication with an external user using the power cable; A measuring unit including a light quantity measuring module capable of measuring the amount of light around the power cable; An emergency state warning unit configured to measure surrounding information to notify the surroundings of a dangerous or emergency situation when the surroundings of the power cable are in a dangerous or emergency state; Communication unit for performing communication with the operator to send and receive a communication signal; And a controller configured to control operations of the emergency induction lamp, the PLC module, the measuring unit, and the communication unit to output an evacuation route by turning on the emergency induction lamp in the case of the dangerous or emergency state. When receiving external information including the evacuation path from the external user, the flashing time, interval, brightness, etc. of the emergency induction light formed on the power cable located in the evacuation path is controlled, and the brightness of the emergency induction light is measured by the amount of light It is controlled according to the measurement result of the module.

The measurement unit, a fire detection module for detecting whether a fire occurs near the power cable; A smoke detection module detecting whether smoke is generated near the power cable; An oxygen depletion detection module that detects oxygen deprivation near the power cable; A temperature sensing module for detecting a temperature change near the power cable; And a humidity sensing module for sensing a change in humidity near the power cable. It may further include at least one of.

The control unit may output a warning around the power cable through the emergency state warning unit, and exclude the corresponding location from the evacuation path by providing information to the external user that the location is a dangerous area.

The oxygen depletion detection module may include a light source unit generating white light or broadband light as first light; An oxygen sensing unit configured to sense oxygen with respect to the first light generated by the light source unit and generate a second light, which is an interference wave based on a Febry-Parot Interferometer principle; An analyzer configured to analyze the spectral period change of the second light by analyzing the second light; And an optical transmitter configured to connect the light source unit and the oxygen detector, the oxygen detector, and the analyzer to transmit the first light and the second light, respectively.

The oxygen detecting unit may include a polymer material having a first refractive index that transmits and reflects a part of the first light; And a sensing material having a second refractive index that partially transmits and partially reflects light passing through the polymer material.

The sensing material is a globin material which is provided at the outermost part of the oxygen deprivation sensing module and chemically bonds to oxygen in the air, and the effective refractive index changes according to the chemical bonding with oxygen, and thus the spectral period changes. It can be formed of a material.

The controller may analyze the spectral period change of the second light formed by the interference of the reflected light generated by the polymer material and the reflected light generated by the sensing material using the analyzer, and thus, a steady state in which the amount of oxygen is around the power cable. The oxygen around the power cable based on a periodic change in the spectrum due to a wavelength change for the second light generated in an abnormal state in which the amount of oxygen is reduced below a certain reference with the second light generated by the fire or for other reasons. You can judge the deficiency.

And receiving power from the power cable and storing it as an emergency power source and supplying the stored emergency power when the power cable is disconnected or the power is cut off. The emergency power unit further includes the emergency power source. When supplying, the controller determines whether the worker exists around the power cable through the communication unit, and if the worker exists, receives the evacuation path by using the communication unit to control the operation of the emergency induction lamp. Can be.

According to one aspect of the present invention, an evacuation guidance and communication relay system is provided. The evacuation guidance and communication relay system, a plurality of evacuation guidance and communication relay device; And a power cable connecting the evacuation induction and communication relay device and performing PLC communication. The evacuation induction and communication relay device is formed on the power cable and is powered on to induce an evacuation path. At least one emergency induction light; At least one connector electrically and structurally coupled to the power cable; A PLC module for performing the PLC communication with an external user using the power cable; A measuring unit including a light quantity measuring module capable of measuring the amount of light around the power cable; An emergency state warning unit configured to measure surrounding information to notify the surroundings of a dangerous or emergency situation when the surroundings of the power cable are in a dangerous or emergency state; Communication unit for performing communication with the operator to send and receive a communication signal; And a controller configured to control operations of the emergency induction lamp, the PLC module, the measuring unit, and the communication unit to output an evacuation route by turning on the emergency induction lamp in the case of the dangerous or emergency state. When receiving external information including the evacuation path from the external user, the flashing time, interval, brightness, etc. of the emergency induction light formed on the power cable located in the evacuation path is controlled, and the brightness of the emergency induction light is measured by the amount of light It is controlled according to the measurement result of the module.

And receiving power from the power cable and storing the power as emergency power, and providing the stored emergency power when the power cable is disconnected or the power is cut off. The emergency power unit further includes the emergency power. In the case of supplying, the control unit determines whether the worker exists in the vicinity of the power cable through the communication unit, and if the worker is present through the communication using the communication unit and the other control unit receiving the power from the power cable By receiving the evacuation route it is possible to control the operation of the emergency induction lamp.

Evacuation guidance and communication relay device and a system using the same according to an embodiment of the present invention is the evacuation (evacuation) path guided by the operator when the emergency occurs in the emergency situation in the interior of the dry ship and offshore plant Along the way, there is an effect that can be easily evacuated.

In addition, the evacuation guidance and communication relay device and the system using the same according to an embodiment of the present invention has the effect of smoothing the voice and data communication at the risk site to solve the communication blind spots.

In addition, the evacuation induction and communication relay device and the system using the same according to an embodiment of the present invention can hear the warning sound and evacuate when the worker lacks oxygen in the space while working in a closed space, the lack of oxygen at the work site There is an effect that can prevent the emergency situation in advance.

In addition, the evacuation guidance and communication relay device and the system using the same according to an embodiment of the present invention has the effect of providing the safest and fastest evacuation (evacuation) path to the workers by identifying the danger zone through communication. .

In addition, the evacuation guidance and communication relay device and the system using the same according to an embodiment of the present invention can determine the location of the isolated worker by transmitting information about the location to the outside for a predetermined time even when the power is cut off There is.

1 is a view showing the overall configuration of the evacuation guidance and communication relay device and the system using the same according to an embodiment of the present invention.
2 is a block diagram illustrating a measurement unit included in an evacuation guidance and communication relay device according to an embodiment of the present invention.
3 is a view schematically showing the internal configuration of the oxygen deficiency detection module according to an embodiment of the present invention.
4 is a diagram illustrating an example of applying an evacuation guidance and communication relay system to a work site according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like elements throughout the specification.

1 is a view showing the overall configuration of the evacuation guidance and communication relay apparatus and the system using the same according to an embodiment of the present invention, Figure 2 is a measurement unit included in the evacuation guidance and communication relay apparatus according to an embodiment of the present invention Figure 3 is a block diagram showing the internal structure, Figure 3 is a schematic diagram showing the internal configuration of the oxygen deficiency detection module according to an embodiment of the present invention, Figure 4 is an evacuation induction and communication relay system according to an embodiment of the present invention A diagram showing an example applied to the work site. Hereinafter, an evacuation guidance and communication relay system according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4.

Referring to FIG. 1, the evacuation guidance and communication relay system 10 according to an embodiment of the present invention is formed such that at least one evacuation guidance and communication relay device 100 is connected to each other by a power cable 110. Each device 100 may operate the evacuation guidance and communication relay system 10 according to an embodiment of the present invention by performing PLC communication using the power cable 110.

The power cable 110 connects each evacuation guidance and communication relay device 100 to each other to form an evacuation guidance and communication relay system 10. The power cable 110 is a power cable for supplying power to the evacuation guidance and communication relay device 100, and may include at least one emergency induction lamp 111.

The emergency induction lamp 111 is formed on the power cable 110 so as to be turned on to receive an electric power flowing through the power cable 110 to induce an evacuation path, and to form an evacuation path. It may be provided in plurality. In this case, the emergency induction lamp 111 may be formed as an example of a blinking red blinker lamp, or may be formed of an LED to control the flashing interval, brightness, etc. through the evacuation guidance and communication relay device 100.

The evacuation guidance and communication relay device 100 according to an embodiment of the present invention includes a PLC module 120, a control unit 130, a communication unit 140, and a measurement unit 150.

The PLC module 120 supplies power to one or more emergency induction lamps 111 and controls PLC communication using the power cable 110. The PLC module 120 may perform PLC communication with an external user through the power cable 110, and may transmit analysis information of the controller 130, which will be described later, to the external user by using the power cable 110, or may receive evacuation information from the external user. It may be.

In addition, the PLC module 120 may further include at least one connector 121, and may be electrically and structurally coupled to the power cable 110 using the connector 121. Through this, the evacuation guidance and communication relay device 100 may be operated as an evacuation guidance and communication relay system 10 installed in a wide area without being limited to the length of the power cable 110.

The controller 130 receives power from the power cable 110 through the PLC module 120, analyzes evacuation information received by the PLC module 120, or communicates with the communication unit 140 and the measurement unit 150 described later. It analyzes the surrounding information acquired by the component that can obtain the surrounding information and provides it to the external user.

The communication unit 140 is configured to include at least one of the Wi-Fi module 141 or the beacon module 143. The Wi-Fi module 141 is provided for Wi-Fi communication, transmits and receives data using a frequency of the Wi-Fi band, and the beacon module 143 is provided for Beacon communication and receives a beacon signal using the frequency of the beacon communication band. To this end, the communication unit 140 may further include an antenna 145.

In addition, the Wi-Fi module 141 may have, for example, a specification such as 300 Mbps Wireless N Range Entender, 11n / 2.4 GHz / 2Tx-2Rx 300 Mbps WiFi, and the beacon module 143 may support BLE 4.1 spec.

The measuring unit 150 measures the surrounding information using various measuring sensors. To this end, the measurement unit 150 may include at least one of a fire detection module 210, a smoke detection module 220, an oxygen deficiency detection module 230, a temperature detection module 240, and a humidity detection module 250. Can be.

The fire detection module 210 detects a fire when a fire occurs around the power cable 110, and the smoke detection module 220 detects smoke generated around the power cable 110.

Oxygen deprivation detection module 230 detects the oxygen deprivation state present around the power cable 110, the temperature sensing module 240 detects the ambient temperature of the power cable 110, humidity sensing module 250 Senses the ambient humidity of the power cable 110.

Meanwhile, referring to FIG. 3, the oxygen depletion detection module 230 according to an embodiment of the present invention includes a light source unit 310, an optical transmitter 330, an oxygen detector 350, and an analyzer 370. .

The light source unit 310 generates the first light and transmits the first light to the light transmission unit 330 to be described later, and preferably generates white light or broadband light.

The optical transmitter 330 transmits the first light generated by the light source 310 to the oxygen detector 350 and receives the second light from the oxygen detector 350 to the analyzer 370. Is formed. The optical transmitter 330 may be formed of, for example, a material having high light transmission efficiency such as an optical fiber, a flat optical waveguide, or the like for optical transmission.

The oxygen detector 350 detects oxygen with respect to the first light transmitted through the optical transmitter 330, and generates an interference wave based on a principle of a Febri-Parot Interferometer.

In this case, the oxygen detector 350 is formed to include a polymer material 351 having a first refractive index and a sensing material 353 having a second refractive index. The polymer material 351 having the first refractive index transmits and reflects a part of the first light transmitted from the light source unit 310, and the sensing material 353 is positioned at the outermost part of the oxygen deficiency detecting unit and is exposed to oxygen in the air. It may be formed of a globin material that is chemically bonded, and may be formed of a material having an effective refractive index that changes according to a chemical bond with oxygen to change a spectral period.

In addition, the oxygen detecting unit 350 analyzes, through the light transmitting unit 330, the second light, which is an interference wave formed by partially reflecting the reflected light reflected from the polymer material 351 and the light reflected through the sensing material 353. Transfer to section 370.

The analyzer 370 may receive the second light formed by the oxygen detector 350, and may generate oxygen deficiency information by analyzing a periodic change of the spectrum of the second light. As a result of analyzing the spectral period change of the second light, the analysis unit 370 reduces the amount of oxygen below a predetermined standard due to the second light generated in a normal state with a large amount of oxygen around the power cable 110 and other reasons such as a fire. The oxygen deficiency may be determined based on the change in the period of the spectrum due to the change in the wavelength of the second light generated in the abnormal state.

The emergency state warning unit 170 transmits a warning when an emergency situation or emergency situation occurs around the power cable 110.

On the other hand, the control unit 130, the measurement results of each measurement module (210 to 250) of the measurement unit 150, including the surrounding information received through the communication unit 140 and evacuation information received through the PLC module 120. External information may be analyzed and the evacuation guidance and communication relay device 100 may be controlled.

For example, when the PLC module 120 receives external information from an external user through PLC communication using the power cable 110, the controller 130 may analyze the external information received by the PLC module 120. . In this case, the external information may include, for example, evacuation path information. When the control unit 130 obtains evacuation route information, the control unit 130 checks whether the evacuation guidance and communication relay device 100 including the control unit 130 is included in the evacuation route. When the device 100 is included in the evacuation path, the controller 130 controls the blinking of the emergency induction lamp 111 included in the power cable 110.

At this time, the controller 130, for example, by setting the same flashing cycle of each blinking light forming the emergency induction lamp 111, and by applying the flashing order at the same time to easily evacuate the evacuation route when there is an operator at the location You can make a judgment.

That is, when an evacuation path is set from the right side to the left side of the evacuation induction and communication relay device 100 of FIG. 1, the controller 130 sequentially turns on the emergency induction lamp 111 from the right side after a predetermined time. By controlling the flashing to turn off, the operator can be provided with simple visual information as if the light is moving in the direction in which the operator is to evacuate.

In addition, the controller 130 may measure the external light quantity using a light quantity measuring module (not shown), which may be further included in the measurement unit 150, and control the light quantity of the emergency induction lamp 111. Through this, the controller 130 increases the light output of the emergency induction lamp 111 when the surroundings are bright, so that the operator can easily recognize the flashing of the emergency induction lamp 111, and when the surroundings are dark, the emergency induction lamp 111. By keeping the light output of the light darker than a certain level, the operator may not recognize the blinking of the emergency induction lamp 111 and at the same time prevent the dark adaptation to escape.

In addition, when the controller 130 measures that the surrounding environment changes to a dangerous state through any one of each of the measuring modules 210 to 250 of the measuring unit 150, an emergency situation using the emergency state warning unit 170 is performed. It can also be controlled to warn of an emergency.

In other words, a fire is detected around the power cable 110 through the fire monitoring module 210, or smoke is detected around the power cable 110 through the smoke detection module 220, or an oxygen depletion detection module 230 is provided. When it is detected that the oxygen around the power cable 110 is deficient through, or when the ambient temperature of the power cable 110 is detected by a predetermined value or more through the temperature sensing module 240, the control unit 130 is the control unit 130 It may be determined that the vicinity of the evacuation induction and communication relay device 100 including the risk is dangerous, using the emergency state warning unit 170 may provide a warning to the outside.

In addition, the controller 130 not only provides a warning to the outside, but also transmits the location and alarm of the corresponding evacuation guidance and communication relay device 100 to an external user, notifying that the location is a dangerous area, and using this PLC communication It is also possible to provide workers with a safer evacuation route by excluding the location from the evacuation route included in the external information received through.

On the other hand, evacuation guidance and communication relay system 10 according to an embodiment of the present invention, as shown in Figure 4 can be applied to the work site to eliminate the communication blind spots. Referring to FIG. 4, the evacuation guidance and communication relay system 10 according to the present invention is installed at a work site in such a manner that a plurality of evacuation guidance and communication relay devices 100 are connected through a power cable 110. A commercial 220V power is supplied from an uninterruptible power supply (UPS) 410 to supply power, and the communication details performed by the communication unit 140 of each evacuation induction and communication relay device 100 are stored in a PLC gateway ( Transmit to an external communication network through 430, or supply a signal from the external communication network received by the PLC gateway 430 to each evacuation guidance and communication relay device 100 through the PLC communication to work through the communication unit 140 It can be formed to provide in the space.

In addition, the evacuation guidance and communication relay device 100 according to an embodiment of the present invention may further include an induction direction light 450 on one side, preferably through the guidance light 450 through the top or bottom Can be contacted. In this case, the guidance light 450 may be formed as a display, or may be formed to directly inform the direction of the arrow or the like. Through this, evacuation guidance and communication relay system 10 according to an embodiment of the present invention, by using the guidance guidance light 450 as well as the emergency guidance light 111 to induce more clear evacuation direction to the workers who need to evacuate. Can be.

Meanwhile, the evacuation guidance and communication relay device 100 according to an embodiment of the present invention may further include an emergency power unit 123 therein. The emergency power unit 123 charges the power received from the power cable 110 in a normal situation, and the power cable 110 is disconnected or the power is cut off due to an emergency situation or an accident, and the evacuation guidance and communication relay device 100 is provided. When no power is supplied to the emergency power supply, emergency power may be supplied to the evacuation guidance and communication relay device 100 in which the power is cut off.

At this time, the evacuation guidance and communication relay device 100 according to an embodiment of the present invention may be set in advance so that the power of the emergency power unit 123 is preferentially supplied to the communication unit 140. Through this, the evacuation guidance and communication relay system 10 is connected to the worker terminal in the vicinity through the communication unit 140 of the evacuation guidance and communication relay device 100 in which power supply through the power cable 110 is stopped If there is an operator, if there is an operator, communication with other evacuation induction and communication relay device 100, which is supplied with power through the power cable 110 installed in the vicinity, receives external information to emergency evacuation route. Indication lamp 111 may be used to help the evacuation of the worker at the location where the power supply is cut off.

Although one embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiments set forth herein, and those skilled in the art who understand the spirit of the present invention, within the scope of the same idea, the addition of components Other embodiments may be easily proposed by changing, deleting, adding, and the like, but this will also fall within the spirit of the present invention.

10: Evacuation guidance and communication relay system
100: evacuation guidance and communication relay device 110: power cable
111: emergency induction light 120: PLC module
121: connector 123: emergency power unit
130: control unit 140: communication unit
141: WiFi module 143: Beacon module
145: antenna 150: measuring unit
170: emergency state warning unit 210: fire detection module
220: smoke detection module 230: oxygen deficiency detection module
240: temperature sensing module 250: humidity sensing module
310: light source unit 330: light transmission unit
350: oxygen detection unit 351: polymer material
353: detection material 370: analysis unit
410: uninterruptible power supply 430: PLC gateway
450: induction light

Claims (10)

delete delete delete delete delete delete delete delete A plurality of evacuation guidance and communication relay devices; And
And a power cable connecting the evacuation guidance and communication relay device and performing PLC communication.
The evacuation guidance and communication relay device,
At least one emergency induction lamp formed in the power cable and powered on to induce an evacuation path;
At least one connector electrically and structurally coupled to the power cable;
A PLC module for performing the PLC communication with an external user using the power cable;
A light quantity measuring module capable of measuring a light quantity around the power cable;
A fire detection module detecting a fire near the power cable;
A smoke detection module detecting whether smoke is generated near the power cable;
An oxygen depletion detection module that detects oxygen deprivation near the power cable;
A temperature sensing module for detecting a temperature change near the power cable; And
A humidity sensing module that senses a change in humidity near the power cable; A measuring unit including at least one of;
An emergency state warning unit configured to measure surrounding information to notify the surroundings of a dangerous or emergency situation when the surroundings of the power cable are in a dangerous or emergency state;
Communication unit for performing communication with the operator to send and receive a communication signal;
A control unit controlling the emergency induction lamp, the PLC module, the measuring unit, and the communication unit to output an evacuation path by turning on the emergency induction lamp in the dangerous or emergency state; And
A power supply for receiving power from the power cable and storing the power as emergency power, and supplying the stored emergency power when the power cable is disconnected or the power is cut off;
The oxygen deficiency detection module,
A light source unit generating white light or broadband light as first light;
To generate a second light, which is an interference wave based on a Febry-Parot Interferometer principle, by sensing oxygen with respect to the first light generated by the light source unit.
A polymer material having a first refractive index that transmits and reflects a portion of the first light; And
It is provided in the outermost portion of the oxygen deficiency detection module, and is a globin material chemically bonds to oxygen in the air, and is formed of a material whose effective refractive index changes according to the chemical bond with the oxygen, and thus the spectral period changes. An oxygen sensing unit comprising a sensing material having a second refractive index that transmits a part of the light passing through the polymer material and reflects a part of the light;
An analyzer configured to analyze the spectral period change of the second light by analyzing the second light; And
And a light transmitting unit for connecting the light source unit and the oxygen detecting unit, the oxygen detecting unit and the analyzing unit to deliver the first light and the second light, respectively.
The control unit,
When receiving the external information including the evacuation path from the external user, and controls the flashing time, interval, brightness, etc. of the emergency induction lamp formed on the power cable located in the evacuation path,
By outputting a warning around the power cable through the emergency state warning unit, and providing information to the external user that the location is a dangerous area, and excludes the location from the evacuation path,
As a result of analyzing the spectral period change of the second light formed by the interference of the reflected light generated from the polymer material and the reflected light generated from the sensing material by using the analysis unit, the generated oxygen in the steady state with high oxygen around the power cable Determine the oxygen deficiency around the power cable based on a periodic change in the spectrum due to a wavelength change for the second light generated in an abnormal state in which the amount of oxygen is reduced below a certain reference by a second light and a fire or for other reasons; ,
The brightness of the emergency induction lamp is controlled according to the measurement result of the light quantity measuring module,
When the emergency power supply unit supplies the emergency power,
The control unit controls to supply the emergency power to the communication unit preferentially, and determines whether the worker exists around the power cable through the communication unit, and if the worker exists, the power cable using the communication unit. Evacuation guidance and communication relay system for controlling the operation of the emergency guidance light receiving the evacuation route from the other evacuation guidance and communication relay device that is powered through. delete

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