KR101722090B1 - Electric confined space manageing system and controlling method thereof - Google Patents

Abstract

The present invention relates to an electric closed space monitoring system and a control method thereof, and an electric closed space monitoring system according to the present invention includes a door open detection sensor for detecting opening and closing of a door of an electric room, a first call button for receiving an emergency call, And a first control unit for transmitting an alarm and a display lamp operation signal when the first call button receives the emergency call. An oxygen concentration sensor for measuring an oxygen concentration in the electric power unit, a second call button for receiving an emergency call, and an oxygen concentration sensor for detecting the occurrence of hypoxia, And a second control unit for transmitting an alarm and a display lamp operation signal when the second call button receives the emergency call; And a central monitoring unit communicating with the first control unit or the second control unit to receive the alarm and display lamp operation signals to operate the alarm and evacuation display lamps.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric enclosed space monitoring system,

An embodiment of the present invention relates to an electric enclosed space monitoring system and a control method thereof.

Various fire extinguishing gas facilities such as FM200, HFC-23 called global emission type carbon dioxide fire extinguishing facility or clean fire extinguishing agent in electric room, generator room, machine room, battery room, UPS room, computer room and integrated control room are installed in a large office building It is installed at a certain scale or more, such as a factory.

These spaces are equipped with gas-based fire-extinguishing facilities in order to minimize the damage caused by water when installing water-based fire-extinguishing equipment by using electrical equipment. Particularly, a carbon dioxide facility in which a medicine amount is widely used is mainly used in an electric room, a generator room, etc. in a space in which a person is hardly resident.

In case of carbon dioxide fire extinguishing system, the amount of chemical is widely used, but the price of fire extinguishing agent is very cheap, and the fire extinguishing effect by cooling and asphyxiation is not only excellent but also electric and mechanical equipments It is one of the most used fire extinguishing agents because it does not damage.

The major mechanism of the carbon dioxide fire extinguishing system and the gas fire extinguishing system is that when a fire occurs in a confined space such as an electric room, it is discharged through a nozzle, thereby reducing the oxygen concentration in the air, In the case of medicines, it has a function of extinguishing by using a non-catalytic effect. In addition, it has a digestive effect of reducing the oxygen concentration in the air and digesting it.

Since the gas-based fire extinguishing system is vaporized and released immediately in a low-temperature cooling liquid state and is present as a gas in the atmosphere, there is no residue after discharge, and since the discharge volume is large, the cooling action by heat absorption due to latent heat of vaporization is great, It is a gas which is heavy in specific gravity and easy to penetrate to the deep part of the flame in a gaseous state.

However, such a gas-based fire-extinguishing system agent has a risk of freezing due to rapid quenching at the time of vaporization, hinders generation of dry ice and visual field during discharge, or obstructs initial evacuation. Especially, And it is becoming a danger to human life safety.

Especially, carbon dioxide facilities are toxic because they are colorless and odorless gas, so they can not be used in areas where people are residing. However, they are damaged by malfunction and other accidents.

Halocarbons, which are used as a clean fire extinguishing agent, also have toxic substances at certain concentrations. When the exhaust gas that is poured through the head at the time of discharge is directly applied to a person's body, It is a reality that damage occurs.

In the case of developed countries, it is compulsorily enforced to include various alarm devices in order to compensate for the disadvantages of these gas fire extinguishing facilities. In the case of the United States, the NFPA Code, the United States fire safety standard, specifies the details. In addition, in Korea, it is stipulated that basic safety equipment should be provided in order to prevent accidents caused by such emission, but this is not enough in reality.

Even if the actual gas system fire extinguishing system is operated due to a fire, most of the gas system fire extinguishing systems have an emission delay time, so that an alarm such as sound or the like is activated in the room to alert the occupant to evacuate. And the delay is automatically delayed when the delay switch is pressed.

However, due to the enlargement of the building and the enlargement of the factory facilities, the space of the electric room becomes relatively large, and when an inexperienced operator or an outsider works in a space such as a large electric room, It is a reality that many people do not understand well.

If workers or outsiders entering or leaving the space of the electric room do work, check, check, and leave doors or windows open by fire area, the enclosure is not made and fire will not cause fire .

One of the characteristics of fire extinguishing agents is that if the fire extinguisher is not sealed, the fire extinguishing power is considerably lowered or lost and the fire extinguishing system is disabled, which can cause a fire due to difficulties in the initial fire suppression.

In this case, there is no safety equipments, and it is a reality that the damage such as a big fire, a fatal accident, etc.

In addition, if a worker or an outsider enters or exits a space such as an underground electric power facility or a public space as an enclosed space, a preliminary access permit system is implemented to prevent confined space suffocation and customized education is conducted. It is a reality.

In the past several years, 41.6% (62 persons) of the total number of the occupants of the confined spaces in the confined space have been concentrated in the summer from June to August, and the work places are classified into electric power facilities such as underground electric power facilities, 51% of them are in use space, and 41.6% in construction industry and 26.8% in manufacturing industry.

In addition, one out of 10 suffers from suffocation by suffocating into a confined space to save a colleague.

The problem of confined space is that it is occasional temporary work such as manhole, underground electric power, open space, tank, etc. Most of the dangerous work of oxygen deficiency is due to the lack of awareness of the danger and lack of awareness of the concerned person. Replacement ventilator fans, etc. Perform work without preventive equipment Many accidents are caused by two or more workers suffocating.

Due to the nature of the choking disaster, the oxygen deficiency or the momentary exposure to the harmful gas leads to a fatal death, and even if the person accidentally enters the enclosed space for the purpose of rescuing his colleagues.

Generally, it shows that the electric room and the gas fire extinguishing equipment in which the transformer is installed among the electric room of a factory or a large building are arranged. For example, in the electrical room drawing, a system for a gas system fire extinguishing system is installed in a space ranging from several meters in length to several tens meters in width. A cabinet or the like is installed in the electrical room, There is a lot of concern that if an outsider goes out for maintenance and work for the first time, if the gas system fire extinguishing system is released, he will not know how to deal with it and evacuate to the wrong place.

That is, even though the space is large as described above, there is provided only one or two doors on both sides of the door, in which an electric panel or the like is installed inside and a plurality of doors are allowed to enter and exit the door.

According to the existing fire prevention law, only an abort switch that can delay the gas emission is installed near both doors, and it is quite difficult to find the switch when the worker is in another space.

Generally, in the underground spaces of factories and large buildings, electric power facilities, public facilities, wastewater facilities are constructed for the convenience of facility management characteristics. For example, if the power grid is 100 meters or more in length and 3 meters in width, a large-scale power line, TRAY, and the like are installed in the power grid, and a separate safety system is not installed. Most of the facilities are lacking or lacking. In case of low oxygen concentration, it is not possible to cope with the situation. In case of emergency evacuation, there is a concern that evacuation to the wrong place is difficult because of the unknown direction.

That is, even though the closed distance is long, the door can not be easily found out.

If there is no alarm device, emergency call, or emergency oxygen mask when low oxygen concentration occurs, there is a problem that the passengers are embarrassed when they evacuate and there is a risk of suffocation.

In addition, it is a reality that the outside can not grasp the internal situation and can not reduce the damage because it does not have the condition to take appropriate measures.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an apparatus and a method for managing doors, windows, Life Safety Box) is installed to protect occupants in the room and to monitor them. It provides an excellent effect when the fire extinguishing agent is discharged. System method.

The present invention also provides an oxygen concentration measuring device, an oxygen concentration detector, an oxygen emergency alarm, an evacuation direction indicator, and an emergency evacuation indicator, which can prevent an accident on the risk of an occasional temporary work such as an underground power source, , Emergency Call and Emergency Oxygen Mask (Life Safety Box) to monitor occupants in the room and provide a method to monitor them, to provide occupant monitoring and evacuation and warning methods for safety.

In order to solve the above-described problems, an electric closed space monitoring system according to an embodiment of the present invention includes a door open detection sensor for detecting opening and closing of a door of an electric room, a first call button for receiving an emergency call, A first control unit that receives an alarm signal and a display lamp operation signal when receiving the alarm signal; An oxygen concentration sensor for measuring an oxygen concentration in the electric power unit, a second call button for receiving an emergency call, and an oxygen concentration sensor for detecting the occurrence of hypoxia, And a second control unit for transmitting an alarm and a display lamp operation signal when the second call button receives the emergency call; And a central monitoring unit communicating with the first control unit or the second control unit to receive the alarm and display lamp operation signals to operate the alarm and evacuation display lamps.

According to another embodiment of the present invention, a plurality of the electric room management unit or the electric power port management unit may be included.

According to another embodiment of the present invention, the first control unit and the second control unit communicate with each other, and the central monitoring unit communicates with the first control unit and the second control unit by an RS485 communication method. And a main monitoring unit connected to the sub-supervisory unit and receiving information from the first and second control units.

According to another embodiment of the present invention, the first control unit may transmit an alarm and a display lamp operation signal to the central monitoring unit when it is notified from the door open detection sensor that the door of the electric room has been opened for a predetermined time.

According to another embodiment of the present invention, the second control unit may be configured such that, when the entrance and exit number input unit receives the number of people in the at least one electric power outlet, the oxygen concentration detection sensor detects the occurrence of hypoxia, When an emergency call is input, an alarm and a display lamp operation signal can be transmitted to the central monitoring unit.

According to another embodiment of the present invention, the central monitoring unit receives position information corresponding to a call from the first call button via the first control unit, and receives, from the second call button, It is possible to receive position information corresponding to the call.

A method of controlling an enclosed space monitoring system according to an embodiment of the present invention includes a first step of measuring oxygen concentration in an electric room or a power port by an oxygen concentration sensor; A second step of inputting the number of entrants in the electric room or the electric power outlet; A third step of detecting opening / closing of the door of the electric room or the electric power source through the door open detection sensor; A fourth step in which the first control unit of the electric room management unit or the second control unit of the electric power port management unit transmits an alarm and display lamp operation signal when the oxygen concentration detection sensor detects occurrence of hypoxic or when the call button receives an emergency call; And a fifth step of the central monitoring unit communicating with the first control unit or the second control unit to receive the alarm and display lamp operation signals to operate the alarm and evacuation display lamps.

According to another embodiment of the present invention, in the third step, when the first control unit is notified from the door openness sensor that the door has been opened for a predetermined time, it may transmit an alarm and display lamp operation signal to the central monitoring unit have.

According to another embodiment of the present invention, in the fourth step, when the second control unit receives the number of one or more outgoing passengers, the oxygen concentration sensor senses occurrence of hypoxic, Upon receipt of the call, an alarm and a display lamp operation signal can be transmitted to the central monitoring unit.

According to another embodiment of the present invention, in the fifth step, the central monitoring unit receives position information corresponding to a call from the first call button via the first control unit, And receiving position information corresponding to the call from the second call button.

According to the embodiment of the present invention, it is possible to manage doors, windows, and the like to the space where such gas-based fire-extinguishing facilities such as the electric room and the battery room are installed, and to provide an emergency call for life safety and an emergency oxygen mask (Life Safety Box) It is possible to provide an electric enclosed space monitoring system method for preventing fire spread and life safety by providing an excellent effect in discharging the fire extinguishing agent by a device capable of protecting and monitoring the occupant.

The present invention also provides an oxygen concentration measuring device, an oxygen concentration detector, an oxygen emergency alarm, an evacuation direction indicator, and an emergency evacuation indicator, which can prevent an accident on the risk of an occasional temporary work such as an underground power source, , Emergency Call and Emergency Oxygen Mask (Life Safety Box) can be installed to provide monitoring and monitoring methods for occupants in the room to provide occupant monitoring and evacuation and alarm methods .

1 is a conceptual view of an electric enclosed space monitoring system according to an embodiment of the present invention.
FIG. 2 is a flowchart illustrating a method of controlling an electrical enclosed space monitoring system according to an embodiment of the present invention. Referring to FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail to avoid unnecessarily obscuring the subject matter of the present invention. In addition, the size of each component in the drawings may be exaggerated for the sake of explanation and does not mean a size actually applied.

1 is a conceptual view of an electric enclosed space monitoring system according to an embodiment of the present invention.

1, an electric enclosed space monitoring system according to an embodiment of the present invention will be described.

1, an electrical enclosed space monitoring system according to an embodiment of the present invention includes an electrical room management unit 100, a power port management unit 200, and a central monitoring unit 300. As shown in FIG.

The electric room management unit 100 includes a door open detection sensor 110, a first call button 120, a pause function unit 130, an alarm and escape lamp 140, and a first control unit 150 .

The first call button 120 receives the emergency call and the first control unit 150 receives the emergency call from the first call button 120. In this case, Upon receipt of the input, an alarm and a display lamp operation signal are transmitted.

At this time, the door open detection sensor 110 may be disposed at the top of the door in a magnetic type.

In addition, the pause function unit 130 may provide a function of temporarily stopping the door opening / closing detection of the door of the door opening detection sensor 110 when a long time operation is performed in the electric room.

When the first call button 120 is input, the alarm and evacuation lamp 140 may illuminate the evacuation lamp together with the alarm, and a life safety box may be disposed for each boundary region of the electricity room. The relief box can be constructed using an input / output module that can be expanded so as to be additionally installed.

The first controller 150 may transmit an alarm and a display lamp operation signal to the central monitoring unit 300 when it is notified from the door open detection sensor 110 that the door of the electric room has been opened for a predetermined time.

The first controller 150 may transmit the position information corresponding to the call of the first call button 120 to the central monitoring unit 300. The door open detection sensor 110, 1 call button 120, the pause function unit 130, the alarm and the evacuation lamp 140, as shown in FIG.

That is, the electric room management unit 100 monitors whether or not the electric room has entered the room, and may request assistance from the central monitoring unit 300 through the first call button 120 when an emergency occurs.

The power port management unit 200 includes an entrance and exit unit 210, an oxygen concentration sensor 220, a second call button 230, an alarm and evacuation lamp 240, and a second control unit 250 Lt; / RTI >

The second call button 230 receives an emergency call, and the second call button 230 receives an emergency call. The second call button 230 receives an emergency call, and the second call button 230 receives an emergency call. The control unit 250 transmits an alarm and a display lamp operation signal when the oxygen concentration sensor 220 detects low oxygen generation or when the second call button 230 receives an emergency call.

The oxygen concentration sensor 220 may be disposed at an interval of about 30 m from the door, and the oxygen concentration sensor 220 may be disposed at a distance of about 30 m from the entrance, Every 30 meters, a Life Safety Box can be installed in a place where naked eyes can be identified from the main line. The relief box can be constructed using an input / output module that can be expanded so as to be additionally installed.

The second control unit 250 detects the occurrence of hypoxic state by the oxygen concentration sensor 220 when the entrance and exit number input unit 210 receives the number of people entering the at least one electric power facility, 230) receives the emergency call, the central monitoring unit 300 can transmit an alarm and a display lamp operation signal to the central monitoring unit 300.

Also, the second controller 250 may transmit the position information corresponding to the call of the second call button 220 to the central monitoring unit 300.

On the other hand, a motion detection sensor may be installed in the inner copper wire in case that the input of the number of people entering through the input and output unit 210 is incorrectly calculated or the case of not inputting the number of outlets, A signal sensed by the sensing sensor may be provided to the central monitoring unit 300 through the second control unit 250.

The first control unit 150 of the electric room management unit 100 and the second control unit 250 of the power port management unit 200 can communicate with each other and can communicate with the central monitoring unit 300, The controllers 150 and 250 may include a PLC (Programmable Logic Controller).

That is, according to the present invention, since the communication between the control units 150 and 250 is possible, a plurality of electric room management units and power port management units can communicate with the central monitoring unit 300, Is possible.

In addition, the central monitoring unit 300 may include sub-monitoring units 301 and 302 and a main monitoring unit 350.

The sub supervisory boards 301 and 302 can communicate with the first supervisory controller 150 and the second supervisory controller 250 by an RS485 communication method and the main supervisory board 350 can communicate with the sub supervisory boards 301 and 302 And can receive information from the first and second control units 150 and 250.

At this time, the sub-supervisory panels 301 and 302 and the main supervisory module 350 can communicate by an RS485 communication method when they are close to each other and by an optical cable communication method when they are long-distance.

FIG. 2 is a flowchart illustrating a method of controlling an electrical enclosed space monitoring system according to an embodiment of the present invention. Referring to FIG.

Hereinafter, a method of controlling an enclosed space monitoring system according to an embodiment of the present invention will be described with reference to FIG.

First, the oxygen concentration sensor measures and displays the oxygen concentration in the power field (S510).

At this time, the oxygen concentration sensor can measure the oxygen concentration in the power port at all times and display the measured oxygen concentration around the door, so that the user can check the oxygen concentration.

Thereafter, the passengers of the electric room or electric power port enter the number of the passengers in the electric room or electric power port in the passengers input unit (S520).

When a door opens to enter or leave an electric room or a power outlet after the entry of the number of the passengers, the door open detection sensor senses the opening and closing of the doors of the electric room or the power outlet (S530) (S540).

At this time, when the control unit is notified from the door open detection sensor that the door has been opened for a predetermined time, an alarm and a display lamp operation signal may be transmitted to the central monitoring unit to inform that the door is opened.

Thereafter, when the oxygen concentration sensor senses the occurrence of hypoxic or an emergency situation occurs and the caller presses the call button and the call button receives the emergency call (S550), the first control unit of the electric room management unit or the second The control unit can transmit the alarm and display lamp operation signal (S560).

At this time, when the second control unit detects the occurrence of hypoxic or when the call button receives the emergency call, the alarm and display lamp operation signal To the central monitoring unit.

The central monitoring unit communicates with the first control unit or the second control unit to receive the alarm and display lamp operation signals, and the alarm and the evacuation display lamp may operate to allow the monitor to recognize the alarm and the display lamp operation at step S570.

The central monitoring unit receives position information corresponding to a call from the first call button through the first control unit or receives position information corresponding to a call from the second call button through the second control unit (S580), so that the administrator can proceed with the structure through quick on-site confirmation (S590).

For example, in an embodiment in which an operator enters and exits an electric room, when a person opens the door of the electric room for work, the door open detection sensor senses the opening of the door and sends a signal to the first control unit, The signal is transmitted to the first control unit, the sub-supervisory board 301 and the main supervisory board 350 to notify the power surveillance center or the disaster prevention center that the electric door is opened.

Also, if the door is opened for a certain period of time, the alarm is stopped when the door is closed, and the door opening lamp is turned on until the resetting is performed to indicate the occurrence of the situation.

When an emergency occurs in the electric room, the operator can press the emergency call button to inform the outside and request the emergency rescue.

In addition, when the gas-based extinguishing agent malfunctions, the operator wears an emergency oxygen mask, and when it is difficult to evacuate, the emergency call button may be pressed to request an external emergency emergency structure.

On the other hand, in case of a long time operation, the operator can pause the door open detection function.

In addition, for example, when a worker enters or exits a power plant, when a passenger opens a door after inputting the number of passengers to the entrance of the electric power source for work, the door open sensor senses the opening of the door, Information and door opening information are transmitted to the second control unit, and the information is transmitted to the sub-supervisory unit and the main supervisory unit, and notifies the power surveillance center or the control center of the presence of the entrance and door in the electric power unit.

The oxygen concentration sensor detects the oxygen concentration at all times and displays the oxygen concentration so that it can be checked by the user. If the oxygen concentration is below the predetermined concentration, the alarm and the evacuation lamp can be operated to indicate the evacuation direction.

For example, in an embodiment in which an operator enters and exits a power port, when an emergency occurs in the power port, a call button is pressed to inform the outside and an emergency structure can be requested. In case of difficulty breathing in the power port, If you are wearing a mask and are unable to evacuate, you can press the call button to inform the outside and request an emergency rescue.

Therefore, it is possible to maintain the oxygen concentration continuously even in the case of working long hours in the power field, and the operation can be continued safely. The central monitoring department can grasp the number of the passengers and inform the situation room when oxygen concentration is low. Can be identified and controlled.

In the foregoing detailed description of the present invention, specific examples have been described. However, various modifications are possible within the scope of the present invention. The technical spirit of the present invention should not be limited to the above-described embodiments of the present invention, but should be determined by the claims and equivalents thereof.

100: Electric room management section
110: Door open sensor
120: First call button
130: Pause function part
140: Alarm and Evacuation Lamp
150:
200:
210: Entry &
220: Oxygen concentration sensor
230: second call button
240: Alarm and Evacuation Lamp
250:
300: central monitoring unit
301, 302: sub-supervisory board
350: Main monitoring board

Claims (10)

An electrical enclosed space monitoring system for use in an electrical enclosed space gas system fire extinguishing facility area,
A door open detection sensor for detecting the opening and closing of the door of the electric room, a first call button for receiving an emergency call, and a first control unit for transmitting an alarm and display lamp operation signal when the first call button receives the emergency call An electrical room management unit;
An oxygen concentration sensor for measuring an oxygen concentration in the electric power unit, a second call button for receiving an emergency call, and an oxygen concentration sensor for detecting the occurrence of hypoxia, And a second control unit for transmitting an alarm and a display lamp operation signal when the second call button receives the emergency call; And
A central monitoring unit communicating with the first control unit or the second control unit to receive the alarm and display lamp operation signals to operate the alarm and evacuation display lamps;
/ RTI >
The central monitoring unit,
A sub-supervisory section communicating with the first control section and the second control section by an RS485 communication method; And
And a main monitoring unit connected to the sub-supervisory unit and receiving information from the first and second control units,
When receiving the position information corresponding to the call from the first call button through the first control unit and when the first control unit is notified from the door open detection sensor that the door of the electric room has been opened for a predetermined time, An alarm and a display lamp operation signal,
The second oxygen concentration sensor detects the occurrence of hypoxic when the entrance number input unit receives the number of people in the at least one electric power outlet, And an alarm and a display lamp operation signal from the second control unit when the second call button receives the emergency call. The method according to claim 1,
Wherein the electric room management section or the electric power port management section includes a plurality of electric room enclosure monitoring systems. delete delete delete delete CLAIMS 1. A control method for an electric enclosed space monitoring system used in an electric enclosed space gas system fire extinguishing facility area,
A first step of measuring an oxygen concentration in an electric room or a power source by an oxygen concentration sensor;
A second step of inputting the number of entrants in the electric room or the electric power outlet;
When the door open detection sensor senses the opening and closing of the doors of the electric room or the power port and the first control unit is notified from the door open detection sensor that the door has been opened for a predetermined time, A third step of receiving the data;
When the oxygen concentration detection sensor detects the occurrence of hypoxic or when the first or second call button receives the emergency call and when the second control unit receives the number of one or more outgoing passengers, A fourth step of receiving an alarm and display lamp operation signal from the first control unit of the electric room management unit or the second control unit of the electric power port management unit when the second call button receives the emergency call;
A fifth step of the central monitoring unit communicating with the first control unit or the second control unit to receive the alarm and display lamp operation signals to operate the alarm and evacuation display lamps; And
Wherein the central monitoring unit receives position information corresponding to a call from the first call button via the first control unit or receives position information corresponding to a call from the second call button through the second control unit 6. A method of controlling an enclosed space monitoring system, comprising: delete delete delete

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