KR102073356B1 - Fire emergency evacuation safety system with air supply and air suction adjustment - Google Patents

Abstract

It is an object of the present invention to provide an emergency evacuation safety system having a supply and exhaust control function in case of fire. The configuration of the present invention includes an air supply fan 12 and an exhaust fan 14 for each interior of a building. Ventilation equipment (10) installed to communicate with the room (5); A room sensor 40 installed in the indoor room 5 of the building; A mode setting unit 20 for selecting an operation mode of the air supply fan 12 and the exhaust fan 14 of the ventilation device 10 according to the sensing signal of the room sensor 40; And a control unit 30 for controlling the operation of the air supply fan 12 and the exhaust fan 14 of the ventilation device 10, wherein the room sensor 40 includes the respective indoor rooms 5. It comprises a smoke sensor 42 and a temperature sensor 44 installed in, the mode setting unit 20 according to the state of the smoke and flame sensed by the smoke sensor 42 and the temperature sensor 44 is Selected, characterized in that the operation of the air supply fan 12 and the exhaust fan 14 of the ventilation equipment 10 is made.

Description

Fire emergency evacuation safety system with air supply and air suction adjustment

The present invention relates to an emergency evacuation safety system having a supply and exhaust control function in the event of a fire, and more particularly, in an indoor room of a building, such as an apartment, to evacuate to a safety zone such as a toilet at the early stage of a fire, An emergency evacuation safety system with a new fire supply and exhaust control function implemented to prevent the same toxic gas from reaching the evacuator.

In general, a fire is a disaster that causes large-scale human and physical damages, and preventing fires is a top priority to effectively prevent human and physical damages.

However, fires come from a variety of causes, so preventing them all is practically impossible. Therefore, there is a need for a fire suppression system that minimizes the damage caused by a fire by extinguishing the fire at an early stage.

Conventional fire extinguishing systems include a fire water injection system, a fire extinguishing agent injection system, a fire extinguishing gas injection system, etc. The fire water injection system sprays fire water to extinguish the fire. Difficult to use depending on the object of suppression, the structure itself is damaged by the fire water sprayed at a high pressure during the fire suppression process, there was a disadvantage that the facilities and equipment inside the structure is damaged.

The extinguishing agent injection system is to extinguish fire by spraying extinguishing agent, has excellent extinguishing power and can be applied to various ignition objects, but due to the high price of extinguishing agent is expensive to operate and toxic substances in the fire suppression process This causes not only the damage to life and air pollution, but also difficult to use due to low extinguishing power in open spaces and the structure itself is damaged by extinguishing agent remaining after extinguishing fire, or the facilities and equipment inside the structure cannot be used. there was.

The extinguishing gas injection system has the advantage of extinguishing fire by injecting inert extinguishing gas, having excellent extinguishing power, harmless to the human body and easy to handle after extinguishing fire, but the structure itself in the process of extinguishing fire due to extinguishing gas injected at high pressure. Was damaged or facilities and equipment inside the structure is damaged, so there was a disadvantage that a separate damper, etc. must be installed.

For this reason, the fire suppression system can be installed and operated at a low cost in the industry, and it is excellent in fire extinguishing, harmless to the human body, applicable to both closed rooms and open spaces, and can prevent damage to facilities and equipment during the fire suppression process. There is a lot of research going on.

However, in the past, there is only an alarm by a detection function when a fire occurs, so it is not effective to prevent suffocation caused by toxic gases. Fire suppression function by the sprinkler system by fire, but there is no fire prevention function, there is a big problem that it is insufficient to prevent the fire accidents that people suffocate by toxic gas in case of fire. Serious safety accidents, such as the death of a person in the event of a fire, are caused by the inhalation of toxic fumes caused by a fire. There are no measures to prevent the case of choking by drinking poisonous gas such as smoke. In particular, in the indoor room of the building emergency evacuation early in the fire, and the most dangerous smoke and toxic gas to the evacuee in the evacuation place is often a serious damage to the evacuator. Furthermore, there is an urgent need for a means to sense whether toxic gases or flames are generated in each room of the building in the event of a fire and to control the supply and exhaust according to the situation of each room. .

Domestic registration patent No. 10-1278177 (2013.06.18 registration) Domestic Registration Patent No. 10-0294743 (Registered April 19, 2001) Domestic Patent Publication No. 2000-0017907 (2000.04.06 published)

The present invention has been developed to solve the problems described above, the object of the present invention is to evacuate to a safe zone such as the toilet in the early stage of the fire in the interior room of the building, such as an apartment, the toxic gas such as the most dangerous smoke It prevents the evacuation of victims and quickly releases poisonous gas such as the most dangerous smoke to the outside of the room in the early stage of the fire, thus causing serious safety accidents in which the person in the room can suffocate by poisoning the gas in the event of a fire. It is a new construction to provide an emergency evacuation safety system with a supply and exhaust control in case of fire.

According to the present invention for solving the above problems, provided with an air supply fan and an exhaust fan ventilation equipment installed to communicate with each indoor room of the building; A room sensor installed in the indoor room of the building; A mode setting unit for selecting an operation mode of the air supply fan and the exhaust fan of the ventilation device according to the sensing signal of the room sensor; There is provided an emergency evacuation safety system having a supply and exhaust control function in case of fire, characterized in that it comprises a; control unit for controlling the operation of the air supply fan and the exhaust fan of the ventilation equipment.

The room sensor is configured to include a smoke sensor and a temperature sensor installed in each indoor room, the mode setting unit is selected according to the state of the smoke and flame sensed by the smoke sensor and the temperature sensor, The air supply fan and the exhaust fan is characterized in that configured to be made.

The mode setting unit may include a first mode setting unit in which the air supply fan and the exhaust fan are fully operated; A second mode setting unit in which the exhaust fan is half-operated; A third remote setting unit in which the air supply fan is half-operated; And a fourth mode setting unit in which the air supply fan is fully operated.

The mode setting unit may include: a fifth mode setting unit configured to allow a full air supply to the indoor room where a person is placed by fully operating the air supply fan when the user enters an indoor room selected by a person in a building in which a fire occurs and presses a switch; Characterized in that further comprises a.

The toilet is characterized in that the additional water barrier forming tube for forming an additional water barrier film.

The toilet may further include a barrier air blowing tube disposed behind the add water barrier forming tube.

A fire extinguishing sensor for detecting a state in which fire extinguishing is completed in an indoor room of the building, and a water supply control unit for stopping the operation of the water supply device in a state in which the fire extinguishing sensor detects a fire extinguishing state in the indoor room; Characterized in that configured to include.

An ad water supply control unit and an air supply control unit are respectively connected to a water supply device for supplying water to the ad water barrier forming pipe and an air supply device for supplying air to the barrier air blowing pipe, and the ad water supply control unit and the air The supply control unit is characterized in that the fire extinguishing sensor is connected to detect the complete state of extinguishing in the indoor room of the building.

Emergency evacuation safety system equipped with air supply and exhaust control function in case of fire according to the present invention, if the temperature sensor and smoke sensor detects flame and smoke in the room when the building fire occurs, the exhaust fan is fully operated at full speed. In order to prevent fire, the golden time (approximately 3 to 5 minutes) does not spread toxic fumes throughout the building's interior room and is discharged completely outside the building at the beginning of the fire. Allow people to evacuate safely.

On the other hand, it is to be understood that the above effects are one of the main effects of the present invention, and the present invention is not limited to the above effects but is characterized by various various effects.

1 is a plan view showing a state employing an emergency evacuation safety system with a supply and exhaust control function in the case of a fire in accordance with the present invention
Figure 2 is a plan view schematically showing the configuration of the ventilation equipment that is the main part of the emergency evacuation safety system having a supply and exhaust control function in case of fire according to the present invention
3 is a view schematically showing the structure of the ventilation equipment and the temperature sensor and the smoke sensor of the emergency evacuation safety system having a supply and exhaust control function in case of fire according to the present invention;
4 is a view schematically showing the configuration of a mode setting unit and a control unit which are main parts of the present invention;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description. In the drawings, the same reference numerals are used for the same parts. In addition, in describing the present invention, if it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in describing the component of this invention, terms, such as 1st, 2nd, A, B, (a), (b), can be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but there is another component between each component. It will be understood that may be "connected", "coupled" or "connected".

Referring to the drawings, the emergency evacuation safety system with a supply and exhaust control function in the event of a fire of the present invention, the ventilation equipment 10 having an air supply fan 12 and an exhaust fan 14, and the indoor room of the building (5). ), The mode setting unit 20 and the air supply fan 12 and the exhaust fan 14 to select an operation mode of the room sensor 40 installed in the air supply fan 12 and the exhaust fan 14 of the ventilation equipment 10. The control unit 30 for controlling the operation of the) is provided.

The ventilation device 10 includes an exhaust fan 14 and an air supply fan 12. Ventilation equipment 10, 20 is installed in any one indoor room (5) selected from the indoor room (5) of the building. In the present invention, the ventilation equipment 10 may be installed in the bathroom.

In the present invention, the exhaust fan 14 of the ventilation equipment 10 is communicated with each indoor room 5 of the building by the exhaust pipe 15. The air supply fan 12 of the ventilation device 10 is communicated with each indoor room 5 of the building by the air supply pipe 13.

The ventilation device 10 is provided with an air supply distributor connected to the air supply fan 12, the air supply distributor is provided with a plurality of air supply port for communicating with each indoor room of the building, each air supply port of the air supply distributor A plurality of air supply pipes 13 are connected, and the plurality of air supply pipes 13 communicate with each indoor room 5 of the building. In addition, an air supply damper is provided inside the air supply distributor to open and close each air supply port, and the air supply damper opens and closes each air supply port of the air supply distributor while rotating by a motor shaft of a motor mounted on the air supply distributor. It is configured to.

The ventilator 10 is provided with an exhaust distributor connected to the exhaust fan 12, the exhaust distributor is provided with a plurality of exhaust ports for communicating with each indoor room of the building, each exhaust port of the exhaust distributor A plurality of exhaust pipes 13 are connected and the plurality of exhaust pipes 13 communicate with each indoor room 5 of the building. In addition, an exhaust damper for opening and closing the respective exhaust ports is provided in the exhaust distributor, and the exhaust damper opens and closes each exhaust port of the exhaust distributor while rotating by a motor shaft of a motor mounted to the exhaust distributor. It is configured to.

The air is supplied to each indoor room 5 of the building through the air supply pipe 13 connected to the air supply fan 12 and each indoor room 5 of the building, and the exhaust fan 14 In the indoor room 5, the exhaust air is sucked up. In the present invention, the toilet 5 may also be referred to as an indoor room. Air is supplied from the indoor room 5 of the building by the air supply and the exhaust fan 14 through which the air is supplied to each indoor room 5 of the building through the air supply pipe 13 by the rotation of the air supply damper and the exhaust damper. Suction exhaust can be configured to occur.

The room sensor 40 includes a smoke sensor 42 and a temperature sensor 44. The smoke sensor 42 detects smoke that is toxic gas in each room when a fire occurs, and the temperature sensor 44 detects flames in each room when a fire occurs. To this end, a smoke sensor 42 and a temperature sensor 44 are installed in each room of the building. The smoke sensor 42 and the temperature sensor 44 are electrically connected to the control unit 30. The smoke sensing sensing signal sensed by the smoke sensor 42 and the flame sensing sensing signal sensed by the temperature sensor 44 are transmitted to the control unit 30.

The control unit 30 is an air supply fan constituting the exhaust fan 14 and the air supply fan 12 constituting the smoke sensor 42 and the temperature sensor 44 and the exhaust fan 14 of the ventilation equipment 10. Is electrically connected to (12). The control unit 30 is an exhaust fan 14 and an air supply fan 12 of the ventilation device 10 according to the state of the smoke detection signal and the flame detection signal detected by the smoke sensor 42 and the temperature sensor 44, respectively. To control its operation. The exhaust fan 14 is set to the full operation mode and the half operation mode, and the air supply fan 12 is also set to the half operation mode of the full operation mode, and the control unit 30 The air supply fan 12 may be operated in the full operation mode and the half operation mode, respectively.

Mode setting unit 20 is selected according to the state of the smoke and flame sensed by the smoke sensor 42 and the temperature sensor 44, the air supply fan 12 and the exhaust fan 14 of the ventilation equipment (10) It is configured to make the operation of. The state of smoke means whether smoke is generated in each indoor room 5 of the building at the time of a fire, or whether smoke does not occur. The state of flame means each indoor room 5 of the building at the time of a fire. This means whether or not the flame is occurring at.

In the present invention, the mode setting unit 20 includes a first mode setting unit 22, a second mode setting unit 23, a third mode setting unit 24, and a fourth mode setting unit 25.

The present invention is configured to switch between the full air supply mode, half air supply mode, full exhaust mode, half exhaust mode and half exhaust mode according to the degree of opening the air supply damper and the exhaust damper provided in the air supply distributor and exhaust distributor of the ventilation equipment (10) do.

When the angle rotated to block the exhaust port of the exhaust distributor by the exhaust damper is 0 ° and the angle rotated by the supply damper to block the air supply port of the air distributor is 0 °, the exhaust damper provided in the exhaust distributor and The angle of rotation of the air supply damper provided at the air supply distributor so that the exhaust port and the air supply port is completely opened is in the range of 80 to 90 °. The angle at which the air supply damper and the air damper are rotated in the full air supply mode and the full air exhaust mode is in the range of 80 to 90 °. In the full air supply mode and the full exhaust mode, the air supply damper and the exhaust damper may be referred to as a full open state, respectively.

When the angle rotated to block the exhaust port of the exhaust distributor by the exhaust damper is 0 ° and the angle rotated by the supply damper to block the air supply port of the air distributor is 0 °, the exhaust damper provided in the exhaust distributor and The angle at which the air supply damper provided at the air supply distributor is rotated to half open the exhaust port and the air supply port is in the range of 40 to 50 °. The angle at which the air supply damper and the exhaust damper are rotated in the half air supply mode and the half air exhaust mode is in a range of 40 to 50 °. In the half air supply mode and the half exhaust mode, the air supply damper and the exhaust damper may be referred to as a half open state, respectively.

In the present invention, if both the temperature sensor 44 and the smoke sensor 42 detects flame and smoke in the indoor room 5 when a building fire occurs, the exhaust fan and the exhaust air supply are discharged by the air supply fan 12 and the exhaust fan 14. To be done. In the first mode setting unit 22 electrically connected to the control unit 30, the full exhaust mode and the full air supply mode are performed by the exhaust fan 14 and the air supply fan 12. The exhaust damper provided in the exhaust distributor of the ventilation device 10 and the air supply damper provided in the air supply distributor may be operated in the full exhaust mode and the full air supply mode in the full open state.

In the event of a building fire, the smoke is not generated in the indoor room 5 and the fire is caught, so that the temperature sensor 44 detects a flame and the smoke sensor 42 does not detect smoke by the exhaust fan 14. Allow full exhaust. The second mode setting unit 23 electrically connected to the control unit 30 allows the full exhaust mode operation by the exhaust fan 14 to be performed. The exhaust damper provided in the exhaust distributor of the ventilation device 10 may be operated in a full exhaust mode.

When the building fire is detected by the smoke sensor 42 in the indoor room (5) while the flame is not detected by the temperature sensor 44 operates the exhaust fan 14 in the half exhaust mode. The exhaust damper provided in the exhaust distributor of the ventilation device 10 may be operated in a half exhaust mode in which the exhaust damper is half-opened. On the other hand, in the case where there is an indoor room 5 in which smoke has occurred and an indoor room 5 in which a flame has occurred, the indoor room 5 in which smoke has occurred is operated by the exhaust fan 14 in the half exhaust mode, and the other indoor room 5 is operated. In the room is only smoke in the other room (5) by operating in the full exhaust mode by the exhaust fan 10, the pressure of the indoor room (5) where the smoke is higher than the pressure of the other indoor room (5) Since the heat of the flame or the flame can be prevented from coming into the room 5, the exhaust fan 14 is configured to exhaust the air in the half-exhaust mode in the indoor room 5 in which smoke is generated. Among the plurality of exhaust dampers provided in the exhaust distributor of the ventilation device 10, the exhaust damper for opening and closing the exhaust port communicating with the indoor room 5 where the smoke is generated is kept in the half-opened state, while the exhaust damper of the exhaust distributor If the exhaust damper for opening and closing the exhaust port in communication with the indoor room 5 in which the fire occurred is kept in the open state, in the indoor room 5 in which the smoke has occurred, the exhaust fan 14 is operated in the half exhaust mode and the other rooms In the room 5, the exhaust fan 14 can be operated in the full exhaust mode. In the third mode setting unit 24 connected to the control unit 30, the exhaust fan 14 is operated in the half exhaust mode.

When no fire occurs in the indoor room 5 when a building fire occurs, heat by the temperature sensor 44 is not detected and smoke is not generated. Therefore, the smoke is operated in the half air supply mode by the air supply fan 12. . The air supply damper provided in the air supply distributor of the ventilation device 10 may be operated in a half air supply mode in which half the open air. The fourth mode setting unit 25 is connected to the control unit 30, and the air supply fan 12 is operated in the lower air supply mode in the fourth mode setting unit 25.

In addition, in the present invention, when the indoor room switch is pressed in the indoor room 5 where a person enters in case of fire, the indoor room 5 in which the switch is pressed in response to the switching-on signal of the switch is applied to the full operation of the air supply fan 12. Air supply in full mode. The mode setting unit 20 further includes a fifth mode setting unit 26, and the fifth mode setting unit 26 is connected to the control unit 30, wherein a room selected by a person in a building in which a fire occurs ( 5) when the indoor room switch 5SW is pressed, the fifth mode setting unit 26 causes the air supply to the corresponding indoor room 5 into which the person enters by the air supply fan 12. Among the plurality of air supply dampers provided in the air supply distributor of the ventilation device 10, the air supply damper for opening and closing the air supply port communicating with the indoor room 5 in which the indoor room switch 5SW is pressed is maintained in the full open state, The air supply port, which is connected to the indoor room (5) in which the indoor room switch (5SW) is not pressed, is blocked by the air supply damper, and a person enters and presses the indoor room switch (5SW). The full supply can be made.

At this time, the present invention, the toilet sensor (5TS) for detecting the evacuation of the person to the toilet in the building in which the fire occurs, and the air supply fan 12 in accordance with the detection signal of the toilet sensor (5TS) to fully operate the toilet. The apparatus may further include an air supply mode switching unit 5SC for performing a full air supply, and the air supply by the air supply fan 12 may be made in the bathroom by the air supply mode switching unit 5SC. If the air supply damper for opening and closing the air supply port communicating with the toilet among the plurality of air supply dampers provided in the air supply distributor of the ventilation device 10 is kept in the open state, the full air supply can be made in a state where a person enters the bathroom. have.

On the other hand, in the case of the present invention, the toilet is set as the final safe evacuation room, when a person enters and is sensed by a sensor provided in the toilet when a person is moved to the toilet, the air supply fan 12 in the toilet 5 is sensed. The air is supplied in the full air supply mode by the air supply, and in the other indoor room 5, the half air supply is performed in the half air supply mode by the air supply fan 12, and the other person uses the indoor room switch 5SW in the other indoor room 5. When pressed, the indoor room switch 5SW is pressed so that the full air supply by the air supply fan 12 as described above is performed in the indoor room 5.

In addition, the present invention may be configured to further include a evacuator signal display unit 50 to inform the rescuer of the place where people are evacuated during the fire of the building. The evacuator signal display unit 50 has a display unit 52 installed outside the building (for example, a wall surface beside the entrance door of the building), and a person evacuates from the indoor room 5 where the person is evacuated. It may include an evacuation detection sensor 54 to detect the presence of the person on the display unit 52. The display unit 54 of the evacuator signal display unit 50 displays a signal indicating that a person is in an indoor room 5 on which floor of the building to rescue the place where the person is evacuated during the fire of the building. Inform

Therefore, the present invention senses whether or not toxic gas or flame is generated in each interior of the building at the time of fire, and thus controls the supply and exhaust according to the situation of each indoor room 5, thereby completely ensuring safety in emergency evacuation in case of fire. It is effective to guarantee.

When a building fire occurs, when both the temperature sensor 44 and the smoke sensor 42 detect flame and smoke in the indoor room 5, the exhaust fan 14 is fully operated at full speed so that the exhaust is made. In the later evacuation Golden Time (approximately 3 to 5 minutes), the toxic gas is not spread in the entire interior room (5) of the building and is discharged completely outside the building at the beginning of the fire. Allow evacuation. Since the toxic gas inside the building is completely discharged out of the building by the full operation of the exhaust fan 14 during the evacuation golden time, a serious safety accident caused by the suffocation of the toxic gas by the person during the golden time to evacuate after the fire occurs. Is to prevent it completely. In the indoor room 5 in which smoke occurs during a fire, the exhaust fan 14 is completely discharged to the outside by the full operation of the toxic gas, and in the indoor room 5 where no toxic gas is generated, the exhaust fan 14 By discontinuing operation of the exhaust fan 14, the toxic gas does not spread at all in the indoor room 5 of the building and the toxic gas remains only in the indoor room 5 where the smoke is generated. The toxic gas is quickly discharged from the indoor room 5 in which the toxic gas is generated while the toxic gas is held in the indoor room 5 in which the toxic gas is generated and held by the full operating suction pressure. In Golden Time, where people are evacuated to evacuation sites, it is possible to completely prevent serious safety accidents that can result from suffocation of toxic gases.

On the other hand, in the event of a building fire, the smoke is not generated in the indoor room 5 and the fire is caught, so that the temperature sensor 44 detects a flame and the smoke sensor 42 does not detect smoke. To allow full exhaust. If the air in the fire generating room 5 is sucked out and discharged to the outside by the exhaust fan 14 from the indoor room 5 in which the fire has occurred, only in the indoor room 5 in which the fire occurs when a fire occurs in the building. Since the fire stays to prevent the spread of the fire to the other indoor room (5), it is possible to achieve a complete extinguishing effect in the initial suppression of the fire.

In addition, in the present invention, when there is an indoor room 5 in which smoke occurs and an indoor room 5 in which flames are generated, the indoor room 5 in which smoke occurs is operated in the half exhaust mode by the exhaust fan 14 and the other indoor room. In (5), the pressure in the indoor room 5 where the smoke is generated by operating in the full exhaust mode by the exhaust fan 14 is higher than the pressure of the other indoor room 5 so that the smoke in the other indoor room 5 is reduced. In the indoor room (5) where only the smoke is generated, the exhaust fan (14) exhausts in the half-exhaust mode in the indoor room (5) where smoke is generated. 5), but also prevents the spread of fire from the indoor room (5) (that is, the indoor room (5) with a fire) to the other indoor room (5) where the flame is generated. .

In addition, when a building fire occurs, no flame is generated in the indoor room 5 so that heat by the temperature sensor 44 is not detected and smoke is not generated so that smoke is not detected. It works. Of the many indoor rooms 5 of the building, no smoke is generated and no lights are applied to the indoor rooms 5 which are operated in the half air supply mode by the air supply fan 12 to supply fresh air. The indoor room 5, which does not detect smoke, can be a relatively safe evacuation space. Therefore, when a person is evacuated to such a relatively safe indoor room 5 at the time of a fire, the maximum amount of air is supplied without supplying fresh air at the maximum amount. It provides a relatively lower amount of air to increase safety. This is because it is sufficient to ensure human safety even if a small amount of air is supplied to the indoor room 5 which does not generate a fire and does not generate smoke.

In addition, in the present invention, when the indoor room switch (5SW) is pressed in the indoor room (5) in which people enter during a fire, the indoor room in which the indoor room switch (SW) is pressed in response to the switching-on signal of the indoor room switch (5SW). In (5), the air supply amount by the air supply fan 12 is supplied in full mode. A person enters and presses the indoor room switch 5SW to supply the air in the full air supply mode by the air supply fan 12 so as to maintain a positive pressure higher than that of other indoor rooms 5. Then, smoke does not penetrate into the indoor room 5 into which the person enters, and the fire is pushed out by positive pressure, thereby preventing the fire from spreading into the indoor room 5 where the person enters.

Meanwhile, in the present invention, the toilet is set as the safest evacuation room 5 in a building in which a fire occurs, and when the toilet sensor 5TS detects a state in which a person evacuates to the toilet 5, the toilet sensor 5TS. In accordance with the detection signal of)) is operated in the full air supply mode by the air supply fan 12. It is automatically operated in full air supply mode with a person in the toilet. The full air supply by the air supply fan 12 is made in the toilet 5 by the air supply mode switching unit 5SC. In such a case, since the toxic gas and the fire generated in the other indoor room 5 do not penetrate into the person evacuated to the toilet, the person can be kept in the safest evacuation state at the beginning of the fire.

At this time, the present invention is a fire-extinguishing sensor 60 for detecting a state in which the fire extinguishing is completed in the indoor room 5 of the building, the fire-extinguishing sensor 60 detects a fire extinguishing state in which the fire is suppressed in the indoor room 5 It further includes a water supply control unit for stopping the operation of the water supply device in the state, and smoke residual sensor 62 for detecting the presence of toxic gas in the building.

Therefore, the fire extinguishing sensor 60 detects the extinguished state due to the suppression of fire in the indoor room 5 of the building, and at the same time, there is no smoke in the indoor room 5 of the building by the smoke residual sensor 62. If it is detected that the air supply fan 12 and the exhaust fan 14 of the ventilation equipment 10 to the normal operation mode, the air supply and exhaust in all the indoor rooms 5 of the building, including the toilet (5). Make it uniform.

On the other hand, in the present invention, the filter 17 is provided to be adjacent to the air supply fan 12 of the ventilation equipment 10, the ventilation equipment 10 is divided into the air supply chamber and the exhaust chamber, the air supply inlet port communicated with the air supply chamber and A filter 17 is provided to be disposed between the air supply outlet pods. At this time, the filter 17 provided on the air supply fan 12 side may include a HEPA filter and an activated carbon filter (carbon filter) disposed between the HEPA filter and the exhaust outlet port.

Therefore, the air is supplied to the indoor rooms 5 and the toilets of the building by the air supply fan 12 to filter foreign substances by the filter 17, and then clean air is supplied to the indoor rooms 5 and the toilet. In order to supply to the building, it performs a clean function of supplying clean air to the occupants of the building. When the air is supplied to the indoor room 5 of the building by the operation of the air supply fan 12 in the building, harmful particles such as dust in the air are first collected through the HEPA filter, and 2 The harmful particles of particles are collected by the car, which further ensures the clean function of the interior of the building.

In addition, the filter 17 is also provided on the exhaust fan 14 side of the ventilation equipment (10). The filter is embedded in the ventilation case so as to be disposed between the exhaust inlet port and the air supply outlet port communicated with the exhaust chamber of the ventilation device 10. At this time, the filter 17 provided on the exhaust fan 14 side may also include a HEPA filter and an activated carbon filter (carbon filter) disposed between the HEPA filter and the exhaust outlet port.

Therefore, when a fire occurs in the building and toxic gas such as smoke is discharged to the outside through the exhaust fan 14 of the ventilation equipment 10, the toxic gas particles are primarily passed through the HEPA filter. It is collected, and the particles of the toxic gas are collected second through the activated carbon filter, so that the toxic gas is extinguished in the ventilation equipment (10) itself in the event of a building fire to prevent the toxic gas is discharged to the outside of the building. .

In the above, the specific Example of this invention was described above. However, the spirit and scope of the present invention is not limited to these specific embodiments, and various modifications and variations can be made without departing from the spirit of the present invention. Those who have it will understand.

Therefore, since the embodiments described above are provided to completely inform the scope of the invention to those skilled in the art, it should be understood that they are illustrative in all respects and not limited. The invention is only defined by the scope of the claims.

5. Indoor Room 5SW. Indoor room switch
5TS. Toilet Sensor 5SC. Supply mode switch part
10. Ventilation equipment 12. Supply fan
13. Supply pipe 14. Exhaust fan
15. Exhaust Pipe 17. Filter
20. Mode setting section 22. First mode setting section
23. 2nd mode setting part 24. 3rd mode setting part
25. Fourth mode setting section 26. Fifth mode setting section
30. Control part 40. Room sensor
42. Smoke sensor 44. Temperature sensor
50. Evacuation signal display unit 52. Display unit
54. Evacuation sensor 60. Fire extinguishing sensor

Claims (8)

Ventilation equipment 10 is installed so that the air supply fan 12 and the exhaust fan 14 communicate with each indoor room 5 of the building;
A room sensor 40 installed in the indoor room 5 of the building;
A mode setting unit 20 for selecting an operation mode of the air supply fan 12 and the exhaust fan 14 of the ventilation device 10 according to the sensing signal of the room sensor 40;
And a control unit 30 for controlling the operation of the air supply fan 12 and the exhaust fan 14 of the ventilation device 10.
The room sensor 40 includes a smoke sensor 42 and a temperature sensor 44 installed in each indoor room 5, and the smoke sensor 42 and the temperature sensor 44 are sensed. The mode setting unit 20 is selected according to the state of smoke and flame, and configured to operate the air supply fan 12 and the exhaust fan 14 of the ventilation device 10.
The mode setting unit 20,
A first mode setting unit 22 in which the air supply fan 12 and the exhaust fan 14 are fully operated;
A second mode setting unit 23 in which the exhaust fan 14 is half-operated;
A third mode setting unit 24 in which the air supply fan 12 is half-operated;
And a fourth mode setting unit 25 in which the air supply fan 12 is fully operated.
The mode setting unit 20 enters an indoor room 5 selected by a person in a building in which a fire has occurred, and fully operates the air supply fan 12 when the switch is pressed, so that the corresponding indoor room 5 contains a person. Emergency mode evacuation safety system having a supply and exhaust control function in case of fire, characterized in that further comprises;
delete delete delete The method of claim 1,
A toilet sensor for detecting a state in which a person evacuates to a toilet in a fire building;
Air supply and exhaust control during the fire, characterized in that further comprises; air supply mode switching unit (5SC) for performing a full air supply to the toilet by the full operation of the air supply fan 12 according to the detection signal of the toilet sensor Emergency evacuation safety system with features.
The method of claim 1,
Emergency evacuation safety system having a fire supply and exhaust control function, characterized in that further comprises; evacuation signal display unit (50) for informing the rescuer of the place where people are evacuated during the fire of the building.
The method of claim 1,
Emergency evacuation safety system with a supply and exhaust control function in case of fire, characterized in that the filter 17 is provided on the air supply fan 12 side of the ventilation equipment (10).
The method of claim 1,
Emergency evacuation safety system with a supply and exhaust control in case of fire, characterized in that the filter 17 is provided on the exhaust fan (14) side of the ventilation equipment (10).

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