KR20190043669A - Ventilation and Fire spread preventing system of multi-story building - Google Patents

Abstract

The present invention relates to a system for preventing ventilation and fire spread of a multi-story building, and more particularly, to a system for preventing ventilation and fire spread of a multi-story building, So that the air flow is always made from the upper part to the lower part in the inside of the multi-story building and the fresh air always maintains the pleasant air quality, while the toxic gas and smoke generated in the indoor area in the emergency such as fire, To prevent ventilation of the large pizzas, and to safely evacuate the large pizzas without difficulty in breathing.
An air intake device, an installation tube, and an air supply unit. The pressure of the ambient air continuously flows into the indoor space of the multi-storey building and the indoor space of the multi- The air flow from the top to the bottom is generated in the zone.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilation system and a fire prevention system,

The present invention relates to a system for preventing ventilation and fire spread of a multi-story building, and more particularly, to a system for preventing ventilation and fire spread of a multi-story building, So that the air flow is always made from the upper part to the lower part in the inside of the multi-story building and the fresh air always maintains the pleasant air quality, while the toxic gas and smoke generated in the indoor area in the emergency such as fire, To prevent ventilation of the large pizzas, and to safely evacuate the large pizzas without difficulty in breathing.

Typically, multi-storey buildings are equipped with fire fighting equipment to extinguish the fire when a fire occurs.

It is installed for the purpose of suppressing the building fire. The big pizza in the building is installed to move quickly to the safety zone on the roof or the lower floor of the fireless building. Generally, in various media, I do not use an elevator that I can not grasp.

In the event of a fire, bulldozers in the building must use the emergency stairs quickly through the exit.

On the other hand, in general, large-sized buildings such as high-rise apartment buildings and buildings cause large-scale casualties in case of fire.

Such smoke has a relatively low risk of personal injury rather than a flame condition and toxic gas immediately after combustion, but the main factor causing smoke damage in the event of a fire is a duct inside the building, Because of the rapid spread of the area to the evacuation area as well as the area, it is difficult to evacuate quickly through the evacuation area such as emergency stairs.

1, the emergency stairs constituting the conventional multi-story building 10 form a ventilation window at the top in a natural ventilation mode, and air in the emergency stairs is discharged to the outside of the upper side through the air, System.

Therefore, when a fire occurs, the gas and smoke generated in the indoor space naturally flows into the emergency staircase along with the hot fire and spread to the upper part according to the air flow.

Therefore, if a fire occurs on the 6th floor, the big pizzas below 6th floor can escape through the emergency stairs to some extent, but the 7th floor and above pizzas can not escape to the emergency stairs because of the smoke and fire A problem arises.

In order to solve such a problem, the technique disclosed in the Utility Model No. 20-2007-0001065 entitled " Smoke Smoke Method Using Air Curtain Apparatus and Its Apparatus " is disclosed.

Referring to FIG. 2, the air supply outdoor air intake port 61 is provided on the roof, and the vertical air supply duct 12 and the horizontal air supply duct 12-1 are provided on the inside of the building. And an air curtain device 41 connected to the horizontal air supply duct 12-1 is provided at the boundary of the smoke outlet zone (inner upper portion of the entrance room door). When the air curtain device 41 is operated during a fire, Air is discharged through the vertical air supply duct 12 and the horizontal air supply duct 12-1 to the air curtain device discharge port and the air curtain (air film) formed by the discharge pressure of the discharged air is used as a living room And the smoke generated in the hallway is prevented from entering into the subsidiary room (32).

That is, the air curtain device 41 connected to the outside air intake port 61, the vertical air supply duct 12, and the horizontal air supply duct 12-1 is provided at the boundary of the smoke chamber of each floor And it is known that an air curtain is installed to prevent the toxic gas generated in the inside of the building from flowing into the subsidiary room or the emergency staircase.

In addition, it can be seen that the air in the room such as the living room 31 is discharged to the roof blowing fan 21 via the discharge damper 23 and the vertical discharge duct 22.

However, in the above-mentioned conventional technology, when the fire occurs, it is difficult to supply power to the air curtain device installed on each floor due to the cutoff of the power source, and when a fire occurs in the air curtain device due to an explosion that may occur during a fire, The emergency stairs of the floor cause problems that are difficult to use.

In addition, in order to pass through the door, many escorted persons are required to be installed not to be narrow but wide, so that there is a problem that an enormous operation cost is incurred.

In addition, since the outside air intake port 61 and the blower for exhaust 21 are located close to each other, the wind coming from the air curtain device 41 in the event of a fire is discharged through the discharge blower 21, And the air including the toxic gas and the smoke enters the subsidiary room 32 and evacuates to the subsidiary room 32 and suffers toxic gas and difficulty breathing.

In other words, referring to FIGS. 1 and 2, when the fire occurs, the staircase effect is generated in the emergency staircase, and the emergency staircase becomes like a chimney, and smoke, toxic gas and flames spread on the roof. The toxic gas is again sucked into the installed outside air intake port 61 and enters the air curtain device 41 connected to the horizontal air supply duct 12-1 to cause difficulty in breathing.

For example, a fire in the United Kingdom in 2017 produced smoke and toxic gas rising up to the top, so that even escaping to the roof would have to suffocate the smoke.

Therefore, it is unnecessary to provide a separate auxiliary room 32 for each floor, and the air flow can be formed so as to extend from the upper part to the lower part of the multi-story building, so that ventilation and fire spread Prevention system is required.

Korean Patent Publication No. 10-2010-0064406 (published on June 15, 2010)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a multi-layered building in which fresh air outside is continuously injected for each layer, And a system for preventing ventilation and fire spread of a building.

In addition, when the fire occurs, the toxic gas, smoke and hot flames generated in the indoor area are prevented from entering the emergency stairway, so that they can safely evacuate people through emergency stairs while obeying the legal ventilation specified in the indoor air quality law. And to provide a ventilation and fire prevention system.

In addition, it is an object of the present invention to provide a ventilation and fire prevention system for a multi-story building, which is constructed such that the air flow normally flows from the upper portion to the lower portion of the multi-story building, .

The object of the present invention is to provide a ventilation and fire prevention system for a multi-story building, which is simple in installation and structure, easy to maintain and easy to install in an existing building.

In order to achieve the above-mentioned object, the system for preventing ventilation and fire spread of a multi-story building according to the present invention is characterized by comprising: an air passage section communicated by emergency stairs of each floor connected from the uppermost floor to the lowermost floor; It is applied to multi-storey buildings.

Specifically, the outer structure includes an outer structure through which the outside air flows through the upper side outer wall of the stratified emergency stairs of the multi-story building, And a fan motor connected to the outside engine section for forcedly introducing the outside air into the multi-story building, so that a part of the outside air is supplied downward from the upper part of the emergency stairs through the supply port, A device unit; A mounting tube portion communicating with the air suction device portion and extending into the indoor space to transfer the introduced outside air; And an air supply unit which is in communication with the installation tube and supplies the outside air, which has been transferred to the indoor space, from the upper portion of the indoor space through the supply port in the downward direction; And the air flow from the upper part to the lower part is generated in the indoor area and the flow path area of the multi-story building by the pressure of the outside air continuously flowing.

The external engine part includes a suction tube which is formed to penetrate the outer wall and has a length and protrude in the horizontal direction and is inclined at an angle downward with respect to a vertical plane of the outer wall; And an air intake net integrally formed at the end of the intake pipe.

The air suction net includes an internal net installed at the inlet and an external net formed to protrude to the outside of the intake duct and is naturally cleaned by rainwater falling to the top of the external net.

The air suction device includes a fan motor, a fan motor part having a fan motor inside and a case communicating with the outer fan part at one side; A first filter body connected to the other side of the case of the fan motor unit; And an outer housing enclosing the first filter body while shielding the first filter body from the outside, and communicating with the installation tube portion, and having a supply port formed at one side thereof.

At this time, the connection portion between the fan motor portion and the first filter body is tightened by the banding belt and is blocked to form the gap.

Preferably, the one filter body is a plurality of fine filters, and the neighboring filter and the filter are thermally adhered to each other and the formation of the gap is blocked.

The installation tube portion includes a first sound absorbing tube communicating with the air suction device portion and having a bellows shape and a second sound absorbing tube wrapping the first sound absorbing tube in a hermetically sealed state and forming a double tube.

The air supply unit includes: a connection pipe connected to and communicating with an installation tube; an outer housing having a supply port on one side; And a second filter body provided inside the outer housing; The second filter body is inserted into the connection pipe at one side thereof, and the connection portion between the connection pipe and the second filter body is tightened by the banding belt and is wrapped, thereby preventing the formation of the gap.

Preferably, the second filter body is a plurality of fine filters, and the neighboring filter and the filter are thermally adhered to each other to prevent formation of a gap.

On the other hand, the outer housing further includes a discharge grille provided in the supply port in a lattice form having a vertical blade and a horizontal blade which are rotatable.

In addition, if necessary, the indoor zone includes an auxiliary door located between the front door and the inside of the indoor zone which distinguishes from the flow passage, and has a vent at the lower portion thereof.

As described above, the system for preventing ventilation and fire spread of a multi-story building according to the present invention is configured to continuously inject fresh air from outside into each floor in a multi-story building, so that the air flow is always from top to bottom and maintains a pleasant air quality It has the effect of being able to.

In addition, as the air flows from the upper part to the lower part, harmful gas, smoke and hot flames generated in the indoor area when a fire occurs are prevented from intruding into the passageway area, so that people can safely evacuate through the emergency stairs .

In addition, it is easy to install and structure, easy maintenance, and can be easily installed in an existing building.

1 is a schematic view showing a fire occurring in a conventional multi-story building.
Fig. 2 is a view showing a smokestacking method and apparatus applied to a multi-story building according to the prior art.
3 is a schematic view showing a system for preventing ventilation and fire spread of a multi-story building according to the present invention.
FIG. 4 is a schematic view showing an embodiment to which a ventilation and fire prevention system for a multi-story building according to the present invention is applied.
5 is a view showing an embodiment of an external engine part applied to a ventilation and fire prevention system for a multi-story building according to the present invention.
6 is a view showing an embodiment of an air suction device applied to a ventilation and fire prevention system of a multi-story building according to the present invention.
7 (a) and 7 (b) are views showing an embodiment of an air supply unit applied to a ventilation and fire prevention system of a multi-story building according to the present invention.
8 is a view showing an embodiment of an auxiliary door applied to a system for preventing ventilation and fire spread of a multi-story building according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a ventilation and fire prevention system for a multi-story building according to the present invention will be described in detail with reference to the accompanying drawings.

In describing the present invention, the upper part or the upper part indicates the part having the height of the multi-story building or the direction thereof, and the lower part or the lower part indicates the opposite part or the direction thereof.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

As shown in the drawings, the ventilation and fire diffusion prevention system 1 of the multi-story building according to the present invention is constructed such that the flow of air in the conventional multi-story building (FIGS. 1 and 10) (2), the air pollutants in the upper part of the fire floor are not escaped through the emergency stairs (2) due to the air flow from the lower part to the upper part in case of fire This is to solve the problem fundamentally.

To this end, fresh air outside the building is continuously injected into the multi-story building 10 so that the flow of air inside the multi-story building A is always made from the upper part to the lower part.

At this time, fresh outside air is injected into the building through the extended external engine part 100 having an interval from the outer wall 11 of the multi-story building 10.

The conventional multi-story building 10 has an air passage area B communicated by the respective emergency escalators 2 connected from the uppermost side to the lowest floor and includes an indoor area A in which the residents of each floor are residing, .

3, the system 1 for preventing ventilation and fire spread of a multi-story building according to the present invention is applied to the multi-story building 10 and includes a main body 100, 200, and an installation tube 300 and an air supply 400.

The outside air (outdoor air) spaced apart from the multi-storey building 10 through the external engine part 100 is forcibly introduced into the multi-storey building 10 by the suction of the air suction device part 200, And a part of the air flows into the indoor space A from the upper part through the installation part 300 and the air supply part 400 so as to have a downward direction.

As described above, the air flow from the upper portion to the lower portion is generated in the indoor zone (A) and the flow passage area (B) of the multi-story building (10) by the pressure of the outside air continuously flowing.

As described above, according to the air flow formed from the upper direction to the lower direction, the toxic gas, smoke and flame generated when the fire occurs are prevented from being transferred while being shifted toward the upper direction of the multi-story building 10 and fire spread is prevented.

As a result, when a fire occurs, the evacuees living in each household can safely evacuate through the emergency stairs.

In the meantime, preferably, the ventilation and fire diffusion prevention system 1 of the multi-story building according to the present invention is formed for each floor, and a plurality of installation tube portions 300 can be dividedly formed, Of course, the supply unit 400 may be formed in the living room, the toilet, the room, and the like by the installation tube unit 300 formed by the division.

3 to 5, the external engine part 100 applied to the ventilation and fire prevention system 1 of the multi-story building will be described in more detail as follows.

The external engine part 100 is formed to protrude from the outer side of the outer wall 11 while passing through the upper side outer wall 11 of the layered emergency step 2 of the multi-

In addition, the suction port 101 is formed at the end portion, and the outside air is introduced through the suction port 101.

Preferably, the external engine unit 100 is installed so as to be spaced apart from the outer wall 11 such that toxic gases, smoke, and flames generated when a fire occurs are not introduced through the intake port 101, In consideration of the efficiency, it is preferable to protrude to a length of 1 to 2 m.

In case of less than 1m, toxic gas and smoke may flow in case of fire, and if it is more than 2m, the appearance of the building may be damaged.

Specifically, the outer engine unit 100 is formed so as to pass through the building outer wall 11 that defines the flow passage area B, and the through-hole of the outer wall formed by penetrating the building outer wall 11 is sealed Treated.

The outer engine unit 100 includes an intake pipe 110 extending through the outer wall 11 and extending in a horizontal direction and an air suction net 120 integrally formed with an end of the intake pipe 110, .

At this time, the air intake net 120 has a mesh net structure, and is composed of an inner net formed to block the intake port 101 and an outer net formed to protrude to the outside of the intake duct 110.

The external net has a four-sided mesh structure, and is cleaned naturally by rainwater infiltrating in the upward direction during rain.

Such a mesh structure has a mesh spacing of a size such that birds or insects can not enter.

5, the intake tube 110 of the outer engine unit 100 is inclined at a predetermined angle? Downward with respect to the vertical surface of the building outer wall 11 so as to prevent the outer rainwater from penetrating into the interior of the building. As shown in FIG.

3, 4 and 6, the air suction device 200 applied to the ventilation and fire prevention system 1 of the multi-story building will be described below.

The air suction device unit 200 communicates with the external engine part 100 and uses the fan motor 211 provided therein to forcibly suck the outside air outside the building outer wall 11 and inject it into the multi- Role.

A part of the introduced outside air is supplied downward from the upper part of the layered emergency step 2 through the supply port 201 so that the flow of air in the flow passage area B is formed in a downward direction from the upper part do.

The air suction device 200 is preferably horizontally connected to the outer engine part 100 and installed on the upper side of the emergency stairs 2 of the flow passage area B of each floor of the building.

The air suction device 200 includes a fan motor unit 210 having a fan motor 211 and a case 212 having one side communicated with the intake tube 110 of the external engine unit 100, And a first filter unit 220 connected to the other side of the case 212 of the fan motor unit 210.

The first filter body 220 is configured to enclose the first filter body 220 while shielding it from the outside so that the introduced outside air can be completely passed through only the first filter body 220. The first filter body 220 is configured to communicate with the installation tube portion 300, And an outer housing (230).

At this time, a supply port 201 is formed at one side of the outer housing 230 so that a part of the outside air having passed through the first filter body 220 can be introduced into the passage area B.

The outer tube 100 and the air suction device 200 are configured to be sealed by various binding members if necessary so that the introduced outside air can not escape through the gap without passing through the first filter member 220 desirable.

The connecting portion between the fan motor unit 210 and the first filter member 220 is tightened by the banding belt 202 so that the introduced outside air can pass completely through the first filter member 220, .

And a binding member such as a clamping jig 203 to further tighten the banding belt 202 to close the gap as necessary.

On the other hand, the first filter element 220 is made of a high-density filter so as to filter the introduced outside air.

Specifically, the first filter element 220 is composed of a plurality of fine filters. The adjacent filter and the filter are fusion-bonded by thermal bonding, thereby blocking formation of a gap through which the outside air passes without passing through the filter.

According to this structure, the size and shape of the first filter element 220 can be manufactured so as to correspond to the amount of air to be introduced.

If necessary, the outer housing 230 may be configured to surround the entire fan motor unit 210 and the first filter unit 220, and may be configured to prevent a gap with the outside except for the supply port 201 Treated.

3 and 4, the installation tube 300 applied to the ventilation and fire prevention system 1 of the multi-story building will be described below.

The installation tube portion 300 communicates with the outer housing 230 of the air suction device 200 and extends to the inside of the indoor space A to transfer the introduced outside air.

In addition, it is preferable that the installation tube portion 300 is formed to have a sound absorbing function by absorbing noise generated by operation of the fan motor 211 of the air suction device 200.

The installation tube portion 300 communicates with the outer housing 230 of the air suction device 200 to transfer the outside air passing through the first filter member 220.

Specifically, the installation tube portion 300 includes a first sound-absorbing tube 310 communicating with the air-intake device 200 and having a bellows shape, a second sound-absorbing tube 310 hermetically enclosed from the outside, And a sound absorbing tube (320).

According to this structure, the noise generated in the fan motor 211 of the air suction device 200 is absorbed while colliding against the corrugated inner wall of the first sound absorption pipe 310 of the bellows shape, The noise is further reduced by the second sound-absorbing tube 320 surrounding the second sound-absorbing tube 320.

The noise absorbing structure using the first sound absorbing tube 310 and the second sound absorbing tube 320 may be formed in the entire length of the installation tube portion 300. If necessary, Of course, be installed in a plurality of zones.

As described above, the outside air transferred through the installation tube portion 300 flows into the indoor space A through the following air supply portion 400.

Next, referring to FIG. 3 and FIG. 7 (a) and FIG. 7 (b), the air supply unit 400 applied to the ventilation and fire prevention system 1 of the multi-story building according to the present invention will be described.

The air supply unit 400 has a supply port 401 at one side and serves to introduce the transferred outdoor air into the living room of the indoor area A or each room or the upper part of the toilet so as to generate a flow of air downward .

To this end, the outside air communicated with the installation tube portion 300 and conveyed to the indoor space A is supplied from the upper portion of the indoor space A through the supply port 401 in the downward direction.

7 (a) and (b), the air supply unit 400 includes an outer housing 410 and a second filter 420.

The outer housing 410 has a connection pipe 411 connected to the installation tube 300 so as to be free from a gap and forms a supply port 401 at one side thereof.

The second filter body 420 is provided inside the outer housing 410. One end of the second filter body 420 is connected to the connection pipe 411 and is connected to the connection pipe 411 by a banding belt 412 So that the formation of the gap is blocked.

Accordingly, the introduced outside air can be injected into the indoor space A through the supply port 401 only after passing through the installation tube portion 300 and the second filter body 420 through the connection pipe 411.

Preferably, the second filter member 420 has the same structure as the first filter member 220 described above, and the adjacent filter and the filter are thermally adhered to each other as a plurality of fine filters.

The outer housing 410 further comprises a discharge grill 430 provided in the supply port 401 in a lattice shape having a vertical blade 431 and a horizontal blade 432 which are rotatable.

The angle of the vertical blades 431 and the horizontal blades 432 can be adjusted by an electric operation or a manual operation so that the direction of the incoming air can be adjusted according to the user's convenience.

 8, the indoor zone A includes an auxiliary door C, which is located between the front door and the inside of the indoor zone A, which is separated from the passage area B, and has a ventilation hole 510 at the lower part thereof .

The indoor zone A of the multi-storey building 10 typically has a sliding door type auxiliary door C apart from the front door so as to maintain the winter temperature. In winter, So that the cold air inflow to the floor together with the harmful substances is discharged through the vent hole 510.

Further, although not shown, a separate ventilator may be installed in the front door so that the air discharged through the ventilator 510 can be discharged to the emergency staircase.

The ventilator installed at the front door can be installed at the upper part, and in summer, the hot air at the upper side of the indoor area A can be discharged to the emergency staircase side.

Of course, such a ventilator has a damper structure so that it can not be operated when a fire occurs, and can prevent the toxic gas and smoke from flowing into the passage area B when a fire occurs.

As described above, the ventilation and fire diffusion prevention system 1 of the multi-story building according to the present invention is constructed such that external fresh air is continuously injected into each layer in the multi-story building 10, The air flow from the upper part to the lower part is generated in the indoor area A and the flow path area B of the multi-story building 10 by the pressure of the outside air.

As the air flows from the upper part to the lower part, the toxic gas, the smoke and the hot flames generated in the indoor area A can not enter into the passage area B when a fire occurs and people can safely You can evacuate.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It is not.

1: Ventilation and fire spread prevention system of multi-story building
2: Emergency stairs 10: Multi-storey building
11: outer wall 100: outer tube portion
101: intake port 110: intake pipe
120: Air suction net 200: Air suction unit
201: supply port 202: banding belt
210: fan motor unit 211: fan motor
212: Case 220: First filter element
230: outer housing 300: installation tube
310: first sound absorbing tube 320: second sound absorbing tube
400: air supply unit 401: supply port
410: outer housing 420: second filter element
430: exhaust grill 510: vent
A: Indoor area B: Euro area
C: Secondary door

Claims (11)

A ventilation and fire diffusion prevention system (10) applied to a multi-storey building (10) having an air passage section (B) communicated by the respective emergency stairs (2) connected from the uppermost floor to the lowermost floor and an indoor zone In this case,
The external engine part 100 is formed to protrude outwardly from the outside and penetrate through the upper side outer wall 11 of the layered emergency step 2 of the multi-layer building 10, )Wow;
The outer air is forcedly introduced into the multi-story building 10 by using the fan motor 211 and a part of the outside air is supplied to the upper part of the layered emergency stairs 2 through the supply port 201 An air suction device 200 installed at an upper side of the layered emergency step 2 so as to supply the air in a lower direction from the floor;
An installation tube part 300 communicating with the air suction device part 200 and extending into the indoor space A to transfer the introduced outside air;
And an air supply part 400 communicating with the installation tube part 300 and supplying the outside air transferred to the indoor space A downward from the upper part of the indoor space A through the supply port 401 ;
Characterized in that the air flow from the upper part to the lower part is generated in the indoor area (A) and the flow path area (B) of the multi-storey building (10) by the pressure of the ambient air continuously flowing. Diffusion prevention system.
The method according to claim 1,
The outer engine part (100)
An intake pipe 110 extending through the outer wall 11 and having a length and protruding in a horizontal direction and inclined at an angle? With respect to a vertical plane of the outer wall 11;
And an air intake net (120) integrally formed at an end of the intake pipe (110).
3. The method of claim 2,
The air intake net (120)
And an inner net installed in the inlet port (101) and an outer net formed to protrude out of the intake duct (110), and is naturally cleaned by rainwater falling to the upper portion of the outer net Ventilation and fire spread prevention system.
The method according to claim 1,
The air suction device (200)
A fan motor unit 210 having a fan motor 211 and a case 212 communicating with the outer engine unit 100 at one side thereof;
A first filter unit 220 connected to the other side of the case 212 of the fan motor unit 210,
And an outer housing (230) enclosing the first filter element (220) while shielding the first filter element (220) from the outside and communicating with the installation tube part (300) Ventilation and fire prevention systems for buildings.
5. The method of claim 4,
Wherein a connection portion between the fan motor unit (210) and the first filter member (220) is tightened by a banding belt (202) and is wrapped around the fan motor unit (210) to prevent formation of a gap.
5. The method of claim 4,
The first filter element 220 includes:
A system for preventing ventilation and fire spread of a multi-layered building, comprising: a plurality of fine filters, wherein neighboring filters and filters are thermally adhered to form a gap.
The method according to claim 1,
The mounting tube part (300)
A first sound absorbing pipe 310 communicating with the air suction device 200 and having a bellows shape,
And a second sound-absorbing tube (320) enclosing the first sound-absorbing tube (310) in a hermetically sealed manner and having a dual tube shape.
The method according to claim 1,
The air supply unit (400)
An outer housing 410 having a supply port 401 at one side thereof, a connection pipe 411 connected to the installation pipe 300,
And a second filter body 420 provided inside the outer housing 410;
The connection part between the connection pipe 411 and the second filter member 420 is tightened by a banding belt 412, and the second filter member 420 is connected to the connection pipe 411. [ Wherein the ventilation and fire diffusion prevention system of the multi-layer building is enclosed by the partition wall.
9. The method of claim 8,
The second filter member (420)
A system for preventing ventilation and fire spread of a multi-layered building, comprising: a plurality of fine filters, wherein neighboring filters and filters are thermally adhered to form a gap.
9. The method of claim 8,
The outer housing (410)
Further comprising a discharge grill (430) provided in the supply port (401) in a lattice shape having a vertical blade (431) and a horizontal blade (432) which are rotatable.
The method according to claim 1,
The indoor zone (A)
And an auxiliary door (C) located between the front door and the inside of the indoor area (A) which are separated from the passage area (B) and having a ventilation hole (510) at the lower part. Diffusion prevention system.

Images