KR20190070701A - Smoke controlling system - Google Patents

Abstract

The present invention is configured by comprising a plurality of hoistway dampers and a main blowing system. The plurality of hoistway dampers is installed in a building to make air pressure in a smoke controlling area higher than air pressure in a fire generation area and thus maintain a differential pressure by supplying, to the smoke controlling area in the building, fresh air from the outside, whose amount is more than the amount of air leaked to the outside through a gap of an entrance of the smoke controlling area in contact with an elevator. The main blowing system is installed at one side of the building to compensate for the differential pressure generation of the smoke controlling area by the hoistway dampers and additionally or independently supplies air from the outside toward the elevator hoistway and the smoke controlling area through a duct in a floor where a stack effect or turbulence is predicted. Therefore, when a pressure reduction occurs on a floor near a chimney or an air inlet of a building, the pressure reduction can be compensated for, thereby effectively enabling smoke control when there is a fire in the building and thus preventing harm to human lives.

Description

[0001] SMOKE CONTROLLING SYSTEM [0002]

The present invention relates to a ventilation system, and more particularly, to a ventilation system capable of preventing pressure loss when a pressure drop occurs in a stack of a building or a bed near the air supply device, Ventilation system.

Generally, it is used for the purpose of contributing to maintenance of public well-being and improvement of social welfare by protecting the life, body and property of the people by preventing, bordering and suppressing fire at designated places such as high-rise buildings and apartments. A damper damper that forcibly introduces air from the outside of the building into the smoothing area so as to prevent any further spread of smoke and toxic gas generated in the event of a fire to the smoothing area of the building, And is installed so as to be openable and closable by a driving motor or wind pressure.

Fig. 1 is a schematic view schematically showing a structure of a conventional ventilation system, and Fig. 2 is a plan view schematically showing the structure of a conventional ventilation system.

As shown in these drawings, in a conventional ventilation system, when a fire occurs in a high-rise building and a basement, the air supply fan 24 and the exhaust fan 25 operate according to manual operation or operation of the automatic fire detection device The fresh air sucked from the outside through the air supply fan 24 flows into the elevator hoistway 21 described above and then flows into the elevator hoistway 21 through the air supply fan 24, And the amount of air supplied to the ventilation section 20 flows out through the various gaps of the ventilation section 20. The amount of air to be supplied to the ventilation section 20 through the damper 22, And reaches the set pressure in accordance with the replenishment amount. At this time, a set pressure difference (about 50 Pascal) is generated between the indoor and the inside.

When the replenishment amount is excessive, the flap damper 27 of the smoothing method operates to open the excess amount replenishment amount to the outside, while at the same time, the air amount corresponding to the amount of leakage from the smoke- And is continuously supplied to the smokestherein region 20 through the opening 22a.

At the same time, the discharge damper 23 is opened to discharge the amount of air corresponding to the leakage amount leaking from the smoke-free zone 20 into the room and the amount of air equivalent to the replenishment amount through the discharge duct 26 to the outside, It is possible to prevent smoke or toxic gas from flowing backward into the smoke-inducing section 20 from the inside of the room.

When the amount of air supplied through the damper 22 for the hoistway and the amount of air corresponding to the replenishment amount are supplied into the room through the open door of the ventilation zone 20 when the door of the ventilation zone 20 is opened, 27 are closed to increase the pressure in the ventilation zone 20, so that it is possible to prevent smoke or toxic gas from entering the ventilation zone 20 due to the door opening of the ventilation zone 20.

On the other hand, when the door of the ventilation zone 20 is closed again, the exhaust duct 26 is disposed at one side of the ventilation zone 20 so as to prevent overpressure from being formed in the ventilation zone 20 while maintaining the set pressure in the ventilation zone 20. [ The flap damper 28 installed in the exhaust duct 26 is opened so that the amount of air above the set pressure is discharged to the discharge duct 26 through the flap damper 28, It becomes possible to close without difficulty.

At this time, since the system flap damper 27 is opened when the amount of air supplied to the smoke-inducing section 20 exceeds the set pressure, only the leakage amount is continuously supplied to the smoke-inducing section 20, And discharges the replenishment amount to the atmosphere through the system flap damper 27 except for the leakage amount supplied to the ventilation section 20. [

When the fire is extinguished and the driving of the ventilation method is manually stopped in the central management room of the high-rise building and the basement, the driving of the air supply fan 24 and the exhaust fan 25 is stopped, and the damper 22 for the hoistway described above is stopped. And the discharge damper 23 return to the initial position and are closed.

However, in such a conventional ventilation system, since there is no separate means for compensating for the pressure drop in the stack near the stack and the air supply mechanism, it is possible to prevent the harmful gas- There is a problem that the safety of the entire resident living in the residence can not be guaranteed.

It is an object of the present invention, which has been made in view of the above, to compensate pressure drop when a pressure drop due to turbulence occurs in a stack of buildings or near a supply mechanism, And to provide a ventilation system that can prevent the ventilation system.

According to an aspect of the present invention, there is provided a ventilation system for a building, the ventilation system comprising: A damper for a hoistway installed in a hoistway of the building so that a pressure inside the ventilation zone is higher than a pressure of the fire-generating zone to maintain a differential pressure; And a control unit for controlling the air conditioner and the air conditioner so that the air conditioner damper is installed at one side of the building so as to compensate for the differential pressure formed in the ventilation duct by the damper for the hoistway, A main air blowing system for supplying air to the space side; .

The main blowing system includes a main blowing air supply fan installed at one side of the building for introducing outside air into the inside of the building, and a main air blowing fan having one end communicated with the main blowing air supply fan and the other end communicating with the elevating hoistway and the smoke- And an air supply damper installed at an end of the branch pipe branched from the duct communicated with the ventilation zone. The air supply damper may be installed at an end portion of the duct communicated with the elevator hoistway.

The damper for the hoistway is installed in the ventilation zone of the building front layer, and the duct damper of the main ventilation system can be additionally or independently installed in the ventilation zone connected to the layer in which the pressure unevenness is expected.

Further, the damper for the hoistway may be installed in the ventilation zone of a part of the building, and the duct damper of the main ventilation system may be installed in the ventilation zone of the layer where the damper for the hoistway is not installed.

In addition, the damper for the hoistway is installed in a layer other than the ventilation zone where a differential pressure unevenness is expected due to a layer supplied to the elevator hoistway of the building or a stacking phenomenon, and the duct damper of the main ventilation system The duct may be installed in the ventilation zone of the specific floor, and further, the duct may be connected to the elevator hoistway to supply the outside air.

The duct connected to the elevator hoistway and the feeder installed at an end of the duct may be installed so as not to interfere with an elevator, a rope and an electric cable installed in the elevator hoistway.

In addition, an air supply fan may be further installed on a side of the building to allow fresh air to flow into the elevator hoistway when a fire occurs in the building.

As described above, the smoke-inducing system according to the present invention can effectively prevent the pressure drop when a pressure drop occurs in a stack of buildings or in a layer near a supply system, There is an effect.

1 is a schematic view schematically showing the structure of a conventional ventilation system,
2 is a plan view schematically showing the structure of a conventional ventilation system,
3 is a schematic view schematically showing the structure of a ventilation system according to the first embodiment of the present invention,
4 is a schematic view schematically showing the structure of a ventilation system according to a second embodiment of the present invention,
5 is a schematic view schematically showing the structure of a ventilation system according to a third embodiment of the present invention.

Hereinafter, a ventilation system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 3 is a schematic view schematically showing a structure of a ventilation system according to a first embodiment of the present invention, Fig. 4 is a schematic view schematically showing the structure of a ventilation system according to a second embodiment of the present invention, Fig. 5 Is a schematic view schematically showing the structure of a ventilation system according to a third embodiment of the present invention.

As shown in these drawings, the ventilation system according to the embodiment of the present invention is selectively installed on one side of the building so that fresh air outside the building 1 can be introduced into the elevator hoistway 2 An air supply fan 100; (3) provided in the elevator hoistway (2) to supply the fresh air to the building (3) in an amount larger than the amount leaked to the outside through the entrance door opening of the ventilation area, A plurality of damper (200) for a hoistway installed on the building (1) so that a pressure is formed higher than a pressure of a fire generating zone to maintain a differential pressure; (1) is installed at one side of the building (1) so as to compensate for the differential pressure build-up of the smoke generating zone (3) by the damper (200) for a hoistway, Or the main blowing system 300 for supplying the air to the elevator hoistway 2 and the side of the ventilation zone 3 independently.

The selectively installed air supply fan 100 is installed at one side of the building 1 and serves to introduce the outside air into the interior of the building. The air supply fan 100 can be used as a passage through which the introduced air moves, The air supply fan 100 is preferably installed so as to communicate with one side of the lower portion of the elevator hoistway 2, but it may be installed in a layer where the installation conditions are convenient.

The damper 200 for a hoistway may be installed only on a part of a building other than the ventilation zone 3 where a differential pressure unevenness is expected due to a layer supplied to the elevator hoistway 2 of the building or a stacking phenomenon, And the position where the damper 200 for the hoistway is installed can be installed in the boundary region between the hoistway lift 2 and the ventilation zone 3. [

Therefore, fresh air blown by the main blowing system 300 and the blower 100 selectively installed can be supplied to the passenger compartment damper 200 and the duct damper 340 when a fire occurs in a specific layer of the building 1, So that the pressure of the smoke-free zone 3 forms a pressure higher than the fire point, so that the differential pressure can be maintained.

The smoke-free zone (3) is a space where occupants of the building evacuate or enter the fire brigade when the fire occurs. In such a smoke-free zone (3), smoke or toxic gases By maintaining the pressure in the ventilation zone (3) higher than the point, it is possible to prevent smoke and noxious gas from entering the building so that occupants can escape safely from the fire point.

 The main blowing system 300 is connected to the combustion chamber 3 through the damper 200 for the hoistway and the damper 340 for the duct in the ventilation zone 3 in which the relatively higher pressure than the fire point must be maintained, Thereby making it possible to form a differential pressure.

This is because the pressure in the elevator hoistway 2 is substantially the same as the antechamber but the pressure in the duct 320 maintains a higher pressure than the antechamber so that it can be more advantageously applied to the formation of the differential pressure of the antechamber.

The main blowing system 300 includes a main blowing air supply fan 310 installed at one side of the building for introducing outside air into the interior of the building, a main air blowing fan 310 connected at one end to the main blowing air supply fan 310, A duct 320 installed to communicate with the duct 3 and the duct 320 connected to the elevator hoistway 2 and a duct 330 connected to the duct 3, And a duct damper 340 installed at an end of the branched branch pipe connected to the duct 320. The selectively installed supply fan 100 can be excluded and the main blowing system 300 ) May be installed on the lowest, middle, or top floor of a building, depending on the installation location.

One end of the duct 320 is connected to the main air blowing and supplying fan 310 and is a passage through which the outside air introduced by the main blowing and supplying fan 310 passes and is connected to the main blowing and supplying fan 310 at one end And the other end branched and branched so as to communicate with the ventilation zone 3, and the other branched end thereof is communicated with the elevator hoistway 2.

The air supply mechanism 330 is opened at the other branched end of the duct 320 communicated with the elevator hoistway 2 to introduce external air into the elevator hoistway 2 and is installed in the elevator hoistway 2 Air can be introduced into the smoke-inducing section 3 through the damper 200 for the hoistway.

The duct damper 340 is provided at the other branched end of the duct 320 communicating with the ventilation section 3 and is installed at one side of the inside of the ventilation section 3 to open and close the duct damper 340, 2 to the outside of the combustion chamber 3 directly.

The main blowing system 300 having the above-described configuration is provided to have three types as shown in FIGS. 3 to 5.

3, in the case of the ventilation system according to the first embodiment of the present invention, the damper 200 for the hoistway is installed in the ventilation zone 3 of the entire building 1, the main ventilation system 300, The duct damper 340 of the duct damper 340 is installed in the duct 3 where the differential pressure by the damper 200 for the hoistway is not formed so that the duct damper 340 and the air supply fan 310 are provided by the duct 320, As shown in FIG.

An end of the duct 320 is branched and connected to the elevator hoistway 2 and an air supply mechanism 330 is installed at the end of the branched duct 320 to be connected to the hoistway 2 using the air supply fan 310 So that external air can be introduced.

The ventilation system having such a configuration is a type in which a duct for the main blowing system 300 is separately provided in the lower layer of the building or the lower layer of the outer shell in which a negative pressure is likely to be caused by the stack, The duct damper 340 can be separately installed in only a part of the building in a state where the damper for the hoistway is maintained as it is and the differential pressure can be formed in the ventilation zone 3 of the performance unbalance expected layer, .

4, in the case of the ventilation system according to the second embodiment of the present invention, the damper 200 for the hoistway is installed so as to be in contact with the ventilation zone 3 of a part of the building 1, The damper 340 for the duct of the hoistway 300 is installed in the ventilation zone 3 of the layer where the damper 200 for the hoistway is not installed.

An end of the duct 320 is branched and connected to the elevator hoistway 2 and an air supply mechanism 330 is installed at the end of the branched duct 320 to be connected to the hoistway 2 using the air supply fan 310 So that external air can be introduced.

In the ventilation system having such a configuration, the main blowing system 300 can be selectively installed by selectively selecting only the floor of the building where the pressure difference is not formed, so that the time and cost required for the construction can be saved.

In addition, since the damper 200 for the hoistway is not installed in the layer in which the differential pressure is not formed at the time of construction of the building, the construction of the building can be performed quickly.

5, in the case of the ventilation system according to the third embodiment of the present invention, the damper 200 for the hoistway is installed in the intermediate layer and the high-pressure ventilation section 3 excluding the specific layer of the building 1 , The duct damper 340 of the main ventilation system 300 is installed in the smoke-free zone 3 of a specific layer of the building.

A duct 320 is installed on the roof of the building 1 and is provided with a separate main air supply fan 310 and a supply mechanism 330 at an end thereof to connect the elevator hoistway 2 with the duct 320, And the blower installed on the roof can be installed selectively according to the size of the building.

The duct 320 connected to the elevator hoistway 2 and the feeder 330 installed at the end of the duct 320 are installed so as not to interfere with the elevator, .

In the ventilation system having such a configuration, it is generally assumed that a low pressure such as a specific floor or a basement of a building is not formed in the ventilation zone 3 due to the stack, and a separate damper for a hoistway 200 are not installed, but the main air blowing system 300 is installed.

The following is a description of the process of ventilation during a fire in a building using the ventilation system according to the present invention.

The main blower fan 310 of the main blower system 300 is driven and the air is blown through the duct 320 into the air blowing zone 300 through the duct 320. In the case where the pressure difference is not formed in the specific ventilation zone 3 due to external factors such as churning phenomenon or turbulence, 3), so that a differential pressure is formed in all the smoke-free zones (3) provided in all layers of the building.

When a differential pressure is formed in the smoke-free zone 3, the smoke-free zone 3 completely prevents harmful gases and smoke from entering the smoke-free zone and safely evacuates the occupant through the smoke-free zone 3 to the outside of the building .

Here, the main blowing system 300 can uniformly form the differential pressure by the fire signal.

In this case, the main blowing system 300 is operated when a fire occurs, thereby maintaining the differential pressure of the smoke-free zone 1, so that the main ventilation system 300 can reliably perform the smoke-free operation in the smoke-free zone 3. [

In addition, because there is no need for a granular duct, a static pressure loss is less in resistance than a system in which ducts are installed in all layers, and energy can be saved by using less energy.

In the case of a building provided with a supply fan 100 on one side of the building, external air is introduced into the elevator hoistway 2 by an air supply fan 100 communicating with the elevator hoistway 2, The air is introduced into the smoke-inducing section 3 by the damper 200 for the hoistway provided between the elevator hoistway 2 and the smoke-inducing section 3 so that the pressure inside the smoke-growing section 3 is higher than the pressure at the point of fire- So that the harmful gas and smoke generated at the point of occurrence of the fire can be surely prevented from entering the inside of the ventilation area 3, which is a passage through which the occupant of the building evacuates in case of fire, To be evacuated.

 The smoke-inducing system according to the present invention having the above-described structure complements the pressure drop when a pressure drop occurs in a stack near a building or a supply system, thereby effectively preventing smoke from occurring in a building fire, .

While the present invention has been shown and described with reference to certain exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. There is no saying.

1: building 2: elevator hoistway
3: Smoke zone 100: Supply fan
200: damper for hoistway 300: main blowing system
310: Main blowing air supply fan 310: Duct
330: Feed mechanism 340: Duct damper

Claims (5)

The external fresh air in an amount larger than the amount leaked to the outside through the entrance door opening of the ventilation area in contact with the elevator hoistway 2 is supplied to the ventilation area 3 of the building using the main ventilation system 300, A plurality of hoistway damper (200) installed in the building (1) so that the pressure inside the ventilation zone (3) is higher than the pressure of the fireresistance zone, so that the pressure difference can be maintained;
The air is supplied to the elevator shaft 200 through the duct of the layer which is installed on one side of the building 1 and is expected to be piled up or turbulent so as to compensate for the differential pressure build- A duct damper 340 for directly supplying the air to the ventilation zone 3 without passing through the duct 3;
And the ventilation system. The method according to claim 1,
The main blowing system 300 includes a main blowing air supply fan 310 installed at one side of the building for introducing outside air into the inside of the building and a main air blowing fan 310 having one end communicated with the main blowing air supply fan 310, A duct 320 installed to communicate with the hoistway 2 and the ventilation zone 3; a feed mechanism 330 installed at an end of the duct 320 communicated with the elevator hoistway 2; And a duct damper (340) installed at an end of the branch pipe branched from the duct (320) communicated with the zone (3). 3. The method of claim 2,
The duct damper (200) of the elevator shaft is installed in the ventilation zone (3) of the entire building (1), and the duct damper (340) of the main ventilation system (300) Is further provided in the ventilation zone (3). 3. The method of claim 2,
The duct damper 200 of the elevator shaft 200 is installed in a part of the building 1 in the ventilation zone 3 and the duct damper 340 of the main air supply system 300 is connected to the damper 200 of the hoistway Is installed in said ventilation zone (3) of the unsettled layer. 3. The method of claim 2,
The damper for a hoistway 200 is installed in a layer other than the smoke-blowing zone 3 where a differential pressure unevenness is expected due to a layer supplied to the elevator hoistway 2 of the building or a stacking phenomenon, The duct damper 340 of the building 1 is installed in the smoke generating section 3 of a specific layer of the building and the main air blowing fan 310 is provided on the roof of the building 1, Wherein the duct (320) provided with the duct (330) is installed and the duct (320) communicates with the elevator hoistway (2) to supply outside air.

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