KR101242179B1 - method of fire smoke control of building - Google Patents

Abstract

In high-rise buildings, there will be a smoke control area to prevent smoke and gases from being generated at the same time as the fire in the event of a fire.
In the high-rise apartment, the ventilation area is the ventilation area between the entrance door to the interior and the fire door to the evacuation stairs (emergency exit).
In this way, in the smoke zone, outside air is introduced into the air supply in case of fire, so that the air pressure in the smoke zone is higher than the air pressure in the room where the fire occurs, so that smoke and toxic gases in the fire-fired room cannot escape into the smoke zone. The apparatus (equipment) is to be provided, the conventional ventilation equipment, that is, the conventional ventilation device and the ventilation method for adjusting the air flow amount with a volume control damper in front of the blower was devised to solve the problem in consideration of the problem that can not properly utilize the equipment. .
The present invention has the following configuration.
The blower 61 is provided on the roof or basement floor, and the blower 61 is connected to the air supply duct 54 which is a vertical wind, and the air supply duct 54 and the ventilation zone 60 of each floor are provided to the air supply 62. Is connected to, the air supply has an air supply damper (55) for opening the air in case of fire to supply the outside air to the ventilation area (60),
The air supply damper 55 has a plurality of opening and closing wings 56 and a damper switch 57 for operating the opening and closing wings 56, and a damper controller 58 is provided at one side of the damper switch 57. Is connected to, the damper controller 58 has a differential pressure sensor 59 for detecting the air differential pressure of the ventilation area 60 and the room 52, the differential pressure sensor 59 is connected to the room 52 in the indoor side The air pressure detecting pipe 59-2 and the air pressure detecting pipe 59-1 connected to the ventilation area 60 are connected to each other.
The air supply damper 55 of the ventilation zone 60 when a fire is detected by a fire detection signal in case of fire by using a ventilation device composed of a fire door 63 connected to the evacuation stairs 64 on one side of the ventilation zone 60. The opening and closing wing 56 of the open) so that the air pressure of the smoke control area 60 is higher than the air pressure of the room 52 to generate a differential pressure, the smoke and toxic gas of the fire generated room (52) smoke control area (60) To escape)
When the air pressure in the ventilation area 60 reaches an air pressure higher than a certain level than the air pressure in the room, by closing the opening and closing wing 56 of the air supply damper 55 to reduce the air supply amount, The damper is installed to control the air volume in front of the blower 61 for blowing outside air to the air supply duct (54) is a plurality of automatic opening and closing wings (32) to be opened and closed by the automatic opening and closing device (31), manual opening and closing device (41) The composite damper 11 is composed of a plurality of manual opening and closing wings 42 that are opened and closed by a), while the plurality of manual opening and closing wings 42 of the composite damper 11 is kept open at a predetermined angle, The plurality of automatic opening and closing wings 32 are opened by the automatic opening and closing device 31 when the air pressure in the smoke control area 60 or the air supply duct 54 drops below a predetermined air pressure, thereby increasing the airflow amount. It is a method of smoke control.

Description

Method of fire smoke control of building

The present invention relates to a smoke control method of a high-rise building that prevents the spread of smoke or toxic gas generated in the early stage of a fire in a high-rise apartment or high-rise building.

In case of fire in high-rise buildings, it is common to suffocate the smoke and toxic gas generated with the flame before the direct damage caused by the flame.

Therefore, high-rise buildings over a certain scale are equipped with smoke-free zones where smoke does not flow in case of fire.

In the smoke control area, a smoke control device is installed to prevent smoke from escaping into the corridor or staircase in case of fire.In case of fire, the outside air flows into the smoke control area to increase the air pressure in the smoke control area. This prevents smoke from entering the room from entering the ventilation area.

In addition, the air supply of the ventilation area has a structure that can be opened automatically by the fire detection signal (smoke detector or heat detector), and the air supply is kept closed in normal times, but in the case of fire, the air supply is fully open The ventilation zone is formed to supply the outside air to the zone so as to have a predetermined constant air pressure.

Therefore, the air supply damper installed in the air supply opening is opened in case of fire to prevent the inflow of fresh air into the ventilation zone to prevent the inflow of smoke into the evacuation stairs to secure the evacuation time and evacuation space.

In the event of a fire, the air supply facility that supplies air to the ventilation area, which is all rooms, supplies air to the ventilation area through a vertical air supply duct using a blower installed on the roof or basement floor of the building. The mechanism has an air supply damper having an opening and closing wing to control the air supply.

In case of fire, blow air into the ventilation area to raise the air pressure in the ventilation area, and detect the air pressure in the ventilation area and the air pressure in the room where the fire occurred, so that the air pressure in the ventilation area is 50 pa (pascal) ± 20 than the room where the fire occurred. Supply the outside air to the ventilation area so that a differential pressure is generated within%, so that the smoke inside the fired room cannot escape to the ventilation area.

If the air pressure in the ventilation area is 50pa (Pascal) + 20% or more than 60pa (Pascal), the pressure of the ventilation area is too high to open the door. If the air pressure in the smoke control area and the room where the fire is generated is less than 50pa (Pascal) -20%, that is, 40pa (Pascal), the smoke of the fire generated indoors may escape to the smoke control area. Due to this, the air pressure in the ventilation zone is required to maintain a differential pressure within 50 Pa (Pascal) ± 20% of the air pressure in the room.

As described above, the method for detecting the air pressure in the combustion area and the fire generated by the differential pressure sensor for detecting the air pressure in the combustion area and the fire, detects the air pressure in the smoke control area and the fire generated room.

When the air differential pressure detected by the smoke control area and the differential pressure sensor that detects the air pressure in the room where the fire occurs is 50 pa (Pascal) -20% or less, or 40 Pa (Pascal) or less, open the air supply damper of the air supply. The outside air flows into the ventilation zone to increase the air pressure in the ventilation zone.If the air differential pressure in the ventilation zone and the room is more than 50pa (pascal) + 20% or more than 60pa (pascal), close the air supply damper of the air supply Reduce the air entering the zone.

As such, when the fire occurs, the outside air flows into the smoke control area so that the air pressure in the smoke control area is maintained so that the air differential pressure of 40 to 60 pa (pascals) is maintained from the room where the fire occurs.

On one side of the smoke control area has a door to the interior and a fire door connected to the emergency stairs,

The fire door is normally closed, or in case of fire is automatically closed to form a smoke zone, the door and the fire door is opened, the air out of the smoke zone, the sensor detects that the air pressure of the smoke zone is lowered In addition, the air supply is completely opened to supply outside air to the ventilation area.

As described above, the high-rise building has a smoke control system that prevents smoke from spreading throughout the building in the event of fire, while allowing a person to quickly prepare for the fire from a fire place.

The present invention provides a smoke control method for supplying the outside air at an appropriate pressure (condition) to the smoke control area inside the building in the event of fire.

In high-rise buildings, there will be a smoke control area to prevent smoke and gases from being generated at the same time as the fire in the event of a fire.

In the high-rise apartment, the ventilation area is the ventilation area between the entrance door to the interior and the fire door to the evacuation stairs (emergency exit).

In this way, the smoke is introduced into the ventilation area by supplying external air to the air supply, so that the air pressure in the ventilation area is higher than the air pressure in the room where the fire occurred, so that smoke and toxic gases in the fire-fired room cannot escape to the ventilation area. (Equipment) is provided,

The fire law requires the following conditions in the ventilation area:

In case of fire, the outside air flows into the smoke control area, so the air pressure in the smoke control area is kept higher than the room where the fire occurred, so that the smoke in the room cannot escape to the smoke control area,

1) If all doors of the ventilation area are closed, the air pressure in the ventilation area should be 50pa ± 20% (40-60pa) of the air differential than the air pressure in the room where the fire occurred.

2) In case of building with 20 floors or less, when one door is opened on one floor, or when two doors on two floors are open at the same time in a building with 20 floors or more

The air inlet should be 100% open and the air flue speed of air toward the living room door should be more than 0.7m / s.

3) When the door of one floor below 20 floors is opened or when the doors of two floors of more than 20 floors open at the same time, the outside air flowing into the ventilation area through the air supply maintains more than 0.7m / s. At the same time, there is a requirement to maintain air pressure differentials above 28 pa (70%) for non-open floor ventilation areas with the door closed.

However, it is very difficult to satisfy the above three requirements by the conventional ventilation equipment to the conventional ventilation method.

This is because, when installed in the basement of the building or on the roof, when selecting the blower capacity to blow outside air into the building through the vertical wind in case of fire, the blowing amount is selected by the formula according to the size of the building. The blower will be selected and installed.

In the performance test to verify the three requirements of the smoke control area after the completion of the building, the performance test is tested to the minimum standard, but the air blower installed in the roof or the basement of the building is sufficient, and the damper (volume damper) installed in front of the blower. It can be seen that opening only 50-60% results in inefficiency in performance testing.

If the volume of air blower installed in front of the blower is opened 100% and the air flow of the blower is introduced into the ventilation area through the vertical wind, sufficient air flow is supplied when performing the performance test of the ventilation equipment (smoke control equipment). This raises the pressure difference between the smoke control area and the room so that an overpressure of 60 Pa or more is generated so as not to meet the above requirement.

In the performance test of the first, second, and third conditions specified in the fire method, it can be seen that the barium damper installed in front of the blower performs a performance test by opening only 50 to 60% instead of 100%.

In addition, in the prior art, the volume damper installed in front of the blower is set to open and close only 50-60% instead of being set to 100% opening and closing as in the case of the performance test inspection, and thus has many re-functions in case of emergency such as a fire. There is a problem that cannot be done.

As described above, the conventional smoke control device and the smoke control method of adjusting the air flow amount with the volumetric damper in front of the air blower, that is, the blower, have been devised to solve this problem in consideration of the fact that the air flow rate cannot be utilized 100%.

Patents and utility model documents relating to the high-temperature building of the high-rise building and the smoke-removal method corresponding to the present invention can be seen as follows.

Utility Model Registration No. 20-0410035

Name of Design: Smoke Control Device

Utility Model Registration No. 20-0397886

Name of invention: Smoke Control

Patent Registration No. 10-0421805

Name of invention: Smoke control method

Patent Registration No. 10-0421806

Name of invention: Smoke control damper for air volume control

Utility Model Registration No. 20-0234237

Name of Design: Automatic Smoke Removal System of Building

Utility Model Registration No. 20-00362608

Name of invention: Smoke Control

In addition, there are the following as a pre-registered patent and utility model of the applicant's smoke control device.

Utility Model Registration No. 20-0393245

Name of invention: Smoke control device of high-rise building

Utility Model Registration No. 20-039246

Name of invention: Smoke Control

Utility Model Registration No. 20-0428319

Name of invention: Smoke detection door lock

Utility Model Registration No. 20-0268648

Name of Design: Air Supply, Exhaust Switch

Utility Model Registration No. 20-0304084

Name of the Invention: Air pressure detecting valve to detect the air pressure generated in a fire

Patent Registration No. 10-932628

Title of the Invention: Smoke Control Method in High Rise Buildings

You can see many smoke-related patents and utility models.

The present invention uses a composite damper installed at the front of the blower having a manual open and close wing to operate the damper for controlling the air flow as a manual switching device, and an automatic opening and closing wing to operate as an automatic opening and closing device, the composite damper in each floor of the building In conjunction with the air pressure change of the air supply and the opening and closing state of the air supply of the ventilation area, by opening and closing the composite damper to maintain a constant air pressure in the vertical wind,

 When the door in the ventilation area is closed, the manual opening and closing wing in the composite damper is operated when the person in the room is evacuated and the door is opened to keep the wind speed of 0.7m / s or more. It is to provide an economical method for the control of high-rise buildings using the total amount of design airflow by opening the automatic opening and closing wing.

The blower 61 is provided on the roof or basement floor, and the blower 61 is connected to the air supply duct 54 which is a vertical wind, and the air supply duct 54 and the ventilation zone 60 of each floor are provided to the air supply 62. Is connected to, the air supply has an air supply damper (55) for opening the air in case of fire to supply the outside air to the ventilation area (60),

The air supply damper 55 has a plurality of opening and closing wings 56 and a damper switch 57 for operating the opening and closing wings 56, and a damper controller 58 is provided at one side of the damper switch 57. Is connected to, the damper controller 58 has a differential pressure sensor 59 for detecting the air differential pressure of the ventilation area 60 and the room 52, the differential pressure sensor 59 is connected to the room 52 in the indoor side The air pressure detecting pipe 59-2 and the air pressure detecting pipe 59-1 connected to the ventilation area 60 are connected to each other.

The air supply damper 55 of the ventilation zone 60 when a fire is detected by a fire detection signal in case of fire by using a ventilation device composed of a fire door 63 connected to the evacuation stairs 64 on one side of the ventilation zone 60. The opening and closing wing 56 of the open) so that the air pressure of the smoke control area 60 is higher than the air pressure of the room 52 to generate a differential pressure, the smoke and toxic gas of the fire generated room (52) smoke control area (60) To escape)

When the air pressure of the ventilation area 60 reaches the air differential pressure more than a certain pressure than the indoor air pressure in the high-rise building ventilation method of closing the opening and closing wing 56 of the air supply damper 55 to reduce the air supply amount,

The damper is installed on the roof or basement floor in order to control the air volume in front of the blower 61 for blowing outside air to the air supply duct (54) is a plurality of automatic opening and closing wings (32) that are opened and closed by the automatic opening and closing device (31), and It consists of a composite damper (11) consisting of a plurality of manual opening and closing blades 42 that are opened and closed by the switchgear (41), the plurality of manual opening and closing blades 42 of the composite damper (11) in an open state at a predetermined angle. On the other hand, the plurality of automatic opening and closing wings 32 are opened by the automatic opening and closing device 31 when the air pressure in the ventilation zone 60 or the air supply duct 54 drops below the set air pressure, thereby increasing the air flow amount. It is a method of smoke control of high-rise buildings characterized in that.

In the above, in order to maintain a constant air pressure in the air supply duct 54, the automatic opening and closing device 31 in the composite damper 11 is interlocked with the air supply damper 55 when the door 53 in the smoke control area 60 is opened. The method of smoke control of high-rise buildings to increase the air flow by opening the automatic opening and closing wing (32) and

In the above, the ventilation zone 60 and the interior 52 of the ventilation zone 60 sensed by the differential pressure sensor 59 of the damper controller 58 of the air supply damper 55 installed in the air supply port 62 of the ventilation zone 60. When the air differential pressure does not reach a constant differential pressure, or when the door 53 is opened to prevent the wind velocity of the smoke-resistant wind of 0.7 m / s or more, the automatic opening / closing blade 32 of the automatic switching device 31 is supplied with an air supply damper ( 55) the ventilation method of the high-rise building to open in conjunction with the airflow increases,

When the air supply damper 55 installed in the air supply 62 of the ventilation area 60 is opened, the automatic opening and closing device 31 of the composite damper 11 is operated to open and open a plurality of automatic opening and closing wings 32. The present invention relates to a method of removing smoke in a high-rise building that increases the amount of blowing air.

This is intended to be described in detail to be easily carried out by those skilled in the art, which does not mean that the technical spirit and scope of the present invention is limited.

In the event of a fire in a high-rise building, the blower 61 installed on the roof or the basement floor of the building is operated by a fire detector signal such as a fire detector or a smoke detector, and the ventilation area of each floor of the building is provided through an air supply duct 54 which is a vertical wind. Air supply to the air supply port 62 of (60),

The air pressure of the ventilation area 60 is formed to be higher than 50 p (Pascal) ± 20% of the air pressure is generated than the air pressure of the indoor fire 52 is generated.

In addition, in case of fire the entire floor smoke control area 60 is to supply the outside air to maintain the air differential pressure within 50pa ± 20% (40 ~ 60pa) than the air pressure of the room 52,

In this case, the air supply damper 55 opening and closing wing 56 is maintained in an open state of about 10-20%.

However, in the process of evacuating a person in the room 52 to the smoke control area 60 through the door 53, the air of the smoke control area enters the room 52, and the air pressure difference between the smoke control area and the room is lower than 40pa at the moment. You lose,

The lower pressure is detected by the differential pressure sensor 59 of the damper controller 58, and the damper controller 58 drives the damper switch 57 to open and close the opening and closing wings 56 of the air supply damper 55 to de-smoke. The outside air flows into the zone 60 in the smoke control zone 60, and the smoke of the interior 52 in which the fire is generated flows into the smoke control zone by maintaining the flameproof wind speed of 0.7 m / s or more through the open door 53. In the above, the opening and closing wing 56 of the air supply damper 55 is opened in a 100% open state.

After evacuating from the indoor 52 where the fire occurred to the smoke control area 60, open the fire door 63 and evacuate to the evacuation stairs (64),

The fire door 63 is closed by the closing force of the fire door closing device (door closure) 63-1 normally attached to the fire door 63. As shown in FIG.

Thereafter, the differential pressure sensor 59 detects the air pressure in the ventilation area 60 and the damper controller 58 operates the damper switch 57 to open and close the air supply damper 55 so as to maintain the predetermined pressure within 40 to 60 pa. Repeatedly opening and closing the wing 56 while maintaining the air pressure difference between the ventilation area 60 and the room 52 within 40 ~ 60pa.

When the air pressure difference between the ventilation area 60 and the fire chamber 52 becomes more than 60pa (50pa + 20%), the outside air supplied to the ventilation area 60 is reduced to lower the air pressure of the ventilation area 60. On the contrary, when the air pressure difference between the ventilation zone 60 and the interior 52 becomes 40 pa (50pa-20%) or less, the opening and closing wing 56 of the air supply damper 55 of the air supply port 62 is opened to open the ventilation zone. Opening and closing wing 56 is opened and closed at 10-20% opening angle to increase or decrease the air flow into air, increasing or decreasing the air pressure in the ventilation area 60, so that the air differential between the ventilation area and the room is 50pa (Pascal). Maintain within ± 20%.

The smoke control device of the high-rise building protects lives in the event of a fire occurring in the bay and prevents smothering of smoke and toxic gases generated in the fire and provides time and space for evacuation.

The present invention to prevent the smoke and toxic gas generated in the fire, to prevent the inflow to the smoke control area or evacuation stairs, and thus to prevent the spread of smoke or toxic gas throughout the building to provide a reasonable method of the smoke control device. .

The present invention is a condition required by the fire method

1) If all doors of the ventilation area are closed, the air pressure in the ventilation area should be 50pa ± 20% (40-60pa) of the air differential than the air pressure in the room where the fire occurred.

2) In case of building with 20 floors or less, when one door is opened on one floor, or when two doors on two floors are open at the same time in a building with 20 floors or more

The air flowing into the ventilation area through the air supply port is the door to the room, and the wind speed should be more than 0.7m / s.

3) When the doors on one floor of a building with 20 floors or less are opened or when the doors on two floors of buildings with 20 floors or more are open at the same time, the outside air flowing into the smoke control area through the air supply to the indoor door is 0.7 m / s. At the same time, the non-open floor ventilation area with the door closed will satisfy the regulations that the air pressure will be over 28pa (70%).

It is a very useful invention that satisfies the performance test of the ventilation zone during the completion of high-rise building, and satisfies the conditions of the ventilation zone in the event of a fire of an actual building, thereby protecting valuable lives.

Figure 1 is a schematic longitudinal cross-sectional view showing a smoke control facility of a high-rise building.
2 is a front view and a side view of a composite damper used in the present invention.
3 is a cross-sectional view of a composite damper in the composite damper used in the present invention, the automatic opening and closing wing is closed and the manual opening and closing wing is opened.
4 is a cross-sectional view of a composite damper showing a state in which both the automatic opening and closing wings and the manual opening and closing wings in the composite damper used in the present invention.
5 is a cross-sectional view of the composite damper used in the present invention, wherein the automatic opening and closing wing is partially open and the manual opening and closing wing is fully open.
6 is a cross-sectional view of the high-rise building ventilation area.
7 is a schematic cross-sectional view of an air supply apparatus supplying outside air to a ventilation area in a high-rise building.
Figure 8 is a perspective view of the air supply damper and damper controller installed in front of the air supply of the ventilation area.
9 is a front view of a state of use of the air supply damper and the damper controller installed in front of the air supply port of the ventilation area.

The ventilation device (equipment) of a high-rise building, especially a high-rise apartment, has the following configuration.

An air supply damper having an opening and closing wing 56 that can be opened and closed on the air supply port 62 of the smoke control area 60 to prevent smoke from entering the fire in the entire room outside the door 53. 55 is provided, the air supply 62 is connected to the air supply duct (54) in the event of a fire blows the outside air to the blower 61 is installed on the roof or basement floor of the building to fire the air pressure of the smoke control area (60) Maintains an air pressure within 50 pa (Pascal) ± 20% higher than the air pressure of the generated room 52, the smoke and toxic gas of the fire generated room 52 is prevented from entering the smoke control area (60).

The opening and closing wings 56 of the air supply damper 55 to control the outside air to the ventilation area 60 is opened and closed by a damper switch 57, the damper switch 57 to the damper controller 58 for controlling it. The damper controller 58 has a differential pressure sensor 59 for detecting the air pressure of the interior 52 and the air pressure of the ventilation zone 60, and is operated by the differential pressure sensor 59, It will detect the air pressure.

That is, in case of fire, the open / close blade 56 of the air supply damper 55, which is normally closed by the fire detection signal, is opened by the damper switch 57 so that the air supply duct 54, which is a vertical wind, is supplied to the ventilation area ( Inflow to the 60 to increase the air pressure of the ventilation area (60).

The air flowing into the smoke control area 60 is set to generate a pressure difference of 50 Pa (Pascal) ± 20% higher than the air pressure of the fired room 52.

That is, if the air pressure of the ventilation zone 60 is 60pa (Pascal) or more than the air pressure of the room 52 is generated, the outside air introduced into the ventilation zone should be reduced, the air pressure of the ventilation zone 60 is the air pressure of the room 52 When less than 40 pa (Pascal), the opening and closing wing 56 of the air supply damper 55 is opened to blow the outside air to the ventilation area 60 to increase the air pressure of the ventilation area 60.

When the air pressure of the ventilation area 60 is 60pa or more than the air pressure of the room 52 occurs, the old people can not open the door 53 by the air pressure of the ventilation area 60, so the ventilation area 60 is indoors in case of fire It shall not rise more than 60pa above the air pressure in (52).

In addition, when a fire occurs, when a person opens the door 53 from the interior 52 and evacuates to the ventilation zone 60, the air in the ventilation zone 60 maintains a flameproof wind velocity to the interior, thereby causing smoke and Air flows into the room indoors so that no toxic gas flows into the smoke control area 60, and the room 52 in case of fire escapes the door 53 when a person evacuates to the smoke control area 60. By the ventilation area 60 is lower than the usual air pressure of 50pa (air pressure is lowered to 0pa), the opening and closing wing 56 of the air supply damper 55 is opened to the maximum (100%) Open to), to increase the amount of air supply flowing into the smoke control area (60), at this time to maintain the smoke-free wind speed 0.7m / s or more.

On the other hand, the person evacuated to the smoke zone 60 will open the fire door (63) and evacuate to the evacuation stairs (64),

When opening the fire door (63), the air in the smoke control area (60) exits through the fire door, so that the air pressure drops in the smoke control area (60). The air pressure difference with the indoor 52 where the fire to be prescribed is not made,

In the present invention, the composite damper 11 for controlling the air blowing amount in front of the blower 61 for blowing outside air by the air supply duct 54 by the automatic opening and closing device 31 when opening the door 53 of the ventilation area 60. A plurality of automatic opening and closing wings 32 are opened and the door 53 of the smoke control area 60 is closed and operated by being divided into a plurality of manual opening and closing blades 42 operated by a normal manual opening and closing device 41. The ventilation area 60 is to ensure that the air differential pressure is always within the prescribed range.

That is, the constant pressure is maintained by the air supply duct 54 through the open manual opening / closing blade 42 of the composite damper 11 that maintains the open state at an appropriate angle at any time, thereby satisfying the condition of the performance test item 1,

In the application of the performance test Nos. 2 and 3, that is, under the condition that the door 53 of the smoke control area 60 is opened, the composite damper 11 is interlocked with the air supply damper 55 and the plurality of automatic By opening and closing the wing 32 to increase the amount of air blown by 100% to maintain the wind speed flow into the open air supply damper 55 to maintain more than 0.7 m / s toward the door (53).

In addition, when the air pressure difference between the ventilation zone 60 and the interior 52 detected by the differential pressure sensor 59 of the air supply damper 55 installed in the air supply of the ventilation zone 60 does not reach a predetermined pressure or more. In addition, the automatic opening and closing device 31 of the composite damper 11 opens the plurality of automatic opening and closing wings 32 to increase the air volume, thereby increasing the air volume when the door 53 of the ventilation area 60 is opened.

When the door 53 of the ventilation area 60 is closed, the air pressure that is increased is the air supply damper 55 of the air supply 62 is closed to operate in conjunction with the composite damper 11, the air pressure of the ventilation area 60 is more than the prescribed value. It is prevented to rise to.

In addition, when the air supply damper 55 of the air supply port 62 of the smoke control area 60 of the entire floor during the fire is required a lot of air, the air supply damper 55 of the air supply 62 is the smoke control area (60). When the entrance door 53 is opened, the automatic opening and closing device 31 of the composite damper 11 opens the operating automatic opening and closing wing 32 at 100% to increase the airflow amount.

11 Combined damper 21 Air pressure sensor
31 Automatic switchgear 32 Automatic switchgear
41 Manual switchgear 42 Manual switchgear
52 Interior 53 Door
54 Air supply duct (vertical wind) 55 Air supply damper
56 Opening and closing wing 57 Damper switch
58 Damper controller 59 Differential pressure sensor
59-1 Air pressure sensor in the smoke control area 59-2 Indoor air pressure sensor
60 Smoke Area 61 Blower
62 Air Supply 63 Fire Door
63-1 Fire Door Closer 64 Evacuation Stairs

Claims (4)

The blower 61 is provided on the roof or basement floor, and the blower 61 is connected to the air supply duct 54 which is a vertical wind, and the air supply duct 54 and the ventilation zone 60 of each floor are provided to the air supply 62. Is connected to, the air supply has an air supply damper (55) for opening the air in case of fire to supply the outside air to the ventilation area (60),
The air supply damper 55 has a plurality of opening and closing wings 56 and a damper switch 57 for operating the opening and closing wings 56, and a damper controller 58 is provided at one side of the damper switch 57. Is connected to, the damper controller 58 has a differential pressure sensor 59 for detecting the air differential pressure of the ventilation area 60 and the room 52, the differential pressure sensor 59 is connected to the room 52 in the indoor side The air pressure detecting pipe 59-2 and the air pressure detecting pipe 59-1 connected to the ventilation area 60 are connected to each other.
The air supply damper 55 of the ventilation zone 60 when a fire is detected by a fire detection signal in case of fire by using a ventilation device composed of a fire door 63 connected to the evacuation stairs 64 on one side of the ventilation zone 60. The opening and closing wing 56 of the open) so that the air pressure of the smoke control area 60 is higher than the air pressure of the room 52 to generate a differential pressure, the smoke and toxic gas of the fire generated room (52) smoke control area (60) To escape)
When the air pressure of the ventilation area 60 reaches the air differential pressure more than a certain pressure than the indoor air pressure in the high-rise building ventilation method of closing the opening and closing wing 56 of the air supply damper 55 to reduce the air supply amount,
The damper is installed on the roof or basement floor in order to control the air volume in front of the blower 61 for blowing outside air to the air supply duct (54) is a plurality of automatic opening and closing wings (32) that are opened and closed by the automatic opening and closing device (31), and Consists of a composite damper (11) consisting of a plurality of manual opening and closing wings (42) to be opened and closed by the switchgear 41,
The plurality of manual open / close blades 42 of the composite damper 11 remain open at a predetermined angle, while the plurality of automatic open / close blades 32 have air pressure in the ventilation zone 60 or the air supply duct 54. When it falls below the set air pressure, it is opened by the automatic opening and closing device 31 to increase the blowing amount,
The air pressure difference between the ventilation zone 60 and the interior 52 detected by the differential pressure sensor 59 of the damper controller 58 of the air supply damper 55 installed in the air supply 62 of the ventilation zone 60 is constant. When the differential pressure cannot be reached, a plurality of automatic opening and closing blades (32) are opened by the automatic opening and closing device (31), the ventilation method of the high-rise building, characterized in that to increase the blowing amount. delete According to claim 1, wherein the automatic opening and closing device 31 of the composite damper 11 is operated when the air supply damper 55 installed in the air supply 62 of the smoke control area 60, the plurality of automatic opening and closing wings (32) to open the operation of the high-rise building, characterized in that for increasing the blowing amount. delete

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