KR101529463B1 - Metod of fire smoke control and apparatus of smoke-proof of building - Google Patents

Abstract

The present invention relates to a high-rise building ventilation method and a high-rise building ventilation system which prevent smoke or toxic gas generated at the beginning of a fire from spreading throughout a building in a high-rise apartment or high-rise building.
An air blower 10 is installed on a roof or a basement and an outside air is introduced into an air supply damper 40 installed on a supply mechanism of each floor smoke generating area 50 of a building through a supply duct 11 which is a vertical air flow, The air supply damper 40 is provided with an air supply damper switch 42 for opening and closing the air supply damper opening and closing vane 22 and an air supply damper switch 42 for controlling the air supply damper switch 42, And an air supply damper controller 41 having an air pressure sensor 41-1 for detecting an air pressure difference and an air supply damper switch 42 for opening and closing the air supply damper opening and closing vane 22 by the air supply damper controller 41 The air supply damper 40 is opened to vent the outside air to the ventilation section 50 so that the air pressure in the ventilation section 50 is raised during the fire so that the smoke of the room 60 in which the fire is generated does not flow into the ventilation section 50 (50) to increase the air pressure in the high-rise building hurry,
An air volume increasing / decreasing damper 20 installed in front of the air blower 10 for controlling the air volume of the blower and an automatic opening / closing valve 22 for opening / closing the air volume increase / decrease damper opening and closing vane 22 outside the frame 21 of the air volume increasing / And the automatic switch 30 is connected to an air supply damper controller 41 for detecting a change in the air pressure in the ventilation section 50 so that the air pressure sensor 41-1 of the air supply damper controller 41 The automatic switch 30 of the air volume increase / decrease damper 20 operates to open and close the air volume increase / decrease damper opening and closing vane 22 to open the air blower 10 ) Of the high-rise building to increase or decrease the blowing amount of the high-
The air conditioner has an air volume increasing / decreasing damper (20) for controlling the air blowing amount in front of the blower (10) and has an automatic switch (30) outside the frame (21) of the air volume increasing / decreasing damper The automatic switch 30 connected to the shaft of the air flow increasing and decreasing damper opening and closing vane 22 inside the air flow increasing and decreasing damper 20 and operating the air flow increasing and decreasing damper opening and closing vane 22 of the air flow increasing and decreasing damper 20, And the air pressure difference between the smoke-inducing zone 50 and the room 60 set in the air-supply damper controller 41 is out of the set differential pressure range of the air-conditioner damper controller 40 installed in the air- In which the automatic switch 30 on the outside of the frame 21 of the air volume increase / decrease damper 20 is operated to increase or decrease the blowing amount of the blower 10.
It is an object of the present invention to provide a rational high-rise building smoke-inducing device and a smoke-inducing method that prevent smoke from entering the smoke-inducing area during a fire, thereby preventing smoke or toxic gas from spreading throughout the building
The present invention relates to a method of controlling a smoke-free zone,
1) The air pressure in the ventilation area maintains the air pressure difference of 50pa ± 20% (40-60pa) than the air pressure in the room where the fire occurred,
2) In the case of a building of 20 stories or less If the door of one floor is opened or the building of 20 stories or more is opened at the same time, the air which flows into the smoking area through the air supply mechanism is opened to the room door The wind speed is maintained at 0.7m / s or more,
3) When the doors of one floor of 20 stories or less are opened, or when the doors of two floors of 20 or more floors are opened simultaneously, the outside air that flows into the smoking area through the air supply device is opened to the indoor door at a wind speed of 0.7m / s And the ventilation area of the non-open layer in the state where the door is closed satisfies the provision that the air pressure difference of 28pa (70%) or more will be maintained,
It is a very useful invention to protect the valuable life by blocking the smoke and toxic gas flowing into the smelting area when the actual building fire occurs.

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a method of controlling a high-

The present invention relates to a high-rise building ventilation method and a high-rise building ventilation system which prevent smoke or toxic gas generated at the beginning of a fire from spreading throughout a building in a high-rise apartment or high-rise building.

In case of a high-rise building fire, personal injury is usually suffocated by smoke and toxic gas generated with flame prior to direct damage by flame.

Therefore, the high-rise building over a certain size is provided with a ventilation zone where no smoke is introduced during the fire, and the ventilation zone causes the air pressure in the ventilation zone to rise by introducing outside air in the event of a fire, And the smoke in the room generated during the fire escapes into the hallway or the stairway to prevent the whole building from spreading, thus providing a safe space for people to prepare in case of a fire.

In the high-rise apartment, the space between the elevator doors and the doors to the interior serves as a smoke-free zone during the fire, and fire doors leading to the emergency stairway are provided in the smoke-free zone and supply ducts And an air supply mechanism for introducing the outside air into the smoothing area.

The supply mechanism of the smokestack area maintains a closed state at normal times but has a supply damper that is automatically opened by a fire detection signal (smoke detector or heat detector) to introduce outside air into the smokestherein.

The outside air flowing into the smelting zone through the air supply damper raises the air pressure in the smelting zone so that the smoke and toxic gas in the room where the fire has occurred can not be introduced into the smelting zone and the smoke is prevented from spreading throughout the building.

In the case of a fire, a blower installed on a roof or a basement of the building blows outside air through the air supply duct, which is a vertical wind direction, to the smoke supply section supply mechanism. The air supply damper of the smoke supply section installed on the supply mechanism has a plurality of open / And the air pressure difference between the room where the fire occurs and the opening / closing operation of the air conditioner.

The air supply damper has an air supply damper switch for operating the opening and closing wings, and an air supply damper controller for detecting the air pressure in the room where the air pressure in the smoke exhausting area and the room where the fire occurs and the air supply damper switch.

In the event of a fire, the outside air flowing from the blower by the fire detection signal flows into the ventilation zone to raise the air pressure in the ventilation zone. When the air pressure in the ventilation zone reaches the set air pressure, the air supply damper is closed by the air supply damper controller, And if the air pressure in the ventilation zone does not reach the preset air pressure, the air supply damper is opened to introduce the outside air.

The air supply damper controller senses the air pressure in the smoke-generating zone and the air pressure in the room where the fire occurred, and opens the air-supply damper so that the air pressure in the smoke-generating zone produces a differential pressure within 50 Pa (Pascal) ± 20% Air is supplied to the smelting area to set the air pressure in the smoking area so that the smoke in the room where the fire occurred can not escape to the smelting area.

If the pressure of the air in the ventilation area is higher than the air pressure of the room where the fire occurred, the differential pressure of 50pa (Pascal) + 20%, that is 60pa (Pascal) or more is generated. Because the air pressure in the ventilation area is too high, it is difficult to open the door. If the air pressure difference between the ventilation area and the room where the fire occurred is less than 50pa (Pascal) -20%, that is, 40pa (Pascal), the smoke in the room may escape to the ventilation area. , The air pressure in the ventilation zone is required to maintain a differential pressure within 50% (Pascal) ± 20% of the air pressure in the room where the fire occurred.

Usually, the air damper controller of the air supply damper has an air pressure sensor (differential pressure sensor) for detecting the air pressure in the smoke generating zone and the room where the fire occurred, and the air pressure difference between the smoke detection zone and the room detected by the air pressure sensor is 50 Pa The air supply damper switch is operated to open the opening and closing wings of the air supply damper to introduce the air outside the room into the smoking space to increase the air pressure in the smoking compartment, If the air pressure differential is greater than or equal to 50 Pa (Pascal) + 20% or more, that is, 60 Pa (pascal) or more, the air damper switch closes the air supply damper opening and closing blades to reduce the air flowing into the smelting zone, thereby lowering the air pressure in the smelting zone.

As described above, the smoke-inducing zone in the fire has a ventilation device for introducing the outside air to keep the air pressure in the ventilation zone at 40 to 60 Pa (pascal) higher than that in the room where the fire occurred.

As described above, the high-rise building is provided with a ventilation facility (apparatus) capable of preventing the smoke from spreading to the entire building during a fire, And a smoke inducing device for a high-rise building.

In a high-rise building, it has a smoke-free zone that prevents smoke and gas that are generated at the same time as a fire from entering the escape stairway during a fire.

In a high-rise apartment, the smoke-free area corresponds to the entire room between the door to the room and the fire door leading to the escape stair (emergency exit)

In this way, the outside air is introduced into the ventilation area by the air supply device in case of fire, so that the air pressure in the ventilation area is higher than the air pressure in the room where the fire has occurred so as to prevent smoke and toxic gas from escaping into the smoke- (Facilities)

According to the Fire Service Act, the smoke area requires the following conditions.

When the fire occurs, the outside air flows into the ventilation zone to keep the air pressure in the ventilation zone higher than the room where the fire has occurred, so that the smoke in the room can not escape to the ventilation zone,

1) If all the doors of the ventilation area are closed, the air pressure in the ventilation area shall be maintained at 50 Pa ± 20% (40-60 Pa) of the air pressure of the room where the fire occurred.

2) In the case of a building of less than 20 stories If the door of one floor is opened or the building of 20 stories or more is opened at the same time, when the doors of two floors are opened at the same time, the air supply mechanism is opened 100% Wind speed should be more than 0.7m / s.

3) When the doors of one floor of 20 stories or less are opened or the doors of 2 floors of 20 or more floors are opened at the same time, the outside air flowing into the ventilation area through the air supply equipment maintains more than 0.7m / s, At the same time, keep air pressure above 28 pa (70%) in the ventilation zone of the unopened floor with the door closed.

.

However, it is very difficult to satisfy the above-mentioned three requirements in the conventional ventilation system or the conventional ventilation system.

This is because, when the capacity of a blower installed in a building or on the roof of the building and blowing outside air through a supply duct of a vertical airflow in a building is selected by a calculation formula according to the size of the building, After the completion of the building, performance tests are carried out in performance tests to verify the three requirements of the above-mentioned smokestack area.

Generally, the blower installed on the roof or underground of a building has a sufficient amount of blowing air, so a damper (volume damper) is installed in front of the blower to reduce the blowing amount of the blower.

The volume damper installed in front of the conventional blower reduces the blowing amount of the blower by opening 50-60% of the opening and closing blades, so that the blowing capacity of 40-50% of the blower can not be used, have.

In spite of the energy waste of the blower, the use of a large blower sets the blower in consideration of the structure of the building, the size of the building, the leakage of air during blowing, and so the blower has excess capacity.

If the damper installed at the front of the blower is set to 100% open, the blowing amount is too large, so that the pressure difference between the blowing area and the room is over 60 Pa.

Therefore, conventionally, a volume damper is installed in front of the blower, and the opening angle of the opening / closing blade of the volume damper is opened by only 50-60% to set the blowing amount of the blower to satisfy the condition 1 of the smoke- do.

Conventionally, a damper (V / D: Volume Damper) installed in front of a blower installed on the roof of a high-rise building or on the roof of a building has a plurality of opening / closing blades inside a square frame, A damper having a manual handle on the outside of the rectangular frame for fixing the opening angle of the adjusted opening / closing wing so as not to be changed.

Accordingly, the ventilation system for controlling the blowing amount of the blower with the conventional volume damper has a disadvantage of always blowing only a constant blowing amount according to the opening angle of the opening and closing blades of the volume damper set, even though the capacity of the blower is sufficient.

In spite of these problems, the opening angle (50-60% opening) of the volume damper is set in accordance with the design standard of the design standard of the smokestherebye prescribed in the Fire Service Act when the performance of the smoke damper is checked. 2, and 3, it can be seen that performance test is performed by controlling the opening angle of the air supply duct.

As described above, the volume damper installed in front of the conventional blower and controlling the blowing amount has a problem in that it can not be controlled in accordance with the change of the air pressure in the ventilation zone.

Conventionally, the volume damper installed in front of the blower is set to open only 50-60% without setting the opening angle of the opening / closing blade to be 100% open / closed as in the performance test inspection, Only a constant volume of air is blown at all times.

The present invention has been made in view of the fact that the conventional ventilation equipment, that is, the volume damper installed in front of the blower, can not adjust the blowing amount and can not utilize 100% of the blowing amount of the blower.

The patent and utility model documents related to the smoke inducing apparatus and the smoke inducing method of a high-rise building according to the present invention are as follows. Utility Model Registration No. 20-0410035 (Name of Design: Smoke Control Device) Utility model registration No. 20-0397886 (name of design: smoke induction device) Patent Registration No. 10-0421805 (title of the invention: smoke inducing method) Patent Registration No. 10-0421806 (entitled "Smoke Damper for Controlling Air Volume") Registration No. 20-0234237 (Name of Design: Automatic Smoke Detector for Building) Utility Model Registration No. 20-00362608 (name of design: smoke induction device) In addition, there are the following as the registered patent and the utility model by the present inventor. Registered Utility Model No. 20-0393245 (Name of design: Smoke-inducing device of high-rise buildings) Utility Model Registration No. 20-039246 (name of design: smoke induction device) Utility Model Registration No. 20-0428319 (Name of Design: Smoke Detection Door) Registered utility model No. 20-0268648 (Name of design: air class, exhaust vent opening / closing device) Utility model registration No. 20-0304084 (design name: air pressure sensing valve for detecting air pressure generated in the event of fire) Patent Registration No. 10-932628 (title of the invention: a method for smoothing high-rise buildings) Patent No. 10-1102928 (title of invention: compound damper) And patent registration No. 10-1242179 (title of invention: high-rise building smoke-inducing method).

In accordance with the present invention, in response to a change in various air pressures generated in a smoke generating zone during a fire, an air pressure difference between a smoke inducing zone and a room in which a fire occurs is formed within a predetermined range so that smoke or toxic gas, / RTI >

It is designed to prevent the spread of smoke to other places through the ventilation area, to realize a reliable ventilation area and to protect valuable people from smoke and toxic gas generated in the fire.

The present invention relates to an air blowing device installed in a roof or a basement of a building for blowing outside air to each floor smokestacking zone of a building in the event of a fire, the opening / closing blade of a damper for controlling the air blowing amount installed in front of the blower, The damper is automatically configured to operate automatically according to the change in air pressure in the ventilation area is controlled automatically, so that the air pressure in the ventilation area satisfies the requirements of the ventilation area specified by the Fire Service Act, It was developed for the purpose of implementing a zone.

An air blower 10 is installed on a roof or a basement and an outside air is introduced into an air supply damper 40 installed on a supply mechanism of each floor smoke generating area 50 of a building through a supply duct 11 which is a vertical air flow, The air supply damper 40 is provided with an air supply damper switch 42 for opening and closing the air supply damper opening and closing vane 22 and an air supply damper switch 42 for controlling the air supply damper switch 42, And an air supply damper controller 41 having an air pressure sensor 41-1 for detecting an air pressure difference between the air supply damper switch 41 and the air supply damper switch 41. The air supply damper controller 41 controls the air supply damper switch 42 to open and close the air supply damper opening / The air supply damper 40 is opened to vent the outside air to the ventilation section 50 to increase the air pressure in the ventilation section 50 during the fire so that the smoke of the room 60 in which the fire has occurred is introduced into the ventilation section 50 , The air pressure in the ventilation zone (50) is increased,

An air volume increasing / decreasing damper 20 for controlling the air volume of the blower in front of the blower 10 and an automatic opening / closing valve 22 for opening / closing the air volume increase / decrease damper opening / closing blade 22 on the outside of the frame 21 of the air volume increase / decrease damper 20 The automatic switch 30 is connected to an air supply damper controller 41 for detecting a change in the air pressure in the ventilation zone 50 so that the air pressure sensor 41-1 of the air supply damper controller 41 is connected to the air- The automatic switch 30 of the air volume increase / decrease damper 20 operates to open and close the air volume increase / decrease damper opening and closing vane 22 to open the air blower 10, In which the amount of wind blowing in the high-rise building is controlled.

In the above,

The air supply damper 40 for introducing the outside air into the ventilation section 50 through the air supply duct 11 which is a vertical airflow is provided with an opening detection for detecting when the air supply damper opening / closing blade 43 of the air supply damper 40 is fully opened The open sensing switch 45 is connected to the automatic switch 30 for opening and closing the air flow increasing and decreasing damper opening and closing vane 22 of the air flow increasing and decreasing damper 20, The automatic switch 30 of the air flow increasing and decreasing damper 20 installed in front of the blower 10 operates to open the air flow increasing and decreasing damper opening and closing vane 22 of the air flow increasing and decreasing damper 20, (10) A method of ventilating a high-rise building to increase the amount of wind blowing.

In the above,

An air supply duct air pressure sensor 12 for detecting the air pressure of the outside air and the air pressure in the air supply duct 11 is installed inside the air supply duct 11 having a vertical air flow rate of 10M or more from the air blower 10 installed in the ground, The air volume increase / decrease controller 23 is connected to the air volume increase / decrease damper 20 installed in front of the blower 10 and controls the air volume increase / decrease controller 23 The air volume increase / decrease controller 23 operates the automatic switch 30 of the air volume increasing / decreasing damper 20 to open and close the air volume increase / decrease opening / closing wings 22 to open the blower 10 In the case of a high-rise building.

The high-rise building ventilation system of the present invention for implementing the above-described high-rise building ventilation method is as follows.

An air blower 10 is installed on a roof or a basement and an outside air is introduced into an air supply damper 40 installed on a supply mechanism of each floor smoke generating area 50 of a building through a supply duct 11 which is a vertical air flow, The air supply damper 40 is provided with an air supply damper switch 42 for opening and closing the air supply damper opening and closing vane 22 and an air supply damper switch 42 for controlling the air supply damper switch 42, And an air supply damper controller 41 having an air pressure sensor 41-1 for detecting an air pressure difference and an air supply damper switch 42 for opening and closing the air supply damper opening and closing vane 22 by the air supply damper controller 41 The air supply damper 40 is opened to vent the outside air to the ventilation section 50 so that the air pressure in the ventilation section 50 is raised during the fire so that the smoke of the room 60 in which the fire is generated does not flow into the ventilation section 50 In a high-rise building smoke-increasing device for increasing the air pressure in the smoke-inducing section (50)

The air conditioner according to any one of claims 1 to 3, further comprising an air flow rate increasing / decreasing damper (20) for controlling the amount of blowing air in front of the blower (10), and an automatic switch (30) The automatic switch 30 for operating the air volume increase / decrease damper opening and closing vane 22 of the air volume increase and decrease damper 20 connected to the axes of the plurality of air volume increasing and decreasing damper opening and closing vanes 22 inside the damper 20, When the air pressure difference between the smoke inducing zone 50 and the room 60 set in the air supply damper controller 41 is out of the set differential pressure range, the air pressure control valve 41 is connected to the air supply damper controller 41, And the automatic switch 30 on the outside of the frame 21 of the air volume increasing / decreasing damper 20 is operated to increase or decrease the blowing amount of the blower 10.

In the above,

The air supply damper 40 for introducing the outside air into the ventilation section 50 through the air supply duct 11 which is a vertical airflow is provided with an opening detection for detecting when the air supply damper opening / closing blade 43 of the air supply damper 40 is fully opened The open sensing switch 45 is connected to the automatic switch 30 of the air volume increase / decrease damper 20 which is installed in front of the blower 10 to control the amount of air blowing, The automatic switch 30 operates to increase the blowing amount of the blower 10 by opening the air volume increasing / decreasing damper opening / closing vane 22 of the air volume increasing / decreasing damper 20 "He said.

In the above,

An air supply duct air pressure sensor 12 for detecting the air pressure of the outside air and the air pressure in the air supply duct 11 is installed inside the air supply duct 11 having a vertical airflow of 10M or more from the air blower 10 installed in the ground, The air volume increase / decrease controller 23 for receiving the air pressure differential signal of the duct air pressure detector 12 is installed in the air supply damper 40 of the smoke generating section 50. The air volume increase and decrease controller 23 controls the blower 10 The air volume increase / decrease controller 23 is installed in the air supply damper 40 of the smoke removal zone 50 of one to two or more layers from the air volume increase / decrease damper 20 installed in front of the blower 10, When the air pressure difference between the inside of the air supply duct 11 and the outside air is out of the range of the air pressure difference set in the air flow rate increase and decrease controller 23 by connecting the air flow increasing and decreasing controller 30 to the air flow increasing and decreasing controller 20, The opening / closing device 30 is operated to open / close the air volume increase / decrease opening / closing blade 22 to increase the air blowing amount of the blower 10 The present invention relates to a high-

The air supply damper controller 41 that is provided in the air supply damper 40 to control the air supply damper opening and closing vane 43 and the air flow rate increasing and decreasing damper opening and closing vanes of the air flow increasing and decreasing damper 20 installed in front of the blower 10 22 of the air volume increase / decrease damper 20 are electrically connected to each other to share the air pressure of the outside air pressure and the air pressure of the ventilation section 50 to control the air volume increase / decrease damper opening / closing vane 22 of the air volume increase / decrease damper 20 and the air supply damper The air supply damper opening / closing blade 43 of the air supply damper 40 can be automatically opened and closed.

The automatic switch 30 for operating the air volume increasing / decreasing damper opening / closing vane 22 of the air volume increasing / decreasing damper 20 is provided with the opening angle adjusting device for setting the opening / closing operation range of the opening / closing vane 22, Closing wing 22 of the blower 20 can control the blowing amount of the blower 10 by opening and closing the opening and closing wings 22 within the set opening and closing range.

The high-rise building smoke prevention system protects people's lives in the event of a fire in a building, which provides time and space to prevent asphyxiation from smoke and toxic gases generated in the event of a fire.

The present invention prevents smokes and toxic gases generated during a fire from flowing into a smoke-free zone or an evacuation staircase, thereby preventing smoke or toxic gas from spreading throughout the building, and is a reasonable high-rise building smoke- .

The present invention relates to a designing condition of a smoking zone required by the Fire Service Act

1) If all the doors of the ventilation area are closed, the air pressure in the ventilation area shall be maintained at 50 Pa ± 20% (40-60 Pa) of the air pressure of the room where the fire occurred.

2) In the case of a building of 20 stories or less If the door of one floor is opened or the building of 20 stories or more is opened at the same time, the air which flows into the smoking area through the air supply mechanism is opened to the room door The wind speed should be more than 0.7m / s.

3) When the doors of one floor of 20 stories or less are opened, or when the doors of two floors of 20 or more floors are opened simultaneously, the outside air that flows into the smoking area through the air supply device is opened to the indoor door at a wind speed of 0.7m / s And the ventilation area of the non-open layer in the state where the door is closed satisfies the provision that the air pressure difference of 28pa (70%) or more will be maintained,

It is a very useful invention to protect the valuable life by blocking the smoke and toxic gas flowing into the smelting area when the actual building fire occurs.

Fig. 1 is a front view and a side view of the air volume increase / decrease damper of the present invention.
Fig. 2 is a cross-sectional view taken along the line DD of Fig. 1, showing the damper opening / closing blade of the air flow rate increasing / decreasing damper is fully opened.
3 is a schematic vertical cross-sectional view of a high-rise building ventilation system to which the present invention is applied.
4 is a schematic vertical cross-sectional view of a high-rise building ventilation system to which the present invention is applied.
FIG. 5 is a plan sectional view of a high-rise building ventilation area.
Fig. 6 is a partial enlarged view of a high-rise building ventilation system to which the example of the present invention is applied.
Fig. 7 is a perspective view of an air supply damper installed in a supply mechanism in a smelting zone; Fig.
Fig. 8 is an operating state showing that the air supply damper controller and the air volume increase / decrease damper are interlocked in the present invention.
Fig. 9 is an operation diagram of the air supply damper, which shows that the air supply damper installed in the ventilation area is opened.
Fig. 10 is a diagram showing the operating state of the air supply damper, which shows that the air supply damper installed in the smelting area is fully opened.
Fig. 11 is an operation diagram of the air supply damper in a state in which the air supply damper installed in the smoothing area is completely closed.
Fig. 12 is a view of the smoke-generating zone showing that an air-supply damper is installed next to the fire door of the smoke-firing zone.
13 is an operating state showing that the air volume increase / decrease controller and the air volume increase / decrease damper are interlocked with each other in the present invention.
14 is a state in which the air supply damper controller and the air volume increase / decrease damper are interlocked in the present invention.

A high-rise building, in particular a high-rise apartment building (facility), has the following configuration.

The total room which is a space between the door 60 and the elevator is a ventilation zone 50 for preventing smoke from entering during a fire and is connected to the air supply duct 11, Mechanism.

The supply mechanism is provided with an air supply damper (40) having a plurality of air supply damper opening / closing blades (43).

The air supply duct 11 blows outside air generated from a blower 10 installed on a roof or a basement of a building to a ventilation zone 50 through a ventilation damper 40 to a ventilation zone 50 The inflowing outside air maintains a high air pressure difference within 50% (Pascal) ± 20% of the air pressure of the room 60 in which the fire has occurred, so that the smoke of the room 60 in which the fire has occurred So that toxic gas can not be introduced into the smoke-inducing zone 50.

The air supply damper 40 for introducing outside air into the ventilation zone 50 is opened and closed by a supply damper switch 42 connected to the axis of the air supply damper opening and closing vane 43 and operating the air supply damper opening and closing vane 43, The air supply damper switch 42 is normally operated by an air supply damper controller 41 mounted inside the air supply damper 40.

The air supply damper controller 41 is provided with an air pressure sensor 41-1 which is a differential pressure sensor for sensing the air pressure of the room 60 and the air pressure of the smoke exhausting area 50 so that the air pressure of the room 60 and the smoke- .

The air supply damper opening / closing blade 43 of the normally closed air supply damper 40 is opened by the air supply damper switch 42 due to the fire detection signal in the event of a fire and the outside air supplied from the air supply duct 11, (50) to increase the air pressure of the smoke-inducing section (50) so that a pressure difference of 50% (Pascal) ± 20% higher than the air pressure of the room (60)

The air supply damper opening and closing device 42 is provided with the air supply damper opening and closing wings 43 (see FIG. 4) to reduce the outside air that has flowed into the ventilation area 50 when the air pressure of the ventilation area 50 is higher than the air pressure of the room 60 by 60 pa The air pressure in the ventilation zone 50 is lowered and the air pressure in the ventilation zone 50 is lower than 40 Pa (pascal) The damper switch 42 operates the air supply damper opening and closing vane 43 to open the air supply damper 40 to introduce outside air into the ventilation section 50 to increase the air pressure in the ventilation section 50.

When the differential pressure of the air pressure difference between the ventilation zone 50 and the room 60 is 60 Pa or more, the air pressure of the ventilation zone 50 is too high and the elderly person can not open the door 61, Is not higher than the air pressure of the indoor room (60) by 60 pa or more,

The air pressure of the ventilation zone 50 is too low when the air pressure difference between the ventilation zone 50 and the room 60 is 40 Pa or less so that the smoke or toxic gas in the room 60 can escape through the door 61 There is a risk that the air pressure difference between the smoke-inducing section 50 and the room 60 will not drop below 40 pa. That is, the fire prevention law stipulates that a differential pressure in the range of 50 Pa (Pascal) ± 20% is formed.

Also, in the fire fighting method, when a person opens the door 61 from the room 60 and evacuates to the smoke-free zone 50 when a fire occurs, the air in the smoke-free zone 50 maintains the smoke- And toxic gases from entering the ventilation zone 50.

The air in the ventilation zone 50 flows into the room 60 when the person 60 opens the door 61 to evacuate to the ventilation zone 50 in the event of a fire, The air damper opening / closing blades 43 of the air supply damper 40 are opened to the maximum (opened to 100%) in order to retrieve the air damper 40 from the differential pressure (the air pressure is lowered to 0pa) Thereby increasing the amount of supply supplied.

In this way, when the door 61 of the room 60 is opened in the event of a fire, the air-conditioning wind speed flowing into the smoke-inducing section 50 through the air supply damper 40 is required to be maintained at 0.7 m / s or more.

The air in the ventilation area 50 is escaped through the fire door 51 so that the air in the ventilation area 50 can be discharged to the escape stair 52. [ The air pressure is lowered,

In the ventilation zone 50, various pressure changes are generated according to various situations, so that the air pressure difference with the room 60 defined by the firefighting method is not made, and in fact, the conventional ventilation facility is, It is not possible to perform the operation properly.

In particular, a volume damper (V / D) is installed in front of the conventional blower 10 as a damper for controlling the blowing amount of the blower 10.

The volume damper installed in front of the conventional blower 10 can not increase the blowing amount due to various changes in the air pressure in the ventilation zone 50 and always generates a constant blowing amount so that the blowing amount can not be increased according to the air pressure change in the ventilation zone 50 .

The present invention has been developed to solve such problems.

The present invention is characterized in that an air volume increase / decrease damper (20) for controlling the air blowing amount is installed in front of a blower (10) for blowing outside air to an air supply duct (11) When the air in the ventilation section 50 is instantaneously introduced into the room 60 and the air pressure in the ventilation section 50 is lowered, the air supply damper controller 41 Detects an air pressure lowered by the air pressure sensor 41-1

The signal is transmitted to the automatic switch 30 of the air volume increase / decrease damper 20 provided in front of the blower 10 to actuate the automatic switch 30 to open the air volume increasing / decreasing damper opening / closing vane 22 of the air volume increase / decrease damper 20 The blowing amount of the blower 10 is increased to increase the air pressure in the ventilation zone 50 so that the lowered air pressure in the ventilation zone 50 is increased.

Also . When the air pressure in the air supply duct 11 which is a vertical air flow and the air pressure of the outside air are sensed and the air pressure in the air supply duct 11 and the outside air deviate from the set differential pressure, the flow rate increase / decrease damper opening / ) So that the air blowing amount of the blower 10 is increased or decreased.

The air volume increase / decrease damper opening / closing blade 22 of the air volume increase / decrease damper 20 which is installed in front of the blower 10 of the present invention and controls the air blowing amount of the blower 10 takes into consideration all the conditions such as the size of the building, The damper 20 is partially opened at an appropriate opening angle at the initial stage of the air flow rate increase / decrease damper 20 to maintain a partially opened state.

That is, the opening angle of the air volume increasing / decreasing damper opening / closing vane 22 of the air volume increasing / decreasing damper 20 installed in front of the blower 10 of the present invention is determined in accordance with the designing standard

1) If all the doors of the ventilation area are closed, the air pressure in the ventilation area shall be maintained at 50 Pa ± 20% (40-60 Pa) of the air pressure of the room where the fire occurred.

The opening angle at which the air volume increase / decrease damper opening / closing vane 22 of the air volume increase / decrease damper 20 is partially opened is calculated.

The initial opening ratio of the air volume increasing / decreasing damper opening / closing blade 22 of the air volume increasing / decreasing damper 20 set in front of the air blower 10 is adjusted to 50-60%, so that the air blowing capacity of the blower 10 is 50-60% is blown into the ventilation area 50 through the air supply duct 11 to maintain the air pressure difference between the ventilation area 50 and the room 60 at 50 Pa ± 20% (40-60 Pa) The design criteria of the smoke-free zone specified in Clause 1 of

On the other hand, when the air pressure in the ventilation zone 50 is lowered due to the air in the ventilation zone 50 being introduced into the room 60 due to the opening of the door 60 of the ventilation zone 50, Is detected by the air pressure sensor 41-1 of the air supply damper controller 41 to operate the air supply damper switch 42 to operate the air supply damper opening and closing vane 43 of the air supply damper 40, The blower fan 40 is fully opened to increase the amount of air blown from the air supply duct 11 having a vertical airflow so as to increase the air pressure in the ventilation zone 50 while the air supply damper controller 41 controls the air flow rate The automatic switch 30 of the increase / decrease damper 20 is actuated to open the air volume increasing / decreasing damper opening / closing vane 22 to increase the blowing amount of the blower 10.

The present invention is characterized in that an open detection switch 45 for sensing a full opening in which the air supply damper opening and closing vane 43 of the air supply damper 40 for introducing outside air into the ventilation zone 50 is 100% opened is provided inside the air supply damper 40 And an open sensing switch 45 for sensing the opening of the air supply damper opening / closing vane 43 by connecting to the automatic switch 30 of the air volume increasing / decreasing damper 20 for opening the opening detection switch 45 in front of the blower 10 The signal is transmitted to the automatic switch 30 provided in the air volume increasing / decreasing damper 20 in front of the blower 10 to open the air volume increasing / decreasing damper opening / closing vane 22 to open the blower 10, Thereby increasing the amount of air blown out.

However, in the conventional ventilation system, since the damper installed in front of the blower 10 always blows a constant amount of airflow due to the volume damper fixing the opening angle of the volume damper opening / closing blades, the air supply of the air supply damper 40 Even if the damper opening / closing vane 43 is completely opened, the air blowing amount can not be increased to the ventilation zone 50 and the air pressure of the ventilation zone 50 can not be increased effectively.

The air pressure sensor 41-1 of the air supply damper controller 41 detects the air pressure that the air pressure difference between the ventilation zone 50 and the room 60 rises to 60 pa or more and operates to operate the air supply damper switch 42 The air supply damper opening and closing blade 43 is closed to reduce the amount of air blown into the smoke generating zone 50 and at the same time a closing signal is sent to the automatic switch 30 of the air flow increasing and decreasing damper 20 in front of the blower 10 The damper opening / closing vane 22 is operated in a closed state to reduce the blowing amount of the blower 10 to reduce the outside air flowing into the ventilation zone 50, thereby lowering the air pressure in the ventilation zone 50.

As described above, according to the present invention, the air supply damper opening / closing blade 43 of the air supply damper 40 is closed to reduce the amount of air blown into the ventilation zone 50 to reduce the air pressure in the ventilation zone 50, The air volume increase / decrease damper opening / closing blade 22 is returned to its original position by the operation of the air volume increase / decrease damper 20 automatic switch 30 to reduce the amount of air blown to the air supply duct 11.

The present invention is operated by the air pressure sensor 41-1 of the air supply damper controller 41 mounted inside the air supply damper 40 to increase the blowing amount of the air blower 10 through the air supply damper 40, ) Is maintained at 0.7 m / s or more in the direction of the door 61 so as to satisfy the design conditions 2 and 3 of the smoke-free zone 50 defined by the Fire Service Act.

The present invention is characterized in that the air in the room (50) and the room (60) sensed by the air pressure sensor (41-1) of the air supply damper controller (41) of the air supply damper (40) The automatic switch 30 of the air volume increase / decrease damper 20 opens the air volume increase / decrease damper opening and closing vane 22 to increase the amount of blowing air to increase the amount of air flowing into the ventilation zone 50 The air blowing speed of the air blowing fan 10 is increased to increase the air pressure of the blowing section 10 even when the air blowing wind speed is accelerated to the door 60 of the room 60 at the same time as the air blowing damper 40 is not 100% .

The air supply damper 40 which flows the outside air into the smoke-inducing section 50 during a fire is maintained in a closed state at normal times but is opened by a fire signal to introduce outside air from the air supply duct 11 to increase the air pressure in the smoke- give.

The plurality of air supply damper opening and closing blades 43 constituting the air supply damper 40 are operated by the air supply damper switch 42 to open and close and the air supply damper controller 41 operates the air supply damper switch 42 When the air pressure difference between the smoke removal zone 50 and the room 60 in which the fire is generated is 40 Pa or less, the air damper opening / closing vane 43 is opened to increase the air inflow amount from the air supply duct 11, If it is more than 60 pa, the air damper opening / closing vane 43 is closed to reduce the air inflow amount.

When the air pressure difference between the ventilation zone 50 and the room 60 is 40 Pa or less in the air supply damper 40 operating in this manner, the air supply damper opening / closing vane 43 is fully opened, that is, 100% opened, do.

The present invention is characterized in that the opening detection switch 45 for detecting the opening of the air supply damper 43 of the air supply damper 40 is installed inside the air supply damper 40 and the opening detection switch 45 is connected to the blower The air volume increase / decrease damper 20 in front of the blower 10 is opened when the air supply damper 40 is opened 100% by connecting the automatic switch 30 of the air volume increase / decrease damper 20 installed in front of the blower 10, .

The presently operating invention satisfies the design requirements 1, 2, and 3 of the smoke-free zone 50.

The air blowing amount generated from the blower 10 is supplied to the respective floor smoke exhausting area 50 of the building through the air supply duct 11 which is a vertical air flow.

The supply duct 11 has various structures according to the design conditions of the building such as the structure of the building, the height, and the design method.

The blowing air generated in the blower 10 must not leak to the outside while being conveyed to the ventilation zone 50 through the air supply duct 11 and should be conveyed to the entire floor ventilation zone of the building by the even pressure, If airtightness of the air supply duct 11 is poor or a passage or the like connected to the outside is opened and leakage occurs, the amount of blowing generated in the blower 10 can not be blown properly into the smoke exhaustion zone 50 of each floor.

In view of the above, the present invention provides an air supply duct air pressure sensor 12 for detecting the air pressure in the air supply duct 11 at a point (three or more storeys) at a distance of 10 m or more from the air blower 10 installed in the underground, The air volume increase / decrease controller 23 for receiving the signal of the detector 12 is connected to the automatic air conditioner 30 of the air volume increase / decrease damper 20 in front of the blower 10 so that the air pressure in the air supply duct 11 can not reach the set air pressure When the air pressure in the air supply duct 11 deviates from the set pressure range, the air volume increasing / decreasing damper 20 in front of the air blower 10 is opened and closed to increase or decrease the blowing amount of the air blower 10.

The air supply duct air pressure sensor 12 installed in the air supply duct 11 is set to operate the automatic switch 30 of the air volume increase / decrease damper 20 when the air pressure difference with the outside air is 20-40 Pa or less.

According to the present invention, the air blowing amount of the blower 10 is controlled in accordance with the change in the air pressure in the air supply duct 11, thereby blowing sufficient outside air to the smoke generating zone 50 during a fire.

In the present invention, the air volume increase / decrease damper 20 installed in front of the blower 10 opens / closes the air volume increase / decrease damper opening / closing vane 22 by the automatic switch 30 mounted outside the frame 21, Thereby controlling the blowing amount.

However, the damper installed in front of the conventional blower 10 is a volume damper and has a damper opening / closing system different from that of the present invention.

That is, the volume damper for controlling the blowing amount of the conventional blower 10 sets the opening angle of the opening / closing vane of the volume damper in advance according to the capacity of the blower 10 and fixes the set opening angle so as not to vary.

Therefore, even when the blower 10 having a sufficient blowing amount is provided, the blowing amount of the blower 10 can not be increased according to the opening angle which is normally opened by only 50-60%.

On the other hand, the air volume increasing / decreasing damper 20 according to the present invention arbitrarily adjusts the opening angle by the automatic switch 30 without fixing the opening angle of the air volume increasing / decreasing damper opening / closing vane 22, .

In the present invention, the air volume increasing / decreasing damper opening / closing blade 22 of the air flow rate increasing / decreasing damper 20 does not maintain the fully closed state at the normal time and maintains the 50-60% open state, and the operation signal of the automatic opening / When it is inflowed, 100% is opened and the amount of wind blowing is increased.

According to the present invention, the air volume increasing / decreasing damper 20 in front of the blower 10 is opened and closed according to the design requirements of the air supply duct 11 and the ventilation zone 50, And provides a smoking prevention method to protect valuable people in the event of a fire.

The air flow rate increasing / reducing damper 20 installed in front of the blower 10 for blowing the outside air in the ventilation zone 50 through the air supply duct 11 through the air supply duct 11 is provided with a plurality of air volume increase / decrease dampers The automatic switch 30 has an opening and closing blade 22 and an automatic switch 30 for operating the air flow increasing and decreasing damper opening and closing vane 22 on the outside of the damper frame 21. The automatic switch 30 is connected to the air supply damper When the air pressure difference between the smoke-inducing section 50 and the room 60 during the fire does not reach the set air-pressure difference set by the air-supply damper controller 41, the automatic damper controller 41, And the switch 30 is operated to increase the blowing amount.

The air supply damper 40 is provided with an open detection switch 45 for detecting when the air supply damper opening and closing vane 43 is 100% opened. The open detection switch 45 is connected to the automatic opening / The automatic switch 30 is operated when the opening detection switch 45 is operated so that the air volume increase / decrease damper 20 is opened to increase the blowing amount of the blower 10.

The present invention is characterized in that an air supply duct air pressure sensor 12 is installed inside an air supply duct 11 which is a vertical air flow duct and the air supply duct air pressure sensor 12 detects air pressure in the air supply duct 11 and air pressure The air volume increasing / decreasing damper 20 is opened by operating the automatic switch 30 in front of the blower 10 to increase the air blowing amount,

The air supply duct air pressure sensor 12 installed inside the air supply duct 11 is installed at a distance of 10 m or more from the air blower 10 installed in the ground.

That is, the air supply duct air pressure sensor 12 is installed at a position of three or more floors at 10 m or more from the blower 10 installed in the underground. When the air pressure difference between the outdoor air and the outside air is 20-40pa, The air pressure is set so that the automatic switch 30 is operated.

The present invention having such a structure is a very useful invention that protects valuable persons in the event of a fire by ventilating the outside air sufficiently to the ventilation area by utilizing the ventilation capacity of the ventilator blowing the outside air to the ventilation zone during the fire.

10: Blower
11: Supply duct 12: Supply duct air pressure sensor
20: Increase / decrease of air volume damper 21: Frame
22: Opening and closing wing
23: air volume increase / decrease controller 30: automatic switch
40: Supply damper 41: Supply damper controller
41-1: Air pressure sensor 42: Supply damper switch
43: Supply damper opening / closing blade 45: Open detection switch
50: Smoke area 51: Fire door
52: Evacuation stairs 60: Indoor

Claims (7)

delete An air blower 10 is installed on a roof or a basement and an outside air is introduced into an air supply damper 40 installed on a supply mechanism of each floor smoke generating area 50 of a building through a supply duct 11 which is a vertical air flow, The air supply damper 40 is provided with an air supply damper switch 42 for opening and closing the air supply damper opening and closing vane 22 and an air supply damper switch 42 for controlling the air supply damper switch 42, And an air supply damper controller 41 having an air pressure sensor 41-1 for detecting an air pressure difference between the air supply damper switch 41 and the air supply damper switch 41. The air supply damper controller 41 controls the air supply damper switch 42 to open and close the air supply damper opening / The air supply damper 40 is opened to vent the outside air to the ventilation section 50 to increase the air pressure in the ventilation section 50 during the fire so that the smoke of the room 60 in which the fire has occurred is introduced into the ventilation section 50 The air pressure in the ventilation zone (50) is increased,
A step of providing an air volume increasing / decreasing damper (20) for controlling the air volume of the blower in front of the blower (10)
A step of providing an automatic switch (30) for opening and closing the air volume increase / decrease damper opening / closing vane (22) outside the frame (21) of the air volume increasing / decreasing damper (20)
A step of connecting the automatic switch 30 to an air supply damper controller 41 for detecting a change in the air pressure in the ventilation zone 50,
When the air pressure sensor 41-1 of the air supply damper controller 41 senses that the air pressure difference between the smoke inducing section 50 and the room 60 is out of the set range, the automatic switch 30 of the air volume increase / decrease damper 20, The damper opening / closing blade (22) is opened and closed so as to increase or decrease the blowing amount of the blower (10)
The air supply damper 40 for introducing the outside air into the ventilation section 50 through the air supply duct 11 which is a vertical airflow is provided with an opening detection for detecting when the air supply damper opening / closing blade 43 of the air supply damper 40 is fully opened A step of installing the switch 45,
The opening detection switch 45 is connected to an automatic switch 30 for opening and closing the air volume increase / decrease damper opening and closing vane 22 of the air volume increase / decrease damper 20,
A step of operating the automatic switch 30 of the air volume increase / decrease damper 20 installed in front of the blower 10 when the open detection switch 45 is turned on,
Wherein the air pressure in the ventilation area is increased or decreased in the step of opening the air volume increasing / decreasing damper opening / closing blade (22) of the air volume increasing / decreasing damper (20) to increase the air blowing amount of the blower (10). The method according to claim 2,
A step of installing an air supply duct air pressure sensor 12 for detecting the air pressure of the outside air and the air pressure in the air supply duct 11 on the inside of the air supply duct 11 having a vertical airflow of 10M or more from the air blower 10 installed in the ground,
A step of installing an air volume increase / decrease controller (23) for receiving an air pressure differential signal of the air supply duct air pressure sensor (12)
The air volume increase / decrease controller 23 is connected to the air volume increase / decrease damper 20 installed in front of the blower 10,
The air volume increase / decrease controller 23 operates the automatic switch 30 of the air volume increase / decrease damper 20 to open and close the air volume increase / decrease opening / closing blade 22 Wherein the blowing amount of the blower (10) is increased or decreased to increase or decrease the air pressure in the ventilation zone. delete An air blower 10 is installed on a roof or a basement and an outside air is introduced into an air supply damper 40 installed on a supply mechanism of each floor smoke generating area 50 of a building through a supply duct 11 which is a vertical air flow, The air supply damper 40 is provided with an air supply damper switch 42 for opening and closing the air supply damper opening and closing vane 22 and an air supply damper switch 42 for controlling the air supply damper switch 42, And an air supply damper controller 41 having an air pressure sensor 41-1 for detecting an air pressure difference and an air supply damper switch 42 for opening and closing the air supply damper opening and closing vane 22 by the air supply damper controller 41 The air supply damper 40 is opened to vent the outside air to the ventilation section 50 so that the air pressure in the ventilation section 50 is raised during the fire so that the smoke of the room 60 in which the fire is generated does not flow into the ventilation section 50 A high-rise building ventilation device for increasing the air pressure in the ventilation zone (50)
The air conditioner has an air volume increasing / decreasing damper (20) for controlling the air blowing amount in front of the blower (10) and has an automatic switch (30) outside the frame (21) of the air volume increasing / decreasing damper Closing damper opening / closing vane 22 of the air volume increase / decrease damper 20 connected to the shaft of the air flow rate increasing / decreasing damper opening / closing vane 22 inside the ventilation section 20, When the air pressure difference between the smoke inducing zone 50 set in the air supply damper controller 41 and the room 60 is out of the set differential pressure range, Characterized in that the automatic switch (30) outside the frame (21) of the increasing / decreasing damper (20) operates to increase or decrease the blowing amount of the blower (10)
The air supply damper 40 for introducing the outside air into the ventilation section 50 through the air supply duct 11 which is a vertical airflow is provided with an opening detection for detecting when the air supply damper opening / closing blade 43 of the air supply damper 40 is fully opened The open sensing switch 45 is connected to the automatic switch 30 of the air volume increase / decrease damper 20 which is installed in front of the blower 10 to control the amount of air blowing, The automatic switch 30 operates to increase the blowing amount of the blower 10 by opening the air volume increasing / decreasing damper opening / closing vane 22 of the air volume increasing / decreasing damper 20, / RTI > 6. The method of claim 5,
An air supply duct air pressure sensor 12 for detecting the air pressure of the outside air and the air pressure in the air supply duct 11 is installed inside the air supply duct 11 having a vertical airflow of 10M or more from the air blower 10 installed in the ground,
An air volume increase / decrease controller 23 for receiving an air pressure differential signal of the air supply duct air pressure sensor 12 is installed in the air supply damper 40 of the smoke inducing section 50,
The air volume increase / decrease controller 23 is installed in the air supply damper 40 of the ventilation zone 50 of 1 to 2M or more from the blower 10 installed in the ground,
The air volume increase / decrease controller 23 is connected to the automatic switch 30 of the air volume increase / decrease damper 20 installed in front of the blower 10 so that the air pressure difference between the inside of the air supply duct 11 and the outside air is controlled by the air volume increase / If you are outside the set range of air pressure differentials,
Wherein the air volume increase / decrease controller (23) operates the automatic switch (30) of the air volume increasing / decreasing damper (20) to open / close the air volume increase / decrease opening / closing blade (22) to increase / decrease the blowing amount of the air blower Device. 6. The method of claim 5,
An air supply damper controller 41 provided in the air supply damper 40 for controlling the air supply damper opening / closing vane 43,
The air volume increase / decrease controller 23 that controls the air volume increase / decrease damper opening / closing vane 22 of the air volume increase / decrease damper 20 installed in front of the blower 10 is electrically connected to each other to share the outside air pressure and the air pressure of the smoke volume 50 And the air damper opening / closing blade (22) of the air volume increasing / decreasing damper (20) and the air supply damper opening / closing blade (43) of the air supply damper (40) are automatically opened and closed.

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