KR20140140760A - Smoke control system - Google Patents

Abstract

The present invention relates to a smoke control system. The smoke control system is capable of increasing or decreasing the air supply amount of an air blower by increasing or decreasing the RPM of the air blower or by controlling the opening angle of an air volume control damper installed at the front side of the inlet of the air blower, so outdoor air with a leakage amount or a supplement amount to maintain an air egress velocity at a predetermined reference is supplied to an ancillary room in each floor of a high-rise building based on a differential pressure in the ancillary room in each floor or based on a differential pressure on each installation position of a differential sensor, wherein the differential sensors are installed in at least three of the different ancillary rooms in the high-rise building or are installed on at least three of the different installation positions of an air blow line in the high-rise building. When using at least three of the differential sensors, the smoke exhaustion system according to the present invention is capable of quickly and accurately detecting a differential pressure variation in the ancillary room or in the air blow line, thereby accurately identifying both of whether or not an entrance door in the ancillary room in the high-rise building is opened and whether or not the entrance door is temporarily opened and closed again. As a result, the smoke exhaustion system according to the present invention is capable of precisely controlling the leakage amount and the supplement amount of the outdoor air supplied to the ancillary room by precisely and accurately controlling the air supply amount of the air blower, so the minimum differential pressure in each of the ancillary rooms can be stably maintained to prevent smoke from flowing into the ancillary room through the entrance door between the ancillary room and the indoor side of the high-rise building and so the maximum differential pressure in each of the ancillary rooms can be stably maintained to allow a person in the indoor side of the high-rise building in fire to open the entrance door in order to prevent a fatal accident due to suffocation, burn, etc.

Description

Smoke control system

The present invention relates to a ventilation system, and more particularly to a ventilation system, and more particularly to a ventilation system, which is installed in at least three different layers of high-rise buildings or in a ventilation line of a high-rise building, A ventilation system that controls the amount of air supplied to a blower so that a leakage amount or a replenishing amount of outside air can be supplied to maintain the air-blowing wind speed of a predetermined standard in the floor of the high-rise building based on the differential pressure by the installation position of the air- will be.

The smoke ventilation system prevents harmful smoke from entering the evacuation staircase or the ancillary room connecting with the emergency elevator when a fire occurs in a high-rise building, thereby reducing personal injury and securing a safe evacuation route.

The above-mentioned subsidiary room refers to a ventilation zone between the indoor and the escape stairway of the building where the fire occurred, or between the indoor space of the building where the fire occurred and the emergency escalator, and a person inside the fire- Open the door and move to the evacuation staircase or the emergency elevator via this attachment room and evacuate.

The ventilation system senses a fire in a high-rise building and simultaneously operates a blower to supply outdoor air of predetermined leakage amount to the auxiliary room, and a person inside the building of the building where the fire occurred is evacuated The smoke is prevented from entering the ancillary room through the door between the indoor and the ancillary room of the building in which the fire occurs, by supplying a supplementary amount of ambient air to the ancillary room while the door is opened and closed.

The ventilation system supplies the outside air of a predetermined leak amount or outside air of a predetermined replenishing amount to the adjoining room so that the air pressure of the adjoining room is made higher than the inside air pressure to maintain the differential pressure between the adjoining room and the inside at a predetermined minimum pressure difference, Smoke and flames are prevented from entering the ancillary chamber through the doors between the indoor and the ancillary rooms of the building. When the minimum differential pressure is lower than a predetermined value, smoke and flames can be introduced into the subsidiary chamber through the door.

The ventilation system is configured to increase the air pressure of the subsidiary room to a level higher than the indoor air pressure so that the force required to open the door is lower than a predetermined level, The pressure difference between the subsidiary room and the inside of the building is maintained at a predetermined differential pressure so that the overpressure is not applied, thereby enabling a person inside the building of the fire to open the door. If the maximum differential pressure is higher than a predetermined value, a person in the room can not open the door, resulting in death due to suffocation, burn, or the like.

For reference, NFSC501A of the Republic of Korea, in order to secure the evacuation safety of high-rise buildings, the standard conditions for differential pressure and smoke-free wind speed in the staircase of the special evacuation staircase and the auxiliary smoke ventilation system are as follows: And in case of exceeding 20 floors, the two subsidiary chambers are opened. In this case, it is stipulated that the differential pressure of the chamber of the floor where the door is not opened should maintain a differential pressure of 70% of the minimum differential pressure.

As an embodiment of the above-described ventilation system, Patent Document 1 discloses a technique of detecting the pressure acting on the upper and lower portions of the air supply air flow rate and quickly adjusting the amount of air flowing into the air supply air flow rate thereby to overcome the over- An automatic ventilation facility for high-rise buildings that can cope with the low pressure within the sudden airflow caused by the leakage amount is posted.

The conventional automatic smokestack facility for high-rise building disclosed in Patent Document 1 has two differential pressure detecting units installed at the upper and lower portions of the air supply airflow, respectively, The supply amount of the blower is controlled so that the leakage amount capable of maintaining the air-fueling wind speed of the predetermined standard and the replenishing amount of outside air are supplied.

However, in the conventional automatic smokestack facility for high-rise building disclosed in Patent Document 1, when overpressure occurs simultaneously in various subsidiary rooms located in the middle part of the air supply airflow among the various air supply rooms communicating with the air supply air flow rate, It is difficult to quickly and precisely detect the differential pressure change of the supply airflow.

In addition, the conventional automatic ventilation system for a high-rise building disclosed in Patent Document 1 can not detect in real time the differential pressure that varies depending on the affiliation of each floor of a high-rise building. In fact, the position of the differential pressure measurement layer, In the case where the position of the layer is different, especially when the difference between the layers is large, if the two differential pressure sensing portions alone can not detect the differential pressure change of the air flow rate quickly and accurately, the amount of air supplied to the blower is controlled, It is difficult to precisely adjust the replenishment amount.

As described above, if the supply amount of the blower can not be controlled quickly and accurately in the conventional automatic smokestack facility for a high-rise building as disclosed in Patent Document 1, the leakage amount or the supplement amount of the outside air supplied to the subsidiary room becomes insufficient or excessive, The outside air can not maintain the air-conditioning wind speed of the predetermined standard, smoke may be introduced into the subsidiary room, or a person in the room can not open the door, resulting in death due to suffocation or burn.

As another embodiment of the above-described ventilation system, Patent Document 2 discloses a ventilation system in which air volume generated in a blower is raised to a set wind pressure or higher when supplying air to the ventilation line in order to form a constant differential pressure in a ventilation zone formed for each floor of a high- It is possible to maintain the differential pressure in the ventilation zone by supplying the air volume of the blower when the air volume of the blower is cut off and the air volume of the blower falls below the set air pressure of the blower line. In addition, the blower and the over- The air pressure and pressure regulating device of a building smoke-free zone is posted.

The air pressure and pressure control system of the building smoke area of the building disclosed in Patent Document 2 is based on the differential pressure measured by the differential pressure sensors installed for each of the compartments of each floor of the high-rise building, The amount of air supplied to the blower is controlled so that a sustainable leakage amount and a replenishing amount of outside air are supplied and the amount of supply of the blower is controlled by an operation of opening and closing a damper of the automatic air conditioner installed in front of the discharge port of the blower.

However, since the damper is pulsated at the blowing line due to the operation of opening and closing the damper during the operation of the blower, the excessive mechanical load is applied to the damper and the lifetime of the damper And the air flow wind speed of the outside air supplied to the supporting room of each layer through the air blowing line becomes uneven.

As described above, when the wind speed of the outside air supplied to the auxiliary room of each floor through the air blowing line is uneven in the air amount overpressure control device of the building smoke-free area posted in Patent Document 2, temporary overpressure phenomenon occurs in the auxiliary room, Or the temporary low pressure phenomenon occurs in the subsidiary room, and smoke may be introduced into the subsidiary room through the door.

KR 10-2009-0099639 A KR 20-0432485 Y1

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a high-rise building having at least three or more different layers, Based on the differential pressure of the attached room pressure difference measured by differential pressure sensors installed or the differential pressure of the installed position of the blowing line on the basis of the differential pressure of the blower so that a leakage amount or a supplementary amount of outside air capable of maintaining the air- And to provide a ventilation system that increases or decreases the number of revolutions to increase or decrease the amount of air supplied to the blower.

Another object of the present invention is to provide a floor-mounted differential pressure or air flow line measured by differential pressure sensors installed in at least three different layers of a high-rise building or installed in at least three or more different positions on an air- Of the air conditioner damper installed in front of the inlet of the blower so as to supply a leakage amount or a replenishing amount of outside air that can maintain the air-blowing wind speed of the predetermined standard, And to provide a ventilation system for increasing or decreasing a supply amount.

In order to accomplish the object of the present invention as described above, the first embodiment of the ventilation system according to the present invention is characterized in that when a fire occurs in a high-rise building, a blower is operated to supply outside air to an air- A ventilation system for controlling the amount of air supplied to a blower so that a leakage amount and a replenishing amount of outside air, which can maintain the air-blowing wind speed of a predetermined standard, are supplied to an auxiliary room through an air supply damper installed in an auxiliary room, The building is installed in an auxiliary room of at least three different layers to detect the differential pressure between the inside and outside of the building, A differential pressure sensor for sensing a differential pressure of an air blowing line at the sensor installation position and outputting a differential pressure signal for each sensor installation position; A transmitter installed near each of the differential pressure sensors and receiving the differential pressure signal for the floor or the differential pressure signal for each sensor installation position and transmitting the differential pressure signal to the outside by radio or wire; A receiver installed in the vicinity of the blower to wirelessly or wiredly receive the floor-related differential pressure signal or the differential pressure signal according to the sensor installation position from the transmitter, and deliver the signal to the control unit; And at least three adjacent room differential pressure signals or at least three differential pressure signals for each sensor installation position are received from the receiver, and based on the measured differential pressures represented by the differential pressure signals, And a control unit for increasing or decreasing the number of revolutions of the blower to increase or decrease the amount of air supplied to the blower so that a leakage amount or a replenishing amount of outside air capable of maintaining the air-

In order to achieve the object of the present invention as described above, the second embodiment of the ventilation system according to the present invention is characterized in that, when a fire occurs in a high-rise building, a blower is operated to supply outside air to an air- A ventilation system for controlling the amount of air supplied to a blower so that a leakage amount and a replenishing amount of outside air, which can maintain the air-blowing wind speed of a predetermined standard, are supplied to an auxiliary room through an air supply damper installed in an auxiliary room, The building is installed in an auxiliary room of at least three different layers to detect the differential pressure between the inside and outside of the building, A differential pressure sensor for sensing a differential pressure of an air blowing line at the sensor installation position and outputting a differential pressure signal for each sensor installation position; A transmitter installed near each of the differential pressure sensors and receiving the differential pressure signal for the floor or the differential pressure signal for each sensor installation position and transmitting the differential pressure signal to the outside by radio or wire; A receiver installed in the vicinity of the blower to wirelessly or wiredly receive the floor-related differential pressure signal or the differential pressure signal according to the sensor installation position from the transmitter, and deliver the signal to the control unit; Receiving at least three adjacent room differential pressure signals or at least three differential pressure signals for each of the sensor installation positions from the receiver, and based on the measured differential pressures represented by the differential pressure signals, A control unit for controlling the opening angle of the air flow rate adjusting damper installed in front of the inlet of the blower so as to supply a leakage amount or a replenishing amount of outside air capable of maintaining a predetermined reference air flow speed to increase or decrease the air supply amount of the blower; An air amount adjusting damper installed in front of an air inlet of the air blower to increase or decrease an amount of air to be introduced into the air blower through a suction port by adjusting an opening angle; And a driving unit for operating the air volume adjusting damper at a predetermined opening angle in accordance with an opening angle adjusting command of the controller.

Since at least three differential pressure sensors can detect the differential pressure change in the auxiliary room or the ventilation line quickly and precisely, it is possible to detect whether the door is opened or closed and whether the door is temporarily opened and then closed again As a result, it is possible to precisely and precisely control the supply amount of the blower to precisely control the leakage amount and the replenishing amount of the outside air supplied to the subsidiary room, thereby stably maintaining the minimum differential pressure for each subsidiary room, It is possible to prevent the smoke from entering the auxiliary room and to keep the maximum differential pressure stable for each auxiliary room so that the person inside the building of the fire can open the door to prevent death due to suffocation and burns.

Fig. 1 is a first embodiment showing the configuration of a ventilation system according to the present invention. Fig.
2 is a second embodiment showing the configuration of a ventilation system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the ventilation system 100 according to the first embodiment of the present invention operates the blower 110 when a fire occurs in a high-rise building to supply outside air to the ventilation line 111 of the high-rise building.

The ventilation system 100 is provided with a leakage amount capable of maintaining the air-conditioned air speed of a predetermined standard set in the ancillary room 112 through an air supply damper 113 installed in a layered subsidiary room 112 of a high- And controls the supply amount of the blower 110 so that a supplemental amount of outside air is supplied.

The ventilation system 100 includes a differential pressure sensor 120, a transmitter 130, a receiver 140, and a controller 150.

The differential pressure sensor 120 is installed in at least three or more different layers of the supporting room 112 of the high-rise building to sense the differential pressure between the supporting room 112 and the inside of the room 115, At least three or more different positions are provided in the blowing line 111 of the high-rise building to sense the differential pressure of the blowing line 111 at the installation position and output a differential pressure signal for each sensor installation position.

The transmitter 130 is installed near each of the differential pressure sensors 120 and receives the differential pressure signal of the floor or the differential pressure signal for each sensor installation position and transmits the differential pressure signal to the outside by radio or wire.

The receiver 140 is installed in the vicinity of the blower 110 and receives the floor-related differential pressure signal or the differential pressure signal according to the sensor installation position from the transmitter 130 wirelessly or wired to the controller 150.

The control unit 150 is installed near the blower 110. When at least three or more than three adjacent room differential pressure signals or at least three differential pressure signals for the sensor installation positions are received from the receiver 140, The amount of air supplied to the blower 110 is increased or decreased so that a leakage amount or a replenishing amount of outside air capable of maintaining the wind speed of the predetermined airflow is supplied to the flooring dependent room 112 of the high- Respectively.

The ventilation system 100 according to the first embodiment of the present invention configured as above operates as follows.

When a fire occurs, the control unit 150 compares the measured differential pressure indicated by the differential pressure signal received through the receiver 140 with a predetermined differential pressure to determine whether the door 114 is opened or closed in the ancillary room 112 Compare.

As a result of the comparison, when there is no measured differential pressure lower than the reference differential pressure among the measured differential pressures, the controller 150 determines whether the door 114 is opened or temporarily opened and then closed again It is determined that there is no auxiliary chamber 112 in which the differential pressure fluctuation has occurred in accordance with the measured differential pressures. In order to prevent the smoke introduced into the auxiliary chamber 112 when the door 114 is closed, Compare.

In this case, instead of comparing all of the measured differential pressures with the minimum differential pressure, in order to quickly detect the differential pressure change, only the measured differential pressure representing the smallest one of the measured differential pressures may be compared with the minimum differential pressure.

At this time, if there is a measured differential pressure below the minimum differential pressure among the measured differential pressures, the controller 150 increases the number of revolutions of the blower 110 to increase the amount of supply of the blower 110, It is possible to prevent the smoke from being introduced into the ancillary room 112 through the door 114 due to the low pressure phenomenon in which the differential pressure in the floor-standing auxiliary room 112 of the high-rise building remote from the auxiliary floor 110 is lower than the minimum differential pressure.

Alternatively, if the measured differential pressures are compared with the minimum differential pressure, if there is no measured differential pressure below the minimum differential pressure among the measured differential pressures, the controller 150 controls the measured differential pressures, regardless of whether the door 114 is open or closed And compares the maximum pressure difference with a predetermined maximum differential pressure so that a person in the room 115 can open the door 114.

In this case, instead of comparing all of the measured differential pressures with the maximum differential pressure, in order to quickly detect the differential pressure change, only the measured differential pressure representing the largest value of the measured differential pressures may be compared with the maximum differential pressure.

As a result of the comparison, if there is a measured differential pressure equal to or greater than the maximum differential pressure, the control unit 150 decreases the number of rotations of the blower 110 to reduce the amount of supply of the blower 110, It is possible to prevent an accident that a person in the indoor 115 can not open the door 114 due to an overpressure phenomenon in which the differential pressure in the floor-standing auxiliary room 112 of the separated high-rise building becomes higher than the maximum pressure difference, .

On the contrary, if it is determined that there is no measured differential pressure that is equal to or greater than the maximum differential pressure, the control unit 150 maintains the rotational speed of the blower 110 at the current state to keep the supply amount of the blower 110 at the current state, The air supply amount of the blower 110 is increased until the largest value of the air pressure is equal to the maximum differential pressure, It is possible to prevent leakage of smoke into the ancillary room 112 through the door 114 by supplying a leakage amount of outside air that can maintain the air-cooling wind speed.

On the other hand, if there is a measured differential pressure lower than the reference differential pressure among the measured differential pressures as a result of comparing the measured differential pressures with the reference differential pressure, the control unit 150 controls the door (s) 114 is opened or temporarily opened and then closed again, it is determined that there is an auxiliary chamber 112 in which a differential pressure fluctuation has occurred, and the measured differential pressure excluding the measured differential pressure which is equal to or lower than the reference differential pressure is determined to be less than the minimum differential pressure And the set minimum differential pressure (for example, 70% of the minimum differential pressure).

In this case, instead of comparing all of the remaining measured differential pressures with the set minimum differential pressure, in order to quickly detect the differential pressure change, only the measured differential pressure representing the smallest one of the remaining measured differential pressures may be compared with the set minimum differential pressure have.

At this time, if there is a measured differential pressure lower than the set minimum differential pressure among the remaining measured differential pressures, the controller 150 increases the rotation speed of the blower 110 to increase the supply amount of the blower 110, It is possible to prevent the inflow of smoke into the ancillary room 112 through the door 114 due to the low pressure phenomenon in which the differential pressure in the floor-standing auxiliary room 112 of the high-rise building remote from the blower 110 becomes lower than the minimum differential pressure .

Alternatively, if the measured differential pressure excluding the measured differential pressure below the reference differential pressure is compared with the set minimum differential pressure, if there is no measured differential pressure that is equal to or lower than the set minimum differential pressure among the remaining measured differential pressures, The pressure differences are respectively compared with a maximum differential pressure predetermined for the person in the indoor space 115 to open the door 114 irrespective of whether the door 114 is open or closed.

In this case, instead of comparing all of the remaining measured differential pressures with the maximum differential pressure, in order to quickly detect the differential pressure change, only the measured differential pressure representing the largest value of the remaining measured differential pressures may be compared with the maximum differential pressure.

As a result of the comparison, if there is a measured differential pressure equal to or greater than the maximum differential pressure, the control unit 150 decreases the number of rotations of the blower 110 to reduce the amount of supply of the blower 110, It is possible to prevent an accident that a person in the indoor 115 can not open the door 114 due to an overpressure phenomenon in which the differential pressure in the floor-standing auxiliary room 112 of the separated high-rise building becomes higher than the maximum pressure difference, .

On the contrary, if it is determined that there is no measured differential pressure that is equal to or greater than the maximum differential pressure, the control unit 150 maintains the rotational speed of the blower 110 at the current state to keep the supply amount of the blower 110 at the current state, The air supply amount of the blower 110 is increased until the largest value of the air pressure is equal to the maximum differential pressure, It is possible to prevent leakage of smoke into the ancillary room 112 through the door 114 by supplying a leakage amount of outside air that can maintain the air-cooling wind speed.

Referring to FIG. 2, a ventilation system 110 'according to a second embodiment of the present invention operates when a fire occurs in a high-rise building, and supplies outside air to the ventilation line 111 of the high-rise building.

The ventilation system 100 'is installed in each of the floor-related rooms 112 of the high-rise building and is capable of maintaining the air-conditioned air velocity of a predetermined standard set in the ancillary room 112 through an air supply damper 113 connected to the air- The supply amount of the blower 110 is controlled so that the leakage amount and the replenishing amount of outside air are supplied.

The ventilation system 100 'includes a differential pressure sensor 120, a transmitter 130, a receiver 140, a controller 150', an airflow control damper 160, and a damper opening angle control driver 170 .

The differential pressure sensor 120 is installed in at least three or more different layers of the supporting room 112 of the high-rise building to sense the differential pressure between the supporting room 112 and the inside of the room 115, At least three or more different positions are provided in the blowing line 111 of the high-rise building to sense the differential pressure of the blowing line 111 at the installation position and output a differential pressure signal for each sensor installation position.

The transmitter 130 is installed near each of the differential pressure sensors 120 and receives the differential pressure signal of the floor or the differential pressure signal for each sensor installation position and transmits the differential pressure signal to the outside by radio or wire.

The receiver 140 is installed in the vicinity of the blower 110 and receives the floor attendant differential pressure signal or the differential pressure signal according to the sensor installation position from the transmitter 130 wirelessly or wired to be transmitted to the controller 150 ' .

The control unit 150 'is installed in the vicinity of the blower 110. When at least three or more than three adjacent room differential pressure signals or at least three differential pressure signals for the sensor installation positions are received from the receiver 140, The air flow control damper 160 installed at the front of the inlet of the blower 110 so as to supply a leakage amount or a replenishing amount of outside air to maintain the air- And adjusts the opening angle to increase or decrease the amount of air supplied to the blower 110.

The airflow control damper 160 is installed in front of the suction port of the blower 110 to control the suction amount of the outside air flowing into the blower 110 through the suction port by adjusting the opening angle.

The driving unit 170 operates the air volume control damper 160 at a predetermined opening angle in accordance with the opening angle adjusting command of the controller 150 '.

The ventilation system 100 'according to the second embodiment of the present invention configured as above operates as follows.

When a fire occurs, the control unit 150 'compares the measured differential pressure indicated by the differential pressure signal received through the receiver 140 with a predetermined reference differential pressure to determine whether the door 114 is opened or closed in the ancillary room 112 Respectively.

As a result of the comparison, if there is no measured differential pressure below the reference differential pressure among the measured differential pressures, the control unit 150 'determines whether the door 114 is opened or temporarily opened among the floor- It is determined that there is no auxiliary chamber 112 in which the differential pressure fluctuation occurs in accordance with the closing and the measured differential pressures are set to a predetermined minimum differential pressure and a predetermined differential pressure in order to prevent smoke flowing into the auxiliary chamber 112 when the door 114 is closed Respectively.

In this case, instead of comparing all of the measured differential pressures with the minimum differential pressure, in order to quickly detect the differential pressure change, only the measured differential pressure representing the smallest one of the measured differential pressures may be compared with the minimum differential pressure.

At this time, if there is a measured differential pressure lower than the minimum differential pressure among the measured differential pressures, the controller 150 'increases the supply amount of the blower 110 by adjusting the opening angle of the air flow control damper 160, It is possible to prevent the smoke from being introduced into the ancillary room 112 through the door 114 due to the low pressure phenomenon in which the differential pressure in the floor-standing auxiliary room 112 of the tall building remote from the blower 110 is lower than the minimum differential pressure .

Alternatively, if the measured differential pressures are compared with the minimum differential pressure, if there is no measured differential pressure below the minimum differential pressure among the measured differential pressures, the controller 150 'determines whether the measured differential pressures are related to whether the door 114 is open or closed And the maximum differential pressure predetermined so that a person in the indoor space 115 can open the door 114 without having to open the door 114.

In this case, instead of comparing all of the measured differential pressures with the maximum differential pressure, in order to quickly detect the differential pressure change, only the measured differential pressure representing the largest value of the measured differential pressures may be compared with the maximum differential pressure.

As a result of the comparison, if there is a measured differential pressure that is equal to or greater than the maximum differential pressure, the controller 150 'adjusts the opening angle of the airflow control damper 160 to reduce the amount of air supplied to the blower 110, A person in the room 115 can not open the door 114 due to the overpressure phenomenon in which the differential pressure in the floor-standing auxiliary room 112 of the high-rise building remote from the floor 110 is higher than the maximum pressure difference, It can prevent accidents.

On the other hand, if it is determined that there is no measured differential pressure that is equal to or greater than the maximum differential pressure, the control unit 150 'maintains the opening angle of the airflow control damper 160 at the current state and keeps the supply amount of the blower 110 at the current state Or increases the supply amount of the blower 110 until the greatest value of the measured differential pressures becomes the same as the maximum differential pressure. Accordingly, the floor-related auxiliary room 112 of the high-rise building remote from the blower 110, So that the smoke can be prevented from flowing into the ancillary room 112 through the door 114. [0050] As shown in Fig.

On the other hand, when the measured differential pressures are compared with the reference differential pressure, if there is a measured differential pressure lower than the reference differential pressure among the measured differential pressures, the controller 150 ' It is determined that there is an auxiliary chamber 112 in which the differential pressure fluctuation occurs due to the opening of the valve 114 or the temporary opening and then the valve closing again, and the measured differential pressure excluding the measured differential pressure below the reference differential pressure is determined to be smaller than the minimum differential pressure (For example, 70% of the minimum differential pressure).

In this case, instead of comparing all of the remaining measured differential pressures with the set minimum differential pressure, in order to quickly detect the differential pressure change, only the measured differential pressure representing the smallest one of the remaining measured differential pressures may be compared with the set minimum differential pressure have.

At this time, if there is a measured differential pressure less than the set minimum differential pressure among the remaining measured differential pressures, the controller 150 'increases the supply amount of the blower 110 by adjusting the opening angle of the air flow control damper 160, Therefore, when the fire occurs, the smoke is introduced into the ancillary room 112 through the door 114 due to the low pressure phenomenon in which the differential pressure in the floor-specific auxiliary room 112 of the high-rise building remote from the blower 110 becomes lower than the minimum differential pressure .

Alternatively, if the measured differential pressure excluding the measured differential pressure below the reference differential pressure is compared with the set minimum differential pressure, if there is no measured differential pressure that is equal to or lower than the set minimum differential pressure among the remaining measured differential pressures, the controller 150 ' The measured differential pressures are respectively compared with the predetermined maximum differential pressure so that a person in the room 115 can open the door 114 irrespective of whether the door 114 is opened or closed.

In this case, instead of comparing all of the remaining measured differential pressures with the maximum differential pressure, in order to quickly detect the differential pressure change, only the measured differential pressure representing the largest value of the remaining measured differential pressures may be compared with the maximum differential pressure.

As a result of the comparison, if there is a measured differential pressure that is equal to or greater than the maximum differential pressure, the controller 150 'adjusts the opening angle of the airflow control damper 160 to reduce the amount of air supplied to the blower 110, A person in the room 115 can not open the door 114 due to the overpressure phenomenon in which the differential pressure in the floor-standing auxiliary room 112 of the high-rise building remote from the floor 110 is higher than the maximum pressure difference, It can prevent accidents.

On the other hand, if it is determined that there is no measured differential pressure that is equal to or greater than the maximum differential pressure, the control unit 150 'maintains the opening angle of the airflow control damper 160 at the current state and keeps the supply amount of the blower 110 at the current state Or increases the supply amount of the blower 110 until the greatest value of the measured differential pressures becomes the same as the maximum differential pressure. Accordingly, the floor-related auxiliary room 112 of the high-rise building remote from the blower 110, So that the smoke can be prevented from flowing into the ancillary room 112 through the door 114. [0050] As shown in Fig.

The present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The foregoing and / or other aspects of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings, in which: There is a technical spirit to the extent that various changes can be made.

100, 100 ': ventilation system 110: blower
111: air blowing line 112: subsidiary room
113: Supply damper 114: Entrance
115: indoors 120: differential pressure sensor
130: Transmitter 140: Receiver
150, 150 ': Control unit 160: Air volume control damper
170:

Claims (10)

The air blower 110 operates to supply the outside air to the air blowing line 111 of the high-rise building and the air supply damper 113) for controlling a supply amount of the blower (110) so that a leakage amount and a replenishing amount of outside air capable of maintaining a flue gas wind speed of a reference determined as the subsidiary chamber (112) are supplied,
The building 100 is installed in at least three different layers of the floor 112 of the high-rise building to detect a differential pressure between the floor 112 and the floor 115 and output a floor-related differential pressure signal. 111) for detecting differential pressure of the blowing line (111) at an installation position and outputting a differential pressure signal for each sensor installation position;
A transmitter (130) installed near each of the differential pressure sensors (120) for receiving the differential pressure signal of the floor or the differential pressure signal for each sensor installation position and transmitting the pressure difference signal to the outside by radio or wire;
A receiver 140 installed in the vicinity of the blower 110 for receiving the floor-related differential pressure signal or the differential pressure signal according to the sensor installation position from the transmitter 130 by radio or wire and delivering it to the controller 150; And
When at least three or more than three adjacent room differential pressure signals or at least three or more differential pressure signals for the sensor installation positions are received from the receiver 140 based on the measured differential pressures indicated by the differential pressure signals, A controller 150 for increasing or decreasing the number of rotations of the blower 110 to increase or decrease the amount of air supplied to the blower 110 such that a leakage amount or a replenishing amount of outside air capable of maintaining the air- );
Wherein the ventilation system comprises a ventilation system. The apparatus of claim 1, wherein the controller (150)
If there is no measured differential pressure below the reference differential pressure among the measured differential pressures as a result of comparing the measured differential pressures with predetermined reference differential pressures to determine whether the door 114 is open or closed in the ancillary room 112, It is determined that there is no subsidiary room 112 in which the pressure difference fluctuates due to the opening of the door 114 or the temporary opening and closing of the ancillary room 112, Only the measured differential pressure, which is the smallest value among the measured differential pressures, is compared with the minimum differential pressure to prevent smoke flowing into the subsidiary chamber 112. As a result, If there is a measured differential pressure below the minimum differential pressure, increase the number of revolutions of the blower 110 and increase the amount of supply of the blower 110 Ventilation system, characterized in that the. 3. The apparatus of claim 2, wherein the controller (150)
If there is no measured differential pressure below the minimum differential pressure among the measured differential pressures as a result of comparing the measured differential pressures with the minimum differential pressure, 114), or to compare only the measured differential pressure, which is the largest one of the measured differential pressures, with the maximum differential pressure, and if the measured differential pressure is greater than the maximum differential pressure as a result of the comparison, If there is no measured differential pressure equal to or greater than the maximum differential pressure, the rotational speed of the blower 110 is maintained at the current state, and the supply amount of the blower 110 is changed to the current state Or the supply amount of the blower 110 is increased until the largest value of the measured differential pressures becomes equal to the maximum differential pressure. . 3. The apparatus of claim 2, wherein the controller (150)
As a result of comparing the measured differential pressures with the reference differential pressure, if there is a measured differential pressure lower than the reference differential pressure among the measured differential pressures, the gate 114 is opened or temporarily opened among the floor-related supporting rooms 112 of the high- A result of comparing the measured differential pressure except for the measured differential pressure which is equal to or lower than the reference differential pressure to a set minimum differential pressure which is determined to be less than the minimum differential pressure, Only the measured differential pressure representing the smallest one of the remaining measured differential pressures is compared with the set minimum differential pressure and if there is a measured differential pressure that is lower than the predetermined minimum differential pressure among the remaining measured differential pressures, the number of rotations of the blower 110 is increased, And the supply amount of the exhaust gas is increased. 5. The apparatus of claim 4, wherein the controller (150)
If the measured differential pressure is less than the set minimum differential pressure among the remaining measured differential pressures as a result of comparing the measured differential pressure excluding the measured differential pressure below the reference differential pressure to each of the set minimum differential pressures, Only the measured differential pressure, which is the largest of the remaining measured differential pressures, is compared with the maximum differential pressure so that a person in the room 115 can open the door 114, If there is a measured differential pressure equal to or greater than the maximum differential pressure, the number of revolutions of the blower 110 is reduced to reduce the amount of supply of the blower 110. On the contrary, if there is no measured differential pressure greater than the maximum differential pressure, The supply amount of the blower 110 is maintained in the current state or the largest value of the measured differential pressures is the maximum difference And a ventilation system, comprising a step of increasing a feeding amount of the blower (110) until the same size. The air blower 110 operates to supply the outside air to the air blowing line 111 of the high-rise building and the air supply damper 113) for controlling a supply amount of the blower (110) so that a leakage amount capable of maintaining a smokestack air speed of a reference determined by the subsidiary room (112) and a replenishing amount of outside air are supplied,
The building 100 is installed in at least three different layers of the floor 112 of the high-rise building to detect a differential pressure between the floor 112 and the floor 115 and output a floor-related differential pressure signal. 111) for detecting differential pressure of the blowing line (111) at an installation position and outputting a differential pressure signal for each sensor installation position;
A transmitter (130) installed near each of the differential pressure sensors (120) for receiving the differential pressure signal of the floor or the differential pressure signal for each sensor installation position and transmitting the pressure difference signal to the outside by radio or wire;
A receiver 140 installed in the vicinity of the blower 110 for receiving the floor-related differential pressure signal or the differential pressure signal according to the sensor installation position from the transmitter 130 by radio or wire and delivering it to the controller 150;
When at least three or more than three adjacent room differential pressure signals or at least three or more differential pressure signals for the sensor installation positions are received from the receiver 140 based on the measured differential pressures indicated by the differential pressure signals, The opening angle of the air flow control damper 160 installed in front of the inlet of the blower 110 is adjusted so as to supply a leakage amount or a replenishing amount of outside air that can maintain the air flow wind speed of the standard determined by the layered subsidiary room 112 of the high- A control unit 150 'for increasing or decreasing a supply amount of the refrigerant;
An air flow control damper 160 installed in front of a suction port of the blower 110 to increase or decrease the suction amount of the outside air flowing into the blower 110 through the suction port by adjusting the opening angle; And
A driver 170 for operating the airflow control damper 160 at a predetermined opening angle according to an opening angle adjusting command of the controller 150 ';
Wherein the ventilation system comprises a ventilation system. 7. The apparatus of claim 6, wherein the controller (150 ') comprises:
If there is no measured differential pressure below the reference differential pressure among the measured differential pressures as a result of comparing the measured differential pressures with predetermined reference differential pressures to determine whether the door 114 is open or closed in the ancillary room 112, It is determined that there is no subsidiary room 112 in which the pressure difference fluctuates due to the opening of the door 114 or the temporary opening and closing of the ancillary room 112, Only the measured differential pressure, which is the smallest value among the measured differential pressures, is compared with the minimum differential pressure to prevent smoke flowing into the subsidiary chamber 112. As a result, If there is a measured differential pressure less than the minimum differential pressure, the opening angle of the air flow control damper 160 is adjusted, Ventilation system, characterized in that to increase the amount. 8. The apparatus of claim 7, wherein the controller 150 '
If there is no measured differential pressure below the minimum differential pressure among the measured differential pressures as a result of comparing the measured differential pressures with the minimum differential pressure, 114) is compared with a predetermined maximum differential pressure, or only a measured differential pressure representing the largest value of the measured differential pressures is compared with the maximum differential pressure, and if the measured differential pressure is equal to or greater than the maximum differential pressure, If the measured differential pressure is not higher than the maximum differential pressure, the open angle of the air flow control damper 160 is maintained at the current state to adjust the opening angle of the blower 110, The supply amount of the blower 110 is maintained at the present state or until the largest value of the measured differential pressures becomes equal to the maximum differential pressure Ventilation systems, comprising a step of increasing the amount. 8. The apparatus of claim 7, wherein the controller 150 '
As a result of comparing the measured differential pressures with the reference differential pressure, if there is a measured differential pressure lower than the reference differential pressure among the measured differential pressures, the gate 114 is opened or temporarily opened among the floor-related supporting rooms 112 of the high- A result of comparing the measured differential pressure except for the measured differential pressure which is equal to or lower than the reference differential pressure to a set minimum differential pressure which is determined to be less than the minimum differential pressure, Only the measured differential pressure representing the smallest value among the remaining measured differential pressures is compared with the set minimum differential pressure, and if there is a measured differential pressure that is lower than the set minimum differential pressure among the remaining measured differential pressures, the opening angle of the air flow control damper 160 is adjusted And increases the supply amount of the blower (110) System. 10. The apparatus of claim 9, wherein the controller 150 '
If the measured differential pressure is less than the set minimum differential pressure among the remaining measured differential pressures as a result of comparing the measured differential pressure excluding the measured differential pressure below the reference differential pressure to each of the set minimum differential pressures, Only the measured differential pressure, which is the largest of the remaining measured differential pressures, is compared with the maximum differential pressure so that a person in the room 115 can open the door 114, If there is a measured differential pressure that is equal to or greater than the maximum differential pressure, the supply amount of the blower 110 is reduced by adjusting the opening angle of the air flow control damper 160. On the other hand, if there is no measured differential pressure greater than the maximum differential pressure, It is possible to maintain the open angle at the current state and keep the supply amount of the blower 110 at the current state, The largest value is the maximum differential pressure and ventilation system, comprising a step of increasing a feeding amount of the blower (110) until the size of the same.

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