KR101044021B1 - Control method of an apparatus for forming limited area - Google Patents

Abstract

The present invention relates to a control method of the smoke forming area forming apparatus, and more particularly, in the event of a fire, the fire door is closed between the indoor space and the evacuation stairs to close the entire room, and the air supply damper is forced to supply the outside air to the entire room. Smoke control zone forming apparatus configured to prevent the toxic gas generated by the fire generated in the indoor space by air pressure difference from entering and diffusing into the chamber and evacuation stairs by making the internal pressure of all rooms relatively higher than the evacuation stairs or indoor space. In particular, the control method of the present invention relates to a control method of the smoke control zone forming apparatus configured to achieve a stable closing of the fire door by suppressing the occurrence of the closing resistance against the closing force of the fire door by temporarily depressurizing the entire room during the closing of the fire door.

Ventilation area forming device, air supply damper, pressurization, temporary decompression, automatic ventilation window, all rooms

Description

Control method of an apparatus for forming a ventilation area {Control method of an apparatus for forming limited area}

The present invention relates to a control method of the smoke forming area forming apparatus, and more particularly, in the event of a fire, the fire door is closed between the indoor space and the evacuation stairs to close the entire room, and the air supply damper is forced to supply the outside air to the entire room. Smoke control zone forming apparatus configured to prevent the toxic gas generated by the fire generated in the indoor space by air pressure difference from entering and diffusing into the chamber and evacuation stairs by making the internal pressure of all rooms relatively higher than the evacuation stairs or indoor space. In particular, the control method of the present invention relates to a control method of the smoke control zone forming apparatus configured to achieve a stable closing of the fire door by suppressing the occurrence of the closing resistance against the closing force of the fire door by temporarily depressurizing the entire room during the closing of the fire door.

As is well known, all rooms are provided between apartments and high-rise public buildings between the indoor space and the evacuation stairs, which are open during non-fire and communicate with the outside and all rooms, and are closed in case of fire to close the outside and all rooms. With automatic ventilation window; An air supply damper for supplying outside air to increase the internal pressure of the entire chamber when a fire occurs; A fire door installed between the front chamber and the evacuation stairs; An automatic closing device comprising a closure part for providing a closing force of the fire door and a stopper part for suppressing the closing force of the closure part; And a control unit configured to control driving of the automatic ventilation window, the air supply damper, and the automatic closing device.

By the smoke forming apparatus, when a fire occurs indoors, the entire chamber is closed and at the same time, the internal pressure is increased to 50 Pa or more by the air supply action by the air supply damper. This prevents gas from entering the chamber and evacuation stairs.

In detail, when a fire occurrence is detected in one of the indoor spaces provided on each floor, the control unit closes the open automatic ventilation window and supplies the outside air through the air supply damper to increase the internal pressure of the entire room, and at the same time, the stopper of the automatic closing device. The fire door is closed by the closing force of the closure part by releasing the stopping state of the fire door installed between the front chamber and the evacuation stairs by the unit, thereby forming the front chamber formed between the indoor space and the evacuation stairs as the ventilation area.

However, the fire doors closing the front chamber and the evacuation stairs are closed by rotation in a pressurized state by the air supply of the air supply damper, so that the fire doors are immediately closed, that is, the opening angle of the fire doors is 5 ° to 15. The closing resistance is generated between the fire door and the internal pressure of the room, which is raised above 35 Pa.

When the closing resistance is generated between the closed fire door and the internal pressure of the elevated front room, it is difficult to close the fire door through the closing force of the closure of the automatic closing device. Thus, if the fire door is not completely closed, the toxic generated in the indoor space Gas flows into the evacuation stairs through all the rooms, making it impossible to secure a stable evacuation route.

Particularly, in the case of the high-rise building, the ventilation zone forming device is provided with air in one blower, and the air supplied is supplied to each room through an air supply damper installed in each floor, so that the amount of wind supplied to each room is For example, when the air supply damper is fully opened than the middle floor, the air is supplied 1.5 times as much as the bottom floor or the top floor.

This phenomenon causes the problem that the pressure in the ventilation zone cannot be formed stably because the fire door with the automatic closing device is not completely closed when the ventilation zone forming apparatus is operated due to the excessive wind volume, that is, the internal pressure of the front chamber is excessively increased. .

In this field, the fire door is stabilized by the closing resistance through the closing force of the closure portion and the closing force provided in addition to the closure structure. It is overcoming the phenomenon of not closing.

However, the provision of an additional force structure in such a closure not only increases the cost associated with manufacturing and construction, but also opens the fire door through manual operation in the event of non-fire due to the closing force provided by the force structure. The difficult problems are pointed out, and various complaints are being raised by these problems.

An object of the present invention devised to solve the above problems, the closing force of the closing portion of the automatic closing device to overcome the closing resistance generated between the internal pressure of the front chamber raised to 50Pa or more in the closing process of the fire door and the fire door is closed It is to provide a control method of the smoke control zone forming apparatus configured to achieve a stable closing of the fire door by instantaneously reducing the internal pressure of the front chamber itself without adding a force structure to increase the.

The above object is achieved by the following configuration provided in the present invention.

The control method of the smoke forming area forming apparatus according to the present invention,

An automatic ventilation window that is opened in a non-fire to communicate with the outside and the entire room, and is closed during a fire to close the outside and the entire room; An air supply damper for supplying the outside air supplied through the blower into the room during a fire to increase the internal pressure of the room; A fire door installed between the front chamber and the evacuation stairs; An automatic closing device comprising a closure part for providing a closing force of the fire door and a stopper part for restraining the fire door in an open state; And a control unit for controlling driving of the air supply damper, the automatic ventilation window, and the automatic closing device.

Detecting, by the controller, a fire occurrence through a fire detector installed in an indoor space of each floor; A pressurizing step of the control unit detecting the fire occurrence to close the open automatic ventilation window and supply the outside air to all the rooms through the air supply dampers installed in the front rooms of each floor to increase the internal pressure of the entire room; A release step of the control unit releasing the restraint state of the fire door by the stopper by operating the automatic closing device of each floor so that the fire door is closed by the closing force of the closure unit; In the closing process of the fire door through the closure part, the control unit temporarily stops the air supply damper for the air supply action of all rooms or temporarily opens the automatic ventilation window, thereby temporarily depressurizing the internal pressure of the whole room raised by the air supply action of the air supply damper, A temporary decompression step of reducing the closing resistance generated between the fire door and the internal pressure of the front chamber; And a repressurizing step of driving the stationary air supply damper and closing the open automatic ventilation window to increase the internal pressure of the entire room through the air supply of the air supply damper when the control unit closes the fire door.

Through the depressurization step, the closing resistance generated between the internal pressure of the front chamber raised by the air supply action of the air supply damper and the fire door requiring closing is temporarily reduced by the supply air stopper stopped by the air supply damper, or by the temporarily opened automatic ventilation window. The fire door is characterized in that it is configured to be closed stably without a closing resistance.

Preferably, in the depressurization step, when the internal pressure of the front chamber reaches 20 Pa to 35 Pa by the air supply damper, the control unit senses the pressure through the pressure sensor and pauses the air supply damper for 0.5 seconds to 3 seconds or the automatic ventilation window is 0.5. By temporarily opening for seconds to 3 seconds, the entire chamber is configured to form a momentary depressurization state.

In another embodiment, in the depressurization step, when the opening angle of the fire door is closed, the opening angle of the fire door reaches 5 ° to 15 °, the control unit detects it through an angle measuring sensor for 0.5 seconds to 3 seconds. By pausing or temporarily opening the automatic ventilation window for 0.5 to 3 seconds, the entire room is configured to form a momentary depressurization state.

As described above, in the present invention, in order to solve the problem that the fire door is not closed stably by the closing resistance of the fire door generated between the internal pressure of the front chamber pressurized by the air supply action of the fire door and the air supply damper, the generation of the closing resistance It provides a control method of the smoke control area forming device configured to reduce the internal pressure of the front chamber, which is the cause, to achieve a stable closing of the fire door.

In the control method of the apparatus for forming a ventilation zone according to the present invention configured as described above, since the installation of the force device is not required in the automatic closure, it is expected to simplify the structure and reduce the associated costs.

In particular, it is possible to integrate and control the air supply damper, the automatic closing device and the automatic ventilation window which are currently operated independently, and to ensure the fire door with the automatic closing device installed regardless of the change in the air supply amount supplied from the air supply damper and the construction of the fire door. Since it is closed, the differential pressure 50Pa can be stably formed in the front chamber which is a ventilation area.

In addition, when a stable differential pressure of the chamber is formed as described above, inflow and diffusion of toxic gas into the chamber and the evacuation stairs, which are the ventilation areas, can be prevented, thereby minimizing human injury due to the toxic gas through securing a safe evacuation stairs.

Hereinafter, with reference to the accompanying drawings will be described in detail the control method of the smoke forming area forming apparatus proposed as a preferred embodiment in the present invention.

1 is a view showing the overall configuration of a smoke forming area forming apparatus is implemented control method according to the present invention, Figure 2 is a smoke forming area forming apparatus implemented a control method according to the present invention, the installation state of the air supply damper and blower To show.

The ventilation zone forming apparatus 1 driven by the control method according to the present invention is opened in a non-fire as shown in FIGS. 1 and 2, and communicates with the outside and the entire chamber 120 to be ventilated, and closed in the event of a fire. And automatic ventilation window 20 for closing the front chamber 120; An air supply damper 10 which increases the internal pressure of the front chamber 120 by supplying the outside air supplied through the blower 11 to the front chamber when a fire occurs; A fire door (40) installed between the front chamber (120) and the evacuation stairs (130); An automatic closing device (30) including a closure part for providing a closing force of the fire door (40) and a stopper part for restraining the fire door (40) in an open state; And a controller 50 for controlling the driving of the air supply damper 10, the automatic ventilation window 20, and the automatic closing device 30.

In the smoke forming area forming apparatus 1 configured as described above, if a fire occurrence is detected through the fire detector 51 in any one of the indoor spaces 110 provided on each floor, the controller 50 is opened. Close the automatic ventilation window 20 and supply the outside air into the front chamber 120 through the air supply damper 10 to increase the internal pressure of the front chamber 120, and the front chamber by the stopper part of the automatic closing device 30 ( By releasing the restraint state of the fire door 40 installed between the 120 and the evacuation stairs 130 to close the fire door 40 by the closing force of the closure, between the interior space 110 and the evacuation stairs 130 It is to form a smoke control area consisting of the front chamber 120 is formed with a higher internal pressure than the interior space 110 and evacuation stairs (130).

When the front chamber 120 is formed as a ventilation area, the toxic gas generated by the fire of the interior space 110 flows into the front chamber 120 by the pressure difference between the interior space 110 and the front chamber 120. Since it is not diffused, the phenomenon that the toxic gas is introduced and diffused to the evacuation step 130 is prevented.

Here, the air supply damper 10 measures the pressure difference between the front chamber 120 and the outside through the detection of the pressure sensor 12 and the control of the control unit 50, and the outside air blown through the blower 11 in all rooms It is supplied to the inside 120 to increase and maintain the internal pressure of the front chamber 120, the automatic closing device 30 is constrained by the stopper part and the stopper to physically restrain the fire door 40 to maintain the open state It is configured to include a closure for providing a closing force of the fire door 40, the automatic ventilation window 20 is to be opened and closed by the electrical signal by the control unit 50, all of which are known articles.

In the present embodiment, however, the method of controlling the driving of the ventilation zone forming apparatus 1 is improved to improve the internal pressure of the front chamber 120 raised by the air supply action of the air supply damper 10 and the fire door 40 requiring closing. By closing the resistance generated in the instantaneous, the fire resistance door 40 is not completely closed by the closing resistance to solve the problem that the stable ventilation area is not easily solved, which is intended to be the technical gist of the present application. Doing.

Figure 3 is a flow chart showing the overall flow of the control method of the smoke forming area forming apparatus according to the present invention, Figure 4 shows a working state of the smoke forming area forming apparatus according to the control method of the smoke forming area forming apparatus according to the present invention. will be.

On the other hand, the control method of the smoke control zone forming apparatus according to the present invention with reference to Figures 3 and 4, first, in the state of Figures 3 and 4a the control unit 50 is installed in the interior space 110 of each floor fire The fire detection is detected through the detector 51.

Thereafter, the control unit 50 that detects the occurrence of a fire through the fire detector 51 is connected to the outside air through the air supply damper 10 installed in the front room 120 of each floor as shown in FIGS. 3 and 4B. Air supply increases the internal pressure of the front chamber 120, operates the automatic closing device 30 on each floor, releases the restraint state of the fire door 40 by the stopper part, and closes the fire door 40 by the closing force of the closure part. It will implement the closing action of.

During this process, as shown in FIG. 4B, a closing resistance is generated between the internal pressure of the front chamber 120 raised by the air supply action of the air supply damper 10 and the fire door 40 requiring the closing, and the air supply damper 10 according to the present invention. By temporarily supplying the internal pressure of the front chamber 120 raised by the air supply action of the instantaneously, the stable closing of the fire door 40 is implemented.

As a method of temporarily depressurizing the front chamber according to the present embodiment, a method of temporarily stopping the air supply damper 10 as shown in FIGS. 3 and 4C, and temporarily opening the automatic ventilation window 20 for communicating the front chamber 120 with the outside temporarily The method can be adopted, and if necessary, both of them can be used in combination to instantly reduce the internal pressure of the front chamber.

As such, when the internal pressure of the front chamber 120 is depressurized momentarily, the closing resistance that prevents the closing of the fire door 40 may be canceled, and the fire door 40 may be stably closed by the closing force provided through the closure part. have.

Here, the formation of the depressurized state of the front chamber 120 can be controlled by measuring the internal pressure of the front chamber 120 as described later, and also by the measurement of the opening angle A of the fire door 40. Do.

First, when the internal pressure of the front chamber 120 reaches 20 Pa to 35 Pa by the air supply damper 10, the controller 50 controls the pressure through the pressure sensor 12. By sensing the air supply damper 10 is paused for 0.5 seconds to 3 seconds or by temporarily opening the automatic ventilation window 20 for 0.5 seconds to 3 seconds, the entire chamber 120 is temporarily depressurized.

Then, the formation of the temporary depressurization state through the measurement of the opening angle of the fire door 40 is such that when the opening angle A of the fire door 40 to be closed reaches 5 ° to 15 ° as shown in FIG. 4B, the control unit 50 Detects this through the angle measuring sensor 31 to temporarily stop the air supply damper 10 for 0.5 seconds to 3 seconds or temporarily open the automatic ventilation window 20 for 0.5 seconds to 3 seconds, thereby temporarily opening the entire room 120. To temporarily depressurize.

When the decompression of the front chamber is made by the instantaneous pressurization of the front chamber 120, the fire door 40 is stably closed without a closing resistance as shown in FIG. 4C. After that, when the closing of the fire door 40 is completed, the control unit 50 is closed. 3 and 4d reactivate the paused air supply damper 10 or reclose the temporarily opened automatic ventilation window 20 to inflow external air into the chamber 120 through the air supply of the air supply damper 10. The internal pressure of the front chamber 120 is raised again to 50 Pa or more, thereby stably forming a ventilation zone.

Figure 1 shows the overall configuration of the smoke forming area forming apparatus is implemented the control method according to the present invention,

2 is a view illustrating an installation state of an air supply damper and a blower in an apparatus for forming a ventilation zone in which a control method according to the present invention is implemented,

3 is a flow chart showing the overall flow of the control method of the apparatus for forming a smoke control zone according to the present invention;

4 is a view schematically showing an operation state of the smoke forming area forming apparatus according to the control method of the smoke forming area forming apparatus according to the present invention.

**** Explanation of symbols for the main parts of the drawing ****

1. Smoke forming device

10. Air supply damper 11. Blower

12. Pressure sensor

20. Automatic ventilation window

30. Automatic closing 31. Angle measuring sensor

40. Fire door

50. Control unit 51. Smoke detector

110. Indoor space 120. All rooms

130. Evacuation Stairs

Claims (6)

An air supply damper for supplying the outside air supplied through the blower into the room during a fire to increase the internal pressure of the room; A fire door installed between the front chamber and the evacuation stairs; An automatic closing device comprising a closure part for providing a closing force of the fire door and a stopper part for restraining the fire door in an open state; And a control part for controlling the driving of the air supply damper and the automatic closing device. Detecting, by the controller, a fire occurrence through a fire detector installed in an indoor space of each floor; A pressurizing step of detecting, by the control unit, the fire occurrence, to increase the internal pressure of all the chambers by supplying the outside air to all the chambers through the air supply dampers installed in the front chambers of each floor; A release step of the control unit activating the closing action of the fire door by closing force of the door by releasing the restraint state of the fire door by the stopper by operating the automatic closing device of each floor; During the closing operation of the fire door through the closure part, the control unit temporarily stops the operation of the air supply damper for supplying air to the entire chamber, and instantly depressurizes the internal pressure of the whole room raised by the air supply action of the air supply damper to close the fire door. A temporary decompression step of reducing the closing resistance generated between the internal pressure and the front chamber; And re-pressurizing the control unit to restart the stopped air supply damper when the closing of the fire door is completed, thereby re-increasing the internal pressure of the entire chamber through the air supply of the air supply damper. Through the depressurization step, the closing resistance generated between the internal pressure of the entire chamber raised by the air supply action of the air supply damper and the fire door requiring closing is temporarily reduced by the pause of the air supply damper, and the fire door is closed stably without the closing resistance. Control method of the smoke forming area forming device, characterized in that configured to. The method of claim 1, wherein in the depressurization step, when the internal pressure of the front chamber reaches 20 Pa to 35 Pa by the air supply damper, the control unit senses it through a pressure sensor and pauses the air supply damper for 0.5 seconds to 3 seconds to temporarily stop the entire room. A control method for a smoke control section forming apparatus, characterized in that it is configured to form a depressurized state. The method of claim 1, wherein in the depressurization step, when the opening angle of the fire door is closed, the opening angle of the fire door reaches 5 ° to 15 °, the control unit detects it by using an angle measuring sensor to detect the air supply damper for 0.5 seconds to 3 seconds. A control method of a smoke control section forming apparatus, characterized in that the temporary stop to form a temporary decompression state of the entire room. An automatic ventilation window that is opened in a non-fire to communicate with the outside and the entire room, and is closed during a fire to close the outside and the entire room; An air supply damper for supplying the outside air supplied through the blower into the room during a fire to increase the internal pressure of the room; A fire door installed between the front chamber and the evacuation stairs; An automatic closing device comprising a closure part for providing a closing force of the fire door and a stopper part for restraining the fire door in an open state; And a control unit for controlling driving of the air supply damper, the automatic ventilation window, and the automatic closing device. Detecting, by the controller, a fire occurrence through a fire detector installed in an indoor space of each floor; A pressurizing step of the control unit detecting the fire occurrence to close the open automatic ventilation window and supply the outside air to all the rooms through the air supply dampers installed in the front rooms of each floor to increase the internal pressure of the entire room; A release step of the control unit releasing the restraint state of the fire door by the stopper by operating the automatic closing device of each floor so that the fire door is closed by the closing force of the closure unit; During the closing of the fire door through the closure part, the control unit temporarily opens the automatic ventilation window to instantly depressurize the internal pressure raised by the air supply of the air supply damper, thereby reducing the closing resistance generated between the closed fire door and the internal pressure of the electric room. Temporarily depressurizing step; And when the control unit is closed the fire door is configured to include a re-pressurizing step of closing the open automatic ventilation window to increase the internal pressure of the entire room through the air supply of the air supply damper, Through the depressurization step, the closing resistance generated between the internal pressure of the front chamber raised by the air supply of the air supply damper and the fire door requiring closing is temporarily reduced by the automatic ventilation window opened temporarily, so that the fire door is closed stably without the closing resistance. Control method of the smoke forming area forming apparatus characterized in that the configuration. The method of claim 4, wherein, in the depressurization step, when the internal pressure of the front chamber reaches 20 Pa to 35 Pa by the air supply damper, the control unit detects it through a pressure sensor and temporarily opens the automatic ventilation window for 0.5 seconds to 3 seconds, A control method for a smoke forming area forming apparatus, characterized in that it is configured to form a temporary depressurization state. The method according to claim 4, wherein in the depressurization step, when the opening angle of the fire door is closed, the opening angle of the fire door reaches 5 ° to 15 °, the control unit detects it by using an angle measuring sensor for 0.5 seconds to 3 seconds. A method of controlling a smoke forming area forming apparatus, characterized in that the temporary opening is performed to form a temporary depressurization state of the entire chamber.

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