KR101185801B1 - Firefighting damper system of high-rise building - Google Patents

Abstract

PURPOSE: A firefighting damper system for a multistory building is provided to prevent fire smoke form spreading to all floors. CONSTITUTION: A firefighting damper system for a multistory building comprises a speed reduction motor(100), a rotating rod(115), first and second chain gears(120), first and second bearing parts(130,140), first and second rope chains(160,160-1), a screen part(200), first and second lower chain gears(210,220), a lower rotating rod(215), and a second lower bearing part(240). The speed reduction motor simultaneously opens and closes a plurality of air supply outlets. The rotating rod transfers the power of the speed reduction motor. The first and the second bearing part support the rotating rod to rotate in one side and the other side. The first and second rope chains go in gear with the first and second chain gears. A plurality of opening and closing parts is coupled with the screen part.

Description

Firefighting Damper System of High-rise Buildings {Firefighting Damper System of High-rise Building}

The present invention relates to a smoke control damper system of a high-rise building installed in an air supply duct or an exhaust duct of an apartment, an officetel, or the like. In general, the smoke control damper installed in the air supply duct or the discharge duct is composed of a blade for opening or closing a flow path of smoke in a duct installed separately in each floor, a motor for operating the blade, and a controller for controlling the operation of the motor. Will be. The damping damper system configured as described above is effective to allow the blades to fully open or completely close the flow path of the air supply duct or the discharge duct at the same time, and in general, the air supply duct crosses the blades normally to close the flow path. In the city, the blades of all the air supply ducts are opened to allow the outside air to flow into the room, so that the air pressure in the evacuation staircase is positive to prevent the fire smoke from spreading to the entire floor.

Conventional high-rise building smoke dampers associated with the present invention are disclosed in Utility Model Registration No. 20-0393245. 1 is an overall configuration diagram of a smoke suppression damper of a conventional high-rise building, and FIG. 2 is a partially enlarged view of a vicinity of an air supply port. 1 to 2 of the conventional high-rise building smoke damper has a vertical wind 31 to connect the roof and the basement of the high-rise building, has a blower 37 for blowing air to the roof or basement floor, The vertical air duct 31 has a vertical duct 32 inside the building, and each floor of the building has an air supply 33 connected to the vertical duct 32, and an opening and closing wing installed in the air supply 33 In the smoke control device for supplying fresh outside air to the smoke control area 11 in case of fire through the damper 35 having a 34, the air is placed above the space 38 between the vertical wind 31 and the vertical duct 32. Has an upper atmospheric pressure conduction pipe 39 is connected to the lower portion of the space 38 to form a lower atmospheric pressure conduction pipe 40 is connected to the atmosphere, the space portion 38 inside the vertical wind (31) in the building Atmospheric pressure equal to that of the outside of the space is generated, and each part of the space in the vertical wind (31) An atmospheric pressure detecting tube 24 for each floor detecting the air pressure of the 38 is connected to the differential pressure sensor 25, and the differential pressure sensor 25 is a ventilation zone air pressure detecting tube 26 for detecting the air pressure in the ventilation area 11. ) Is connected to the air pressure of the space portion 38 in the vertical wind pressure 31 acting at atmospheric pressure, and is configured to detect the air pressure difference in the ventilation area. In addition, when the differential pressure sensor 25 is installed in the upper end of the damper 35, it is not necessary to prepare a separate space for installing the differential pressure sensor 25, it is possible to simply install the differential pressure sensor 25. In addition, the space 38 between the vertical wind 31 and the vertical duct 32 in the sleeve 40 that is pre-installed in the air supply 33 in order to install the damper 35 in the air supply 33. The atmospheric pressure chamber 27 to which the air pressure acts, and the atmospheric pressure sensing tube 24 connected to the differential pressure sensor 25 mounted on the upper end of the damper 35 mounted on the sleeve 40 is connected to the atmospheric pressure chamber 27. To connect with. The action of the conventional smoke control damper is that when the fire is detected by the fire detector or smoke detector when the building fire occurs, the fire door between the smoke control area 11 and the stairs of each floor of the building is automatically closed, the vertical wind (31) The opening and closing wing actuator 36 of the damper 35 mounted on the air supply 33 connected to the vertical duct 32 installed in the inner side is operated to open and open the opening wing and at the same time installed on the roof or basement floor. The blower 37 operates to blow the fresh air from the outside air into the ventilation area 11 through the air supply 33 on each floor through the vertical duct 32 to increase the air pressure in the ventilation area 11. Will be. This prevents smoke or toxic gas from the fire room from entering the smoke control area and prevents smoke or toxic gas from spreading through the stairs (evacuation stairs) to the entire building. In this way, the amount of air (air pressure) introduced into the ventilation area 11 through the air supply 33 is controlled by a damper 35 mounted at the inlet of the air supply 33, and the ventilation area ( 11) the fresh air flowing into the damper 35 maintains the air pressure of the ventilation area 11 at a pressure of 40 Pa to 60 Pa (Pascals) higher than the atmospheric pressure based on the atmospheric pressure corresponding to the ventilation area 11 and its layers. ) Will work. That is, when the differential pressure sensor 25 detects the ventilation zone 11 and the atmospheric pressure and the air pressure in the ventilation zone 11 is about 60 Pa (Pascals) higher than the atmospheric pressure, the damper 35 is formed. The opening and closing of the wing 34 is closed to stop the inflow of external air into the ventilation area 11, the damper 35 when the differential pressure between the air pressure and atmospheric pressure of the ventilation area 11 is maintained below 40 Pa (Pascals) Opening and closing wing 34 of the operation is to supply fresh air to the ventilation area 11 through the air supply 33 to increase the air pressure of the ventilation area (11). In addition, the opening and closing wing actuator 36 for operating the opening and closing wing 34 of the damper 35 is connected to the differential pressure sensor 25 is opened and closed within the set air differential pressure range or automatically opened and closed operation by the fire detector You lose. Thus, in order to detect the atmospheric pressure and the air differential pressure in the smoke control area (11) in the present design usually has a vertical wind (31) connecting the rooftop and basement floor, the vertical wind (31) to the smoke control area of each layer (11) In the ventilation equipment installed with a vertical duct (32) for supplying fresh air, the upper air conduction pipe (39) is provided on the roof top of the vertical wind (31), which is connected to the atmosphere below the vertical wind (31) The lower atmospheric pressure conduction pipe 40 is provided so that the same atmospheric pressure as the outside of the building acts on the space 38 in the vertical wind 31, and the air pressure sensing tube 24 for each floor is placed on the vertical wind 31. And the space portion 38 of the vertical duct 32, the atmospheric pressure sensing tube 24 for each floor is connected to the differential pressure sensor 25, and the differential pressure sensor 25 has a By connecting the air pressure detecting pipe (26) for detecting the air pressure, the smoke control area (11) and The atmospheric pressure in the vertical winds 31 is compared, and the differential pressure is detected, and the detected degree of air differential is sent to the opening / closing vane actuator 36 of the damper 35 attached to the air supply mechanism 33 to transmit the damper 35. It will open and close.

Conventional high-rise building dehumidification dampers constructed as described above, the opening and closing wing actuators are installed on each floor, so the dehumidification dampers operate individually, so the installation cost is excessive, and the higher the building, the greater the number of installation of the dehumidification dampers, the individual failure points. There is a problem that increases. Therefore, the purpose of the smoke suppression damper system of the high-rise building of the present invention is to simultaneously operate the smoke suppression dampers installed in each floor. In addition, the smoke suppression damper of the high-rise building of the present invention is for the purpose of facilitating maintenance, and also to reduce the installation cost.

The smoke damping system of the present invention high-rise building having the above object is a reduction gear motor 9100 installed on the top floor of a high-rise building, and two first chain gears 110 for transmitting power in conjunction with the motor shaft of the reduction motor. And a second driven gear 120 and an upper driven rotary part 150 having a rotating rod 115, a first bearing 130 for smoothly rotating the rotating rod 115 of the upper driven rotating part 150, and The air supply unit 170 is connected to the second bearing unit 140 and the two first chain gears 110 and the second chain gears 120 by rope chains 160 which are interlocked with each other. The screen unit 200 is provided with a plurality of opening and closing portion 180 of the iron plate for opening and closing, the guide rail 190 for guiding the rope chain 160 of the one side, and installed in the lower part of the high-rise building and the rope chain Drives to hold and rotate at the bottom and lower first chain gear 210 A lower driven rotating part 250 including a lower second chain gear 220 and a lower rotating bar 215, and a lower first bearing part for smoothly rotating the lower rotating bar 215 of the lower driven rotating part 250. 230 and the lower second bearing portion 240 is characterized in that. The damping damper system of the high-rise building of the present invention configured as described above includes a plurality of openings and closing parts formed of a plurality of steel plates installed in the rope chain 160 rotating a predetermined range in a clockwise and counterclockwise direction by the forward and reverse of the reduction motor 100 ( By moving up and down the screen portion 200 composed of 180 to be able to open and close the air supply 170 configured on each floor of the building at the same time.

The damping damper of the present invention high-rise building is configured as described above can be opened and closed at the same time the air inlet or outlet installed on each floor will have a reliable effect of operation. In addition, the smoke control damper of the high-rise building of the present invention comprises a screen unit connecting the air supply or discharge port of each floor to the rope chain, and the installation cost is reduced by opening and closing the air supply or discharge port by moving the screen portion up and down by one reduction motor. It is easy to maintain and reduce the number of failure points. In addition, the smoke control damper of the high-rise building of the present invention has the effect that can be fully opened and closed at the same time by the screen portion of the air inlet or outlet.

1 is a cross-sectional view of a smoke damper of a conventional high-rise building,
Figure 2 is an enlarged view of the smoke control damper air supply portion of a conventional high-rise building,
FIG. 3 is an overall configuration diagram of a closed screen portion of a smoke damper system according to a first embodiment of the present invention high-rise building; FIG.
4 is an enlarged view of a portion A of FIG. 3 according to the first embodiment of the present invention;
5 is a configuration diagram of the air supply opening is opened by the screen portion of the smoke damper system of the first embodiment of the present invention high-rise building,
Figure 6 is a side configuration diagram of the smoke control damper system of the present invention high-rise building,
7 is an overall configuration diagram of a screen portion of the second embodiment of the present invention high-rise building smoke damper system is closed;
8 is a control block diagram of the smoke control damper system of a high-rise building of the present invention.

The damping damper system of the present invention high-rise building having the above object will be described with reference to FIGS. 3 to 8.

3 is an overall configuration diagram of the air supply of the first embodiment of the high-rise building ventilation damper system is closed. In FIG. 3, the first embodiment smoke damper system of the high-rise building of the present invention includes a vertical duct 400 configured inside the vertical passage of an apartment or an officetel building and an air supply 170 for each floor on one side of the vertical duct 400. Installed to supply fresh air through the air supply unit 170 and the vertical duct 400, or in the event of a fire by supplying air to the ventilation area connected to each air supply unit 170 by a blower, the smoke leaks out of the combustion area It is not to me. The present invention is to open and close the air supply 170 temporarily in a high-rise building equipped with a vertical duct 400 and the air supply 170 provided for each floor configured as described above to one side space of the vertical duct in the vertical passage It is installed in the deceleration motor 100 for conveying the screen portion 200 made of steel plate or the like up and down, and to transfer the power of the reduction motor 100 to the upper driven rotating part 150 to the motor shaft A rotating rod 115 that interlocks, a first chain gear 110 and a second chain gear 120 configured to be spaced apart from the rotating rod 115 by a predetermined distance, and a first supporting the rotating rod 115 at both ends. The first rope chain 160 and the circle shape of a circle shape rotating in engagement with the bearing portion 130 and the second bearing portion 140, respectively, the first chain gear 110 and the second chain gear 120. Second rope chain 160-1, one side of the first rope chain 160, and the second Screen portion 200 which is configured to be horizontally at intervals between one side of the rope chain (160-1) to which a plurality of opening and closing portion 180 made of steel plates and the like to open and close the air supply 170 of each layer and The lower first chain gear 210 and the lower second chain for supporting and rotating the other ends of the first rope chain 160 and the second rope chain 160-1 at the lowest floor of the vertical passage of the high-rise building. A lower driven rotary part 250 composed of a gear 220, a lower rotating rod 215 engaged with the lower first chain gear 210 and a lower second chain gear 220, and rotating the lower rotating rod 215. The lower first bearing part 230 and the lower second bearing part 240 which are configured on both sides of the lower rotating rod to support it. In order to open and close the air supply 170 of each layer in the above includes an opening and closing portion 180 consisting of a plurality of iron plate or the like fastened between one side of the first rope chain 160 and the second rope chain (160-1). If the vertical movement distance of the screen unit 200 is longer than the longitudinal length of the air supply unit 170, the air supply unit can be opened and closed sufficiently, and each opening / closing unit 180 of the air supply unit 170 can be opened and closed completely. It is preferable to configure larger than the size, and also the upper limit switch 310 at the maximum rising point or the maximum falling point of the screen portion 200 in order to limit the vertical movement range of the screen portion 200 to a sufficient degree to fully open and close the air supply. ) And the lower limit switch 320 on both sides of the vertical duct is preferably limited to the vertical movement range of the screen unit 200. In addition, in order to physically limit the vertical movement range as described above, it is preferable that the stopper 330 is further included and installed to prevent the screen from moving upward and downward a predetermined distance. Also, the first rope chain 160 and the second rope chain 160-1 may include the first chain gear 110, the second chain gear 120, the lower first chain gear 210, and the lower second chain. A certain portion that rotates in engagement with the chain gear 220 is configured in the form of a chain so that the rope chain can rotate, but the other part of the opening and closing portion 180 is fastened in the form of a straight rod or plate rather than a rope chain. It is preferable that the screen unit 200 is fastened to a plurality of opening and closing portion 180 made of an iron plate or the like at intervals in consideration of the interlayer height. The dehumidification damper system of the high-rise building of the present invention configured as described above is a reduction motor to move the screen portion 200 including a plurality of opening and closing portion 180 configured on one side of the rope chain (160, 160-1) up and down a certain range. When driving the 100, the rope chain (160, 160-1) by the drive of the reduction motor is rotated, it is characterized in that can open and close the air supply 170 configured in each floor of the building at a time. In addition, the rope chain portion on which one side of the rope chain, that is, the screen portion 200 is formed, indicates that both ends of the screen portion are guided up and down within the sliding groove 205. As described above, the screen portion 200 slides. By moving in the groove 205 it is possible to guide the transfer of the screen portion in a sense of stability when moving up and down. In the above, the number of floors has been exemplified, but it is also applicable to one floor only by the configuration of the screen part composed of one opening and closing part.

4 is an enlarged view of a portion A of FIG. 3, which is a first embodiment of the present invention. In FIG. 4, one side of the rope chain 160 is configured to be transported up and down within the sliding groove 205 fastened and fixed to the vertical duct.

FIG. 5 is a configuration diagram of the air supply unit 170 partially opened by the screen unit 200 of the smoke damper system according to the first embodiment of the present invention high-rise building. In FIG. 5, the first embodiment of the high-rise building of the present invention, when the damping damper system drives the deceleration motor 100, power is transmitted from the deceleration motor to the upper driven rotation part 150, and the rope from the upper driven rotation part 150. Power is transmitted to the chains 160 and 160-1 and the screen unit 200 coupled to one side of the rope chains 160 and 160-1 moves downward in response to the rotation of the reduction motor 100. The mechanism 170 is in a partially open state. In addition, it indicates that the structure that can move in the sliding groove 205 installed in the vertical duct 400 which is one side of the screen portion 200.

6 is a side configuration diagram of a smoke damper system according to a first embodiment of the present invention high-rise building. 6, the damping damper system of the first embodiment of the high-rise building of the present invention includes a reduction motor 100 installed on the ceiling of the uppermost part of the vertical duct 400 of the high-rise building, and a motor shaft for transmitting the rotational force of the reduction motor. The upper rotating rod 115 is integrally fastened to the first bearing portion 130 and the second bearing portion 140 and the upper rotating rod 115 to support and rotate the upper rotating rod 115 on both sides of the In the first chain gear 110 and the second chain gear 120 to be spaced apart a certain distance, the lower first chain gear 210 is installed on the lowermost floor of the building vertical duct, and the lower first chain gear A lower second chain gear 220 installed at a predetermined distance, a first rope chain 160 connected between the first chain gear 110 and the lower first chain gear 210, and the second chain The second rope chain 160-1 coupled between the gear 120 and the lower second chain gear 220. The lower first bearing part 230, the lower second bearing part 240, and the first rope chains configured to rotatably support the first rope chain 160 and the second rope chain 160-1. It is shown that the screen portion 200 including a plurality of opening and closing portion 180 is fastened between the 160 and one side of the second rope chain (160-1). The damping damper system of the building configured as described above receives the rotational force of the reduction motor to the upper driven rotation part 150 to move up and down the screen part 200 integrally fastened between the rope chains 160 and 160-1. It is to act to open and close the air supply 170 configured in each floor.

FIG. 7 is an overall configuration diagram of a screen unit of the second embodiment of the present invention high-rise building ventilation damper system in a closed state. FIG. In Figure 7 the second embodiment of the present invention high-rise building smoke damper system is a reduction motor 100 is installed on one side of the upper floor of the vertical duct 400, and the upper rotary rod connected to the shaft of the reduction motor (100) 515, an upper first bearing portion 530 and an upper second bearing portion 540 supporting the rotating rods to rotate by bearings at both ends of the upper rotating rod 515, and the upper rotating rod 515. An upper chain gear 510 that is fixed as one body and rotates together by the rotation of the rotating rod, a rope chain 560 that rotates according to the rotation of the upper chain gear 510, and an opening and closing portion fastened to one side of the rope chain. 580, a lower chain gear 520 configured to rotatably support the other end of the rope chain 560, a lower support rod 525 supporting the lower chain gear 520 to rotate, and the lower support rod 525. Base supports (535, 545) for supporting the above), It consists of an upper limit switch 581 for sensing the upward movement of the screen unit 580 and limiting the upward movement, and a lower limit switch 582 for detecting the downward movement of the screen unit to stop the movement. . The lower chain gear 520 fastened to the lower support bar 525 is a structure that is fastened to rotate about the lower rotary bar 525 in a kind of pulley-like structure. In addition, the lower structure of another embodiment in which the rope chain 560 is fastened to rotate the lower rotary rod 525 and the lower rotary rod integrally fastened to the lower chain gear and the lower chain gear 520 as in the first embodiment of the present invention. The lower first bearing portion 535 and the lower second bearing portion 545 may be configured in place of the base supports 535 and 545. In the second embodiment of the present invention, the damping damper system configured as described above has the upper chain rod 515 rotated by the rotation of the reduction motor 100, and the upper chain gear 510 integrally fastened with the upper rod 515. When the rotation of the rope chain 560 is engaged with the upper chain gear 510 and the lower chain gear 520 is rotated. When the rope chain 560 rotates as described above, the opening and closing portion 580 fastened to one side of the rope chain 560 is configured to open and close the air supply 570 installed between the vertical duct 400 and the ventilation area. . In the above, the opening and closing of the air supply unit installed on one floor has been exemplified, but a plurality of opening and closing portions 57 installed on the rope chain are formed in each floor in consideration of the height between the apartments or officetels. Can open and close at the same time.

8 is a configuration diagram of the controller 600 of the reduction motor 100 for transferring the rope chain applied to the present invention up and down. The controller 600 of the reduction motor applied to the present invention in Figure 8 is the upper limit switch 310 for transmitting a signal in contact with the opening and closing unit 180 located at the top between the rope chain (160,160-1), and the rope The lower limit switch 320 which transmits a signal by contacting the opening / closing part 180 located at the lowermost part between the chains is configured to contact the uppermost opening / closing part 180 and the upper limit switch 310 so that the contact signal is controlled by the controller 610. When input to the control unit is to stop the operation of the reduction motor 100 to stop the movement of the screen unit 200, and also the opening and closing portion 180 of the lowermost fastened to one side of the rope chain (160, 160-1) Moves to the lower side to contact the lower limit switch 320, the control unit 610 receiving the signal of the lower limit switch 320 acts to stop the operation of the deceleration motor 100. In addition, the control unit 610 controls the deceleration motor 100 to rotate forward or reverse by the fire detection signal or the user terminal 660 signal from the fire detector 650 and the forward or reverse rotation of the deceleration motor 100. By the rotation, the screen unit 200 may move up and down to open and close the air supply port 170. In the above, the user terminal 660 may be configured as a smart phone connected wirelessly from a PC or a remote. In the case of the wireless configuration such as a smart phone, the control unit may be further configured to a wireless transceiver for transmitting and receiving wireless signals.

The ventilation damper system of the present invention high-rise building configured as described above is provided with air supply in each floor by a plurality of openings and closing parts 180 formed in the first and second rope chains that operate in conjunction with the reduction motor 100 installed on the ceiling of the top floor of the building. It is characterized in that the 170 can be opened and closed at one time.

31: vertical passage, 32; Vertical duct,
35: damper, 37: blower,
100: reduction motor, 110: first chain gear,
115; Rotating rod, 120: second chain gear,
130: first bearing portion 140; 2nd bearing part,
150: driven rotating part, 160: rope chain,
170; Air supply, 180: opening and closing part,
200: screen portion, 215: lower rotating rod,
210: lower first chain gear, 220: lower second chain gear,
230: lower first bearing part, 240: lower second bearing part,
310: upper limit switch, 320: lower limit switch,
330: stopper, 400; Vertical duct,
510: upper chain gear, 515: upper rotary rod,
530: upper first bearing portion, 540: upper second bearing portion,
560: rope chain, 570: air supply,
580: screen portion, 581: upper limit switch,
582; Lower limit switch,

Claims (8)

delete A plurality of air supply pipes 170 and vertical ducts 400 are installed on each side of each of the vertical ducts 400 and the respective floors of the vertical duct 400, which are configured inside the apartment or office building. In the smoke control damper system of the building to supply fresh air through the air supply or pressurized air to the ventilation area connected to the plurality of air supply 170 by the blower in case of fire to prevent the smoke from leaking out of the ventilation area,
The ventilation control damper system of the building,
A deceleration motor (100) for transferring the screen unit (200) up and down by being installed in one side space of the vertical duct to open and close the plurality of air supply (170) at once;
A rotary rod (115) interlocked with the motor shaft for transmitting power of the reduction motor (100);
A first chain gear 110 configured to be spaced apart from the rotating rod 115 by a predetermined distance;
A second chain gear 120 installed at a predetermined distance from the first chain gear;
A first bearing part 130 supporting the rotating rod 115 to rotate on one side;
A second bearing part 140 supporting the rotating rod to rotate on the other side of the rotating rod;
A first rope chain (160) having a circle shape which is engaged with the first chain gear (110) and rotates;
A second rope chain 160-1 in a circle shape which is engaged with the second chain gear 120 and rotates respectively;
A screen having a plurality of openings and closing parts 180 coupled to one side of the first rope chain 160 and one side of the second rope chain 160-1 to open and close the air supply 170. A part 200;
A lower first chain gear (210) for supporting and rotating the other end of the first rope chain (160) at the lowest floor of the vertical passageway of the high-rise building;
A lower second chain gear (220) for supporting and rotating the other end of the second rope chain (160-1) at the lower floor of the vertical passageway of the high-rise building;
A lower rotating rod 215 coupled to the lower first chain gear 210 and the lower second chain gear 220;
A lower first bearing part 230 configured at one side of the lower rotating rod to support the lower rotating rod 215 to rotate;
And a lower second bearing part (240) configured on the other side of the lower rotating rod to support the lower rotating rod (215) to rotate.
The method of claim 2,
The smoke removal damper system of the building,
And a sliding groove installed at one side of each of the first rope chain and the second rope chain to guide the first rope chain and the second rope chain.
The method of claim 2,
The ventilation damper system of the building,
An upper limit switch 310 installed at an upper portion of the screen unit to limit vertical movement of the screen unit 200;
The exhaust control damper system of claim 1, further comprising a lower limit switch (320) installed below the screen unit.
The method of claim 4, wherein
The smoke removal damper system of the building,
And a stopper for mechanically stopping the vertical conveyance of the screen unit.
The air supply unit 170 and the vertical duct 400 are installed on each side of the vertical duct 400 and each floor on the vertical duct 400 formed in the apartment or officetel building. In the smoke control damper system of the building to supply fresh air through the air supply or pressurized air to the ventilation area connected to the air supply unit 170 by a blower in the case of fire so that smoke does not leak out of the ventilation area,
The ventilation control damper system of the building,
A reduction motor 100 installed on one side of the vertical duct 400;
An upper rotary rod 515 connected to the shaft of the reduction motor 100;
An upper first bearing part 530 supporting the upper rotating rod to rotate by a bearing at one end of the upper rotating rod 515;
An upper second bearing part 540 supporting the upper rotating rod to rotate by a bearing at the other end of the upper rotating rod 515;
An upper chain gear 510 which is fixed integrally with the upper rotating rod 515 and rotates together by the rotation of the upper rotating rod;
A rope chain 560 that rotates as the upper chain gear 510 rotates;
An opening and closing part 580 fastened to one side of the rope chain;
A lower chain gear 520 configured to rotationally support the other end of the rope chain 560;
A lower support rod 525 for supporting the lower chain gear 520 to rotate;
And a base support (535, 545) for supporting the lower support bar (525).
The method according to claim 6,
Opening and closing part 580,
Smoke elimination damper system, characterized in that composed of two or more at regular intervals.
The method according to claim 6,
The smoke removal damper system of the building,
An upper limit switch 581 for sensing the upward movement of the opening and closing portion 580 and limiting the upward movement;
And a lower limit switch (582) for stopping the movement by sensing the downward movement of the screen unit.

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