KR102189013B1 - Air supply damper with vent of smoke protection - Google Patents

Abstract

The present invention relates to a ventilation and air supply damper of a ventilation facility, which is used as a ventilation function at the same time as a ventilation function at the same time as a ventilation function in a fire, prevents overloading during operation, and can easily control the amount of air supplied.
The present invention includes a main body 110 having a storage space 112 and a passage space 113 divided by a partition plate 111; Long-width blades 120 disposed at equal intervals vertically in the passage space 113; Short-width blades 130, which are disposed between the long-width blades 120, respectively, to open and close the passage space 113 by interlocking with the long-width blades 120; The upper and lower rotary shafts 140 and 150 which are rotatably installed in the passage space 113 with fixing grooves 141 and 151 fitted in the upper and lower portions of the long and short width blades 120 and 130; First and second gears 160 and 170 fixed to the upper rotation shaft 140 to rotate the long and short width blades 120 and 130 in opposite directions to each other; A motor 180 for rotating any one of the first gear 160 or the second gear 170 in a forward and reverse direction; It is configured to include an interlocking control server 190 for controlling the motor 180 is connected to enable bi-directional communication with the air supply damper 100 so as to normally ventilate through the passage space 113 and supply air in a fire.

Description

Air supply damper with vent of smoke protection

The present invention relates to an air supply damper for both ventilation of a ventilation facility, and more particularly, it is used as a ventilation function of a building in normal times, and at the same time, it can be conveniently used as a ventilation function of a building in case of fire, and an overload is applied when the blade is operated. The present invention relates to a ventilation and air supply damper of a ventilation facility that prevents the air from being prevented, and allows the supplied air volume to go straight so that the air volume can be easily controlled.

In the event of a fire in a high-rise building, ventilation facilities are essential to secure an evacuation route by preventing the inflow of smoke to the evacuation stairs and emergency elevators.

General ventilation equipment according to the fire safety standards regulated in Korea supplies'leakage amount' to maintain a certain standard of differential pressure in all subrooms in case of fire, but when the open/close sensor detects the opening of the subroom's door, the supply air damper of the open floor It is controlled to additionally supply'replenishment amount' by opening the blades by operating individually at.

In other words, in general, when a fire occurs by a signal input from a fire detection sensor, a ventilation facility supplies an operation signal from the fire receiver to the air supply damper installed in the subroom on the entire floor, and the air supply damper receives power and drive signals through the communication terminal to supply power. It is supplied to the motor driving bridge and the driving signal is transmitted through the MCU to rotate the damper motor to open the blade by a preset angle to supply the same'leakage amount' to the entire floor and use a pressure sensor to maintain a certain standard differential pressure. If the opening/closing sensor installed in the entrance door of the sub-room detects that it is open, it receives a signal from the air supply damper on the floor and controls to additionally supply'replenishment amount' through the air supply damper on the floor. The contents of such a ventilation system are described in Korean Patent Registration No. 10-1409791, which is the following patent document.

As described above, the air supply damper of the ventilation facility is installed in each floor sub-room to supply the amount of leakage and replenishment to maintain the differential pressure in order to form a ventilation zone in the event of a fire in a high-rise building. It is described in Korean Utility Model Registration No. 20-0284435.

However, since the air supply damper of the conventional ventilation facility is configured to maintain a normally closed state, structurally, there is an inconvenient problem that cannot be used as a ventilation function of a building normally. In other words, since the conventional air supply damper cannot be used for both normal ventilation and air supply in a fire, ventilation of the auxiliary room is not performed properly, and the smell of food remains for a long time, causing discomfort. There is a problem that causes respiratory diseases because it is cloudy due to moisture.

In addition, since the conventional air supply damper operates the blade using the link member, structurally, the opening and closing operation of the blade is not smoothly performed, and there is a problem that an overload is applied when the blade is operated.

In addition, since the conventional air supply damper opens simultaneously in one direction when the blade is opened, directionality is given to the amount of air supplied through the blade, and the air volume is supplied by being pushed to only one side such as the upper and lower sides. At the same time, there is a problem that the air volume cannot be easily adjusted because it cannot be spread and is affected by the surrounding wind supplied through the opening of another blade next to it. This directionality is more affected when the opening and closing angle of the blade is opened less.

Patent Document 1: Patent Registration No. 10-1409791 (Registration Date: 2014.06.13) Patent Document 2: Utility Model Registration No. 20-0284435 (Registration Date: 2002.07.23)

The object of the present invention was invented to solve the conventional shortcomings as described above, and at the same time, it is used as a ventilation function of a building in normal times, and at the same time, it is converted into a ventilation function of a building in case of fire, so that it can be conveniently used for both ventilation and air supply. It is to provide an air supply damper for both ventilation and ventilation of the ventilation equipment.

Another object of the present invention is to provide an air supply damper for ventilation and ventilation of a ventilation facility, which is capable of preventing an overload during operation of the blade by improving the opening and closing structure of the blade so that the blade operates smoothly.

Another object of the present invention is that the direction of the amount of air supplied through the blade is not biased in a specific direction, but all go straight without direction, so that it spreads evenly in the space in the accessory room, and the surrounding wind supplied through the opening of the other blade next to it It is to provide an air supply damper for both ventilation of the ventilation equipment so that the air volume can be easily controlled by not being affected by

In order to achieve the above object, the present invention is an air supply damper installed in each floor annexed room of a high-rise building to supply the air volume transferred through a vertical duct from a blower to the annexed room, and the main body of the air supply damper has a storage space divided up and down by a partition plate. And a passage space, a plurality of long-width blades are arranged to be rotatable at vertically equal intervals in the passage space of the main body, and the short-width blades that open and close the passage space of the main body are vertically interlocked with the long-width blades between the long-width blades. Each of the upper and lower rotary shafts are rotatably disposed in the upper and lower portions of the long and short width blades, and are rotatably installed in the upper and lower portions of the passage space of the main body, respectively, on the upper rotary shaft. The first and second gears that rotate by interlocking the long and short width blades in opposite directions are fixed to each other so as to engage with each other, and a motor that rotates any one of the first or second gears in a forward and reverse direction is installed, and the The interlocking control server is installed to control the motor by being connected to enable bidirectional communication with the air supply damper so that normal ventilation and air supply in case of fire through the passage space of the body.

In addition, in the present invention, the long-width blade includes a middle plate in which a central portion is inserted into the fixing grooves of the upper and lower rotation shafts and is fixed, a front plate in which an overlapping portion is formed on both sides by welding or riveting to one side of the front central portion of the middle plate and folded to the front side. It is composed of a thick plate that is fixed by welding or rivets on the other side of the rear center of the rear plate and formed with an overlapping portion folded to the rear on both sides.One side of the front plate and the other side of the rear plate protrude to the outside of the middle plate to form a contact part that contacts the short width blade when closed will be.

In addition, in the present invention, the other end of the front plate and the upper and lower portions of one side of the rear plate are respectively formed with cutouts into which the upper and lower rotary shafts are fitted.

In addition, in the present invention, a plate spring having an inclined portion facing the contact portion is installed between the middle plate and the front plate, and between the middle plate and the rear plate so as to elastically adhere to the short width blade when closed.

In addition, in the present invention, one side of the short width blade is formed with an overlapping portion folded to the front, the other side of the short width blade is formed with an overlapping portion folded to the rear side, and fixing grooves of the upper and lower rotation shafts are inserted between the overlapping portions of both sides of the short width blade to be fixed. will be.

In addition, in the present invention, the first and second gears are formed with arc-shaped holes that limit the rotation angle to 90 degrees, and the first and second gears are fitted in one of the arc-shaped holes of the first and second gears, respectively, on the upper part of the partition plate. It forms a second intermittent pin.

In addition, in the present invention, a ventilation fan controlled by an interlocking control server is installed in the vertical duct of the high-rise building.

According to the ventilation and air supply damper of the ventilation facility of the present invention, if necessary, if the air supply damper is opened normally, the inside of the auxiliary room can be discharged to the vertical duct, so it can be used as a ventilation function of the building, while in case of fire, the ventilation function of the building. Since the air volume is converted into and supplied from the blower through the vertical duct to the attached room, there is an effect that it can be conveniently used for both ventilation and air supply structurally.

In addition, since the first gear and the second gear rotate in opposite directions so that the long and short width blades operate smoothly, it is structurally effective to prevent overload when the long and short width blades operate. .

In addition, since the long and short blades are opened by rotating them in opposite directions, structurally, the direction of the air volume supplied through the long and short blades is not skewed in a specific direction, unlike the conventional one, and all goes straight without direction. It spreads evenly and is not affected by the surrounding wind supplied through the opening of the other long and short width blades, so there is an effect that the air volume can be easily adjusted.

1 is a front view of the present invention.
Figure 2 is a front cross-sectional view showing the interior of the present invention.
Figure 3 is a side cross-sectional view of the present invention.
Figure 4 is a plan cross-sectional view of the present invention.
Figure 5 is an exploded perspective view showing a main part of the present invention.
Figure 6 is an exploded perspective view of a long blade according to the present invention.
7 is a plan view showing a closed state of the air supply damper according to the present invention.
Figure 8 is a plan view showing an operating state during ventilation according to the present invention.
9 is a plan view showing an operating state during supply according to the present invention.
10 is a plan view showing a leaf spring according to the present invention.
11 is a circuit diagram of an air supply damper according to the present invention.

Hereinafter, the technical configuration of the present invention will be described in detail according to the accompanying drawings.

As shown in Figs. 1 to 11, the ventilation and air supply damper of the present invention is an air supply damper 100 that is installed in each floor of a high-rise building to supply the amount of air transferred from the blower through the vertical duct to the auxiliary room. , The air supply damper 100 includes a main body 110 having a storage space 112 and a passage space 113 divided up and down by a partition plate 111; A long-width blade 120 that is rotatably disposed in the passage space 113 of the main body 110 at regular intervals; Short-width blades 130 that are vertically rotatably disposed between the long-width blades 120 and interlock with the long-width blades 120 to open and close the passage space 113; The upper and lower rotary shafts are rotatably installed in the upper and lower portions of the passage space 113 by providing fixing grooves 141 and 151 respectively fitted to the upper and lower portions of the long and short width blades 120 and 130 (140)(150); First and second gears 160 and 170 which are respectively fixed to the upper rotation shaft 140 to engage with each other to rotate the long and short width blades 120 and 130 in opposite directions to each other; A motor 180 for rotating one of the first gear 160 or the second gear 170 in a forward and reverse direction; Consisting of including an interlocking control server 190 for controlling the motor 180 by being connected to enable bidirectional communication with the air supply damper 100 so as to provide ventilation and air supply in case of fire through the passage space 113 of the body 110 It is a basic feature of its technical configuration.

Here, the air supply damper 100 of the present invention is installed in each floor of a high-rise building to perform a ventilation role of discharging the internal air of the attached room to a vertical duct in normal times, and in case of a fire, the air volume transferred through the vertical duct from the blower is The air supply damper 100 of the present invention has a main body 110, a long blade 120, a short blade 130, an upper rotation shaft 140, and a lower rotation shaft 150. , A first gear 160, a second gear 170, a motor 180 and an interlocking control server 190.

The air supply damper 100 is connected to the interlocking control server 190 to enable bidirectional communication. At this time, the air supply damper 100 is configured to enable bi-directional communication with the interlocking control server 190, the air supply damper 100 is installed so as to branch from the vertical duct and penetrate one side of each floor annex, and the air supply damper 100 ) Supplies the air volume transferred from the blower through the vertical duct to the auxiliary room in case of fire, and the air supply damper 100 discharges the internal air of the auxiliary room to the vertical duct.

The main body 110 constitutes the body of the air supply damper 100, and a storage space 112 and a passage space 113 divided up and down by a partition plate 111 are provided inside the main body 110. . At this time, the main body 110 is provided with a fire detection sensor 10, a pressure detection means 11 for measuring the differential pressure, and a wind speed detection means 12 for measuring the supplied wind speed.

The partition plate 111 is formed horizontally inside the main body 110, and this partition plate 111 serves to divide the interior of the main body 110 into a storage space 112 and a passage space 113. .

The storage space 112 forms a storage room with an open front, and a door 112a is installed in front of the storage space 112 so as to be openable. In this case, a printed circuit board 13 on which components such as a display unit 13a and a switch 13b are mounted for displaying the differential pressure and the smoke-retardant wind speed is mounted inside the storage space 112, and the door 112a An open confirmation window may be formed so that the display portion 13a can be seen at.

The passage space 113 is to form a ventilation and air supply passage with open front and rear, and a plurality of long-width blades 120 and short-width blades 130 are rotatably installed in the passage space 113 . At this time, blocking plates 113a and 113b contacting the long-width blades 120 on both sides when closed are vertically installed on both sides of the passage space 113, respectively.

The long-width blades 120 are arranged to be rotatable at equal intervals vertically in the passage space 113 of the body 110, and the short-width blades 130 are arranged to be vertically rotatable between the long-width blades 120, respectively. As such, the long blade 120 and the short blade 130 serve to open and close the passage space 113 of the body 110. At this time, the width of the long blade 120 is formed to be larger than the width of the short blade 130, according to an embodiment of the present invention, four long blades 120 are installed, and the short blade 130 It is preferable to install three.

According to the present invention, as shown in Figs. 5 and 6, the long-width blade 120 has a middle plate 121 that is fitted and fixed in the fixing grooves 141 and 151 of the upper and lower rotary shafts 140 and 150, and the The front plate 122 is fixed with welding or rivets on one side of the front central portion of the middle plate 121 and has an overlapping portion 122a folded to the front on both sides, and the other side of the rear central portion of the middle plate 121 is fixed by welding or rivets to both sides. There is a rear plate 123 having an overlapping portion 123a folded to the rear side, and at one side of the front plate 122 and the other side of the rear plate 123 protrude to the outside of the middle plate 121 and when closed, the short width blade 130 The contact portions 122b and 123b contacting the are formed. At this time, the middle plate 121, the front plate 122, and the rear plate 123 are made of a metal plate.

The middle plate 121 is disposed in the central portion of the long-width blade 120, and fixing grooves 141 and 151 of the upper and lower rotation shafts 140 and 150 are respectively located at the upper and lower portions of the middle plate 121 In the fitted state, it is fixed integrally

The front plate 122 is fixed by welding or rivets to one side of the front central portion of the middle plate 121, and overlapping portions 122a folded to the front are respectively formed on both sides of the front plate 122, and one side of the front plate 122 A contact portion 122b that protrudes to the outside of the middle plate 121 and contacts one side of the short width blade 130 when closed is formed. At this time, since overlapping portions 122a folded to the front are formed on both sides of the front plate 122, the strength of the front plate 122 can be structurally reinforced to improve durability.

The rear plate 123 is fixed by welding or rivets to the other side of the rear central portion of the middle plate 121, and overlapping portions 123a folded to the rear are formed on both sides of the rear plate 123, respectively, and the other side of the rear plate 123 On the side, a contact portion 123b that protrudes to the outside of the middle plate 121 and contacts the other side of the short width blade 130 when closed is formed. At this time, since overlapping portions 123a folded to the rear are formed on both sides of the thick plate 123, the strength of the thick plate 123 may be structurally reinforced to improve durability.

According to the present invention, cutouts 122c and 123c into which the upper and lower rotational shafts 140 and 150 are inserted are formed in the upper and lower portions of the other side of the front plate 122 and one side of the rear plate 123 as shown in FIG. 6. do. At this time, the cutouts 122c and 123c of the front plate 122 and the rear plate 123 easily fit the fixing grooves 141 and 151 of the upper and lower rotation shafts 140 and 150 into the middle plate 121 It was formed for.

According to the present invention, as shown in FIG. 6, the contact portions 122b and 123b are provided between the middle plate 121 and the front plate 122, and between the middle plate 121 and the rear plate 123 so as to be in elastic contact with the short width blade 130 when closed. Plate springs 124 provided with inclined portions 124a facing each other are installed. At this time, the leaf spring 124 is made of a steel plate.

The plate spring 124 is fixed in a state sandwiched between the middle plate 121 and the front plate 122 and the middle plate 121 and the rear plate 123, respectively, and the end of the plate spring 124 has the front plate 122 and An inclined portion 124a protruding obliquely to the outside of the middle plate 121 so as to be disposed on the contact portions 122b and 123b of the rear plate 123 is integrally formed, and the inclined portion 124a is formed on the short width blade 130 when closed. It adheres elastically and tightly. At this time, the inclined portion 124a of the leaf spring 124 is elastically and airtightly adhered to the short width blade 130 when closed as shown in FIG. 7, whereby the gap between the long width blade 120 and the short width blade 130 Since it can block, structurally, it is possible to minimize the leakage rate of the air supply damper 100 through the inclined portion 124a of the leaf spring 124.

Here, as shown in FIG. 10, the inner angle θ between the leaf spring 124 and the inclined portion 124a is preferably formed to be 165° to 175°. At this time, if the inner angle θ is less than 165°, there is a concern that a load may be generated when closing, and if the inner angle θ is greater than 175°, there is a fear that the adhesion may be reduced.

According to the present invention, an overlapping portion 131 folded to the front is formed on one side of the short width blade 130, and an overlapping portion 132 folded to the rear side is formed on the other side of the short width blade 130, and , The fixing grooves 141 and 151 of the upper and lower rotating shafts 140 and 150 are inserted and fixed between the overlapping portions 131 and 132 of both sides of the short width blade 130. At this time, the short width blade 130 is made of a metal plate, and an overlapping portion 131 folded to the front is formed on one side of the short width blade 130, and an overlapping portion folded to the rear on the other side of the short width blade 130 Since (132) is formed, it is possible to improve durability by structurally reinforcing the strength of the short blade 130.

The upper rotation shaft 140 is rotatably installed above the passage space 113 of the main body 110, and the lower rotation shaft 150 is rotatably installed under the passage space 113 of the main body 110. , Fixing grooves 141 and 151 that are respectively fitted to the upper and lower portions of the long and short width blades 120 and 130 are formed at a lower portion of the upper rotary shaft 140 and an upper portion of the lower rotary shaft 150. At this time, the upper and lower rotating shafts 140 and 150 serve to rotatably support the long and short width blades 120 and 130.

The first gear 160 is integrally fixed while being fitted to the upper rotation shaft 140 supporting the long width blade 120, and the second gear 170 is an upper portion supporting the short width blade 130 The first gear 160 and the second gear 170 are fixed to each other while being fitted to the upper part of the rotation shaft 140, respectively, as shown in FIG. The blade 120 and the short width blade 130 are interlocked in opposite directions to each other to rotate. At this time, as shown in FIGS. 5 and 6, a cutting surface 142 serving as a key is formed on the upper surface of the upper rotation shaft 140 to prevent idling, and the first and second gears 160 and 170 A shaft hole (160a) (170a) that fits into the upper rotation shaft (140) is formed in the central part, and an idling prevention part (160b) (170b) corresponding to the cutting surface (142) is formed on one side of the inner surface of the shaft hole (160a) (170a). ) Are formed respectively.

The first and second gears 160 and 170 are each fixed to engage with each other on the upper rotation shaft 140 as shown in FIG. 4 to rotate the long and short width blades 120 and 130 in opposite directions to each other. As such, when adjusting the air volume by rotating the long and short width blades 120 and 130 with the first and second gears 160 and 170, the air supply damper 100 of the present invention has a long width blade 120 and a short width Since the blades 130 are rotated to interlock in opposite directions to open in an approximately "arm" shape, the direction of the amount of air supplied through the long and short width blades 120 and 130 is different from the prior art. It is not biased and all goes straight without direction, so it spreads evenly in the space in the annex, and it is not affected by the surrounding wind supplied through the openings of the other long and short width blades 120, 130, so the air volume can be easily adjusted. have.

According to the present invention, arc-shaped long holes 161 and 171 limiting the rotation angle to 90 degrees are formed in the first and second gears 160 and 170 as shown in FIG. 4, and the upper portion of the diaphragm 111 First and second intermittent pins 111a and 111b that are respectively fitted into any one of the arc-shaped long holes 161 and 171 of the first and second gears 160 and 170 are provided. At this time, the first and second gears 160 and 170 have arc-shaped long holes 161 and 171 that limit the rotation angle to 90 degrees, and the first and second gears ( Since the first and second intermittent pins 111a and 111b respectively fitted into any one of the arc-shaped long holes 161 and 171 of the 160) 170 are provided, structurally the opening and closing operation of the air supply damper 100 The angle of rotation of the market, short width blades 120 and 130 may be limited to 90 degrees.

The motor 180 is connected to one of the first gear 160 or the second gear 170 as shown in FIG. 2, and the motor 180 includes the first and second gears 160 and 170 It plays the role of rotating in the forward direction

The interlocking control server 190 is connected to enable bidirectional communication with the air supply damper 100 to control the motor 180 that controls the motor 180, and the interlocking control server 190 It plays a role of controlling the motor 180 so as to ventilate normally through the passage space 113 and supply air in case of fire. At this time, as shown in FIG. 8, when the motor 180 is normally controlled by the interlocking control server 190 to open the long and short width blades 120 and 130, as shown in the arrow, the bet of the accessory chamber is discharged to the vertical duct. As shown in FIG. 9, since it performs the role of ventilation and supplies the air volume transferred through the vertical duct from the blower to the subroom in case of fire, as shown in FIG. 9, it can be used both for ventilation and air supply.

Here, the interlocking control server 190 is electrically connected to the fire detection sensor 10, the pressure detection means 11, and the wind speed detection means 12 to receive a signal, and two-way communication with the blower and the air supply damper 100 It is connected so as to control the drive of the blower and the air supply damper (100).

As shown in FIG. 11, the air supply damper 100 receives power and driving signals from the fire receiver 20 and supplies power from the two-way communication terminal 191 to the motor driving bridge 181, and the driving signal is a two-way communication circuit 192. The rotation counter 182 installed in the motor 180 in consideration of the situation of the air supply dampers 100 on the other floor by communicating with the interlocking control server 190 through the two-way communication terminal 191 and starting the driving. ) And the left rotation limit switch 183 and the right rotation limit switch 184 receive signals from and transmit a control signal to precisely control the angle.

According to the present invention, a ventilation fan 200 controlled by an interlocking control server 190 is installed in the vertical duct of the high-rise building. At this time, if the ventilation fan 200 is installed in the vertical duct, it is possible to more easily discharge the bet of the auxiliary room during ventilation.

The ventilation fan 200 is operated when it is determined that ventilation is normally required as needed, and this ventilation fan 200 automatically discharges internal air to the outside or supplies external air to the inside according to the amount of ventilation required in the attached room. Organize it so that you can do it. At this time, the ventilation fan 200 can be installed in parallel with the blower of the ventilation facility, or can be installed in various locations such as the middle of the length of the vertical duct or the end opposite to the blower, but the ventilation fan 200 is installed on the rooftop to cause contamination. It is desirable to be able to discharge the bet of the auxiliary room containing the damaged or foreign substances to the roof of the building.

Here, during ventilation, the blower of the ventilation facility is turned "OFF", and one end of the vertical duct is blocked, and in this state, the air supply damper 100 is opened and the ventilation fan 200 is operated. Through (100), it is possible to discharge the inside of the annex to the outside. At this time, the internal air is sucked out from the ventilation fan 200 or the external air is blown, and the internal air of the auxiliary room is introduced into the vertical duct through the air supply damper 100 and discharged to the outside of the building or fresh external air is supplied to provide ventilation.

On the other hand, in the event of a fire, the pressure inside the accessory room must be kept high through a blower to prevent harmful smoke or gas from escaping from the fire place to the corridor, stairs, and accessory rooms. Therefore, in the event of a fire, the blower and the air supply damper 100 are turned "ON" to inflow outside air into the attached room. And the ventilation fan 200 is "OFF" to prevent the generated pressure from escaping to the outside.

Therefore, the present invention can be used as a ventilation function of a building, since the inside of the auxiliary room can be discharged to a vertical duct when the supply air supply damper 100 is opened as needed. Meanwhile, in case of a fire, it can be converted into a ventilation function of the building from the blower. Since the air volume transferred through the vertical duct is supplied to the subroom, there is an advantage that it can be conveniently used for both ventilation and air supply structurally.

In addition, this invention is because the first gear 160 and the second gear 170 rotate in mutually opposite directions so that the long and short width blades 120 and 130 operate smoothly, structurally long, There is an advantage of preventing an overload from being applied when the short width blades 120 and 130 are operated.

And since the present invention is opened by rotating the long-width blade 120 and the short-width blade in opposite directions, structurally, the direction of the amount of air supplied through the long and short width blades 120 and 130 is in a specific direction unlike the prior art. The advantage of being able to easily adjust the air volume because it is not biased and all goes straight without direction and spreads evenly in the space in the annex, and is not affected by the surrounding wind supplied through the openings of the other long and short width blades 120 and 130 next to each other. There is this.

100: air supply damper 110: main body
111: diaphragm 111a: first interrupting pin
111b: second locking pin 112: storage space
113: passage space 120: long blade
121: middle plate 122: front plate
122a: overlapping portion 122b: contact portion
122c: incision 123: back plate
123a: overlap portion 123b: contact portion
123c: incision 124: leaf spring
124a: inclined part 130: short width blade
131: overlapping portion 132: overlapping portion
140: upper rotation shaft 141: fixed groove
150: lower rotating shaft 151: fixed groove
160: first gear 161: arc-shaped long hole
170: second gear 171: arc-shaped long hole
180: motor 190: interlocking control server
200: ventilation fan

Claims (7)

As an air supply damper 100 installed in each floor of a high-rise building and supplying the air volume transferred through the vertical duct from the blower to the attached room
The air supply damper 100 includes a main body 110 having a storage space 112 and a passage space 113 divided up and down by a partition plate 111;
A long width blade 120 that is rotatably disposed in the passage space 113 of the main body 110 at equal intervals vertically;
Short-width blades 130 that are vertically rotatably disposed between the long-width blades 120 and interlock with the long-width blades 120 to open and close the passage space 113;
The upper and lower rotary shafts are rotatably installed in the upper and lower portions of the passage space 113 by providing fixing grooves 141 and 151 respectively fitted to the upper and lower portions of the long and short width blades 120 and 130 (140)(150);
First and second gears 160 and 170 which are respectively fixed to the upper rotation shaft 140 to engage with each other to rotate the long and short width blades 120 and 130 in opposite directions to each other;
A motor 180 for rotating one of the first gear 160 or the second gear 170 in a forward and reverse direction;
It includes an interlocking control server 190 for controlling the motor 180 by being connected to enable bidirectional communication with the air supply damper 100 so that ventilation and air supply in the event of a fire are normally ventilated through the passage space 113 of the main body 110,
The long-width blade 120 has a middle plate 121 that is fitted and fixed in the fixing grooves 141 and 151 of the upper and lower rotary shafts 140 and 150, and welded to one side of the front central portion of the middle plate 121 or The front plate 122 is fixed with rivets and has an overlapping portion 122a folded to the front on both sides, and an overlapping portion 123a that is folded to the rear on both sides by welding or fixed to the other side of the rear central portion of the middle plate 121 by welding or rivets. Consisting of a rear plate 123, and at one side of the front plate 122 and the other side of the rear plate 123, a contact portion 122b, 123b that protrudes to the outside of the middle plate 121 and contacts the short width blade 130 when closed Ventilation and air supply damper of a ventilation facility, characterized in that formed. delete The method of claim 1, wherein the other side of the front plate 122 and the upper and lower portions of one side of the rear plate 123 are formed with cutouts 122c and 123c into which the upper and lower rotary shafts 140 and 150 are fitted. Ventilation and air supply damper for ventilation equipment. The method of claim 1, wherein the middle plate 121 and the front plate 122 and the middle plate 121 and the rear plate 123 face the contact portions 122b and 123b so as to be in elastic contact with the short width blade 130 when closed. Ventilation and air supply damper of a ventilation facility, characterized in that the plate spring 124 provided with the inclined portion 124a is installed, respectively. The method of claim 1, wherein one side of the short width blade 130 is formed with an overlapping portion 131 folded to the front, and the other side of the short width blade 130 is formed with an overlapping portion 132 folded to the rear side, and the short width Ventilation combined air supply damper of a ventilation facility, characterized in that the fixing grooves 141 and 151 of the upper and lower rotation shafts 140 and 150 are inserted and fixed between the overlapping portions 131 and 132 of the blade 130. The method of claim 1, wherein the first and second gears 160 and 170 are formed with arc-shaped long holes (161) (171) limiting the rotation angle to 90 degrees, and a first agent is formed on the top of the partition plate (111). 2Combined ventilation of a ventilation facility, characterized in that the first and second intermittent pins 111a and 111b are provided to each of the arc-shaped long holes 161 and 171 of the gears 160 and 170, respectively. Air supply damper. [2] The air supply damper of claim 1, wherein a ventilation fan (200) controlled by an interlocking control server (190) is installed in the vertical duct of the high-rise building.

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