RU218426U1 - FIRE VALVE - Google Patents

Abstract

The utility model relates to devices for blocking ventilation ducts or openings in the enclosing building structures of buildings and is intended for installation in main general ventilation systems to block air access to the room during a fire and to remove gases and smoke from the premises after a fire. The fire damper contains a rotary damper installed in the housing on the axes fixed on the housing walls and an electric drive configured to rotate the said damper using a lever mechanism, the damper housing consists of two parts with a heat-insulating material installed between them, and Z-shaped seals filled with heat-insulating material to seal the valve in the closed position along the perimeter of the damper, the rotary damper is box-shaped and contains a heat-insulating material closed from the side and end sides with metal parts. EFFECT: high reliability of the fire damper, which effectively shuts off air access to the room and provides thermal insulation to limit heat transfer.

Description

The utility model relates to devices for blocking ventilation ducts or openings in the enclosing building structures of buildings and is intended for installation in main general ventilation systems to block air access to the room during a fire and to remove gases and smoke after a fire from rooms protected by gas, aerosol or powder installations firefighting.

Known fire ventilation valve (RF patent No. 162186, publ. 05/27/2016), including a housing in which the upper and lower half shafts are installed, a damper that can be rotated 90 ° in a horizontal plane, a drive made in the form of a thrust, one end which is attached to the damper with the possibility of their mutual movement relative to each other, and the second end of the rod is made with a slot in which the hinge axis of the lever and the lever itself are installed with the possibility of movement, made with the possibility of turning 90 ° from the drive in a horizontal plane, and connected with a lever pusher, while between the valve body and the damper a labyrinth seal is made, and a layer in the form of an anti-icing agent is made along the contour of their contact with each other, in addition, the body contains an inspection hatch.

The disadvantage of the known solution is the insufficient thermal insulation of the valve.

Known anti-vandal fire smoke valve with electric drive (RF patent No. 159828, publ. 20.02.2016), containing installed in the housing on axes rigidly fixed on the walls of the housing at least one rotary damper, an electric actuator that opens and closes the rotary damper, characterized in that that the damper is installed with the possibility of rotation towards the serviced premises, and the electric drive acts on the rotary damper through the intermediate rotary lever, which is fixed on the damper with a lock, while the intermediate lever in the unlocked position can be rotated relative to the damper, and its axis of rotation coincides with axis of rotation of the damper, the valve is equipped with an electric drive, which contains two fixed microswitches that send a signal to the central post of the security alarm about the position of the damper damper "open" or "closed" (selected for the prototype).

The disadvantage of the known solutions is the insufficient thermal insulation of the valve.

The technical task of the utility model is to create a reliable double-acting fire damper that provides high fire resistance and sealing.

EFFECT: high reliability of the fire damper, which effectively shuts off air access to the room and provides thermal insulation to limit heat transfer.

The technical result is achieved by the fact that the fire damper contains a rotary damper installed in the housing on the axes fixed on the housing walls and an electric drive configured to rotate the said damper using a lever mechanism, the damper housing consists of two parts with a heat-insulating material installed between them, and on the inner Z-shaped seals filled with heat-insulating material are fixed on the body surface to seal the valve in the closed position along the perimeter of the damper, the rotary damper is box-shaped and contains a heat-insulating material closed from the side and end sides with metal parts.

The fire damper consists of a rectangular body with two connecting flanges and a damper, driven to the open or closed position by an electric drive and a lever mechanism.

The valve body consists of two bolted parts and a heat-insulating material installed between them.

In a particular case of the utility model, the heat-insulating material may include gypsum plasterboard sheets (GKL, GKLV or GKLO according to GOST 6266) with a thickness of 12.5 mm or glass-magnesite sheets LSU 8-12mm or asbestos slabs.

The damper damper is made of box-type and consists of two metal parts that are put on top of each other and are rigidly fixed, a filling heat-insulating material is placed between these parts. In a particular case, the filling heat-insulating material includes gypsum plasterboard sheets (GKL, GKLV or GKLO according to GOST 6266) with a thickness of 12.5 mm and / or glass-magnesite sheets LSU 8-12mm or asbestos slabs. The metal parts of the damper are provided with end perforation, and the inner (facing towards the serviced premises) part is additionally provided with perforation along the perimeter. Perforation can be made in the form of slotted through holes. Perforations reduce heat transfer from the hot side to the cold side. To seal the damper in the “closed” position, Z-shaped seals filled with heat-insulating material are used. Mineral wool is used as a heat-insulating material.

The fire damper is equipped with an automatic or remotely controlled electric drive with a return spring or a reversible electric drive.

The utility model is illustrated by the following drawings:

figure 1 shows a General view of the fire damper in axonometric projection;

figure 2 shows a General view of the fire damper in front;

figure 3 presents a section A-A, illustrating the scheme of the lever mechanism.

figure 4 shows a side view of the fire damper;

figure 5 shows the bar axis damper.

The following items are used in the drawings:

1 - fire damper body;

2 - connecting flanges;

3 - damper;

4 - electric drive;

5 - lever mechanism;

6 - damper sealing elements;

7, 8 - metal parts of the damper;

9 - sheets of drywall;

10 - glass-magnesite sheet;

11, 12 - slats of the damper axis;

13 - eye;

14, 15 - linkage rods;

16 - axis of the electric drive;

17 - base plate of the electric drive;

18 - emphasis.

The fire damper contains a body 1, consisting of two parts connected by a bolted connection and two connecting flanges 2 made with it as a whole, and a damper 3 installed with the possibility of completely blocking the internal channel of the body 1, an electric drive 4 and a lever mechanism 5.

The two parts of the body 1 of the valve are welded steel structures of rectangular section, interconnected by a bolted connection. Between the two parts of the body 1 along the perimeter there are three plasterboard sheets that perform the function of a thermal break, limiting the transfer of heat from one part (inner) of the valve body to another (external) and serving to increase the rigidity of the body 1.

On the body 1 from the inside, steel sealing elements 6 are installed with rivets to seal the damper 3 in the “closed” position. The sealing elements of the Z-shaped section are placed in two parts of the valve body 1 above and below the damper 3 and are filled with mineral wool, and the sealing elements are placed in such a way that in the closed position they are placed on different sides of the damper, act as a valve seat and provide effective valve seating. sealing.

In addition, in order to seal the space between the damper and the housing in the area of the damper axis, the damper can be provided with a layer of neoprene tape.

The damper 3 is box-shaped and contains covers 7 and 8 and a filling between them, consisting of three successively located from the outer side of the damper to the inner side of drywall sheets 9 and one glass-magnesite sheet 10. The filling of the damper performs the function of a thermal break and, in the event of a fire, prevents heat transfer from premises outside. Perforation along the perimeter of the inner side of the damper and along its end sides also reduces the transfer of heat from the room to the outside.

The damper 3 is movably mounted in the housing with the help of two axes, each of which is fixed in the housing 1 by means of an axle bar fixed to the housing with bolts and a nut rivet (not shown in the drawings). The axle bar is made of two parts in such a way that there is no contact of metal parts between the two bodies (in the thermal break zone) of the valve. Axle bar 11 is fixed on the inside of the housing at the location of the heat-insulating material, and the axle bar 12 is fixed on the outer side of the body 1. The axle bar 11 is attached to the axle bar 12 using draw and spot welding rivets. Due to the tight fit of the axle bar to the body 1, there is no deformation from external influences, which allows the drive to freely open or close the damper 3 of the valve.

The damper 3 is connected to the lever mechanism 5 by means of an eyelet 13 fixed on the inner side of the damper 3. The lever mechanism includes pivotally connected rods 14 and 15. The thrust 15 is connected to the axis 16 of the electric drive 4. Due to the use of the lever mechanism 5, the electric drive 4 is shifted from the axis of the damper and fixed on the outer side of the outer part of the valve body 1, which ensures its stable operation even after a fire.

In a particular case of execution, the axis 16 of the electric drive is made in the form of a structural square.

On the outer side of the housing 1, a support platform 17 is fixed with an electric drive 4 installed on it.

To limit the movement of the damper, a stop 18 is installed on the inner side of the housing.

Description of the device.

The fire damper, equipped with an electric drive with a return spring in the guard position, is constantly energized. In case of emergency operation, the electric actuator with a return spring is disconnected from the power supply, and the damper blade is automatically set to the working position (closed). When power is applied to the actuator with a return spring, after a fire or a power failure not related to a fire, the damper blade returns to the guard position.

Valves equipped with a reversible electric drive in the guard position, when the damper is fully open, are de-energized. In an emergency operation, the valve is energized and closes. To return the valve to the guard position, voltage is applied to other groups of contacts.

In the closed position of the valve, the damper 3 completely blocks the internal passage channel of the body 1. The valve is opened automatically remotely by sending a signal to the electric drive 4 and then transferring the torque from the electric drive 4 to the axle 16, which through the rods of the lever mechanism 5 acts on the damper 3, turning it around the horizontal axis until it stops 18, while pressing the damper 3 against the sealing elements 6.

When a signal is given to the electric actuator to open the valve, the axis of the electric actuator is rotated, the rods of the lever mechanism 5 are moved and the rotational motion is transmitted to the damper 3, which is displaced from the seat formed by the sealing elements 6 and is transferred to the open position.

The transfer of heat from one part of the valve to another in the closed position is prevented by sealing elements 5 and plasterboard sheets forming a damper 3. The axis 11 of the electric drive is shifted relative to the axis of the damper by means of a lever mechanism and is in the plane behind the damper, which limits the transfer of heat to the electric drive and, accordingly, ensures it normal operation even at high temperatures.

Claims (9)

1. A fire damper containing a rotary damper installed in the housing on axles fixed on the housing walls and an electric drive configured to rotate said damper using a lever mechanism, characterized in that the damper housing consists of two parts with a heat-insulating material installed between them, and on Z-shaped seals filled with heat-insulating material are fixed to the inner surface of the body to seal the valve in the closed position along the perimeter of the damper, the rotary damper is box-shaped and contains a heat-insulating material closed from the side and end sides with metal parts. 2. The valve according to claim 1, characterized in that the butterfly valve is perforated on the end sides and on the inner side along the perimeter. 3. The valve according to claim 1, characterized in that the heat-insulating material of the damper includes three sheets of drywall and one glass-magnesite sheet. 4. The valve according to claim 1, characterized in that the body contains integral connection flanges. 5. The valve according to claim 1, characterized in that the heat-insulating material between the body parts is made in the form of three sheets of drywall with a thickness of 12.5 mm. 6. The valve according to claim 1, characterized in that the sealing elements on the inner surface of the housing are filled with mineral wool. 7. The valve according to claim 1, characterized in that the electric drive is placed on the support platform on the outer side of the body, and the axis of the electric drive is offset relative to the damper rotation axis. 8. The valve according to claim 1, characterized in that the lever mechanism is connected to the damper from the inside through the lug. 9. The valve according to claim 1, characterized in that the butterfly valve is installed in the body with the help of two axles, each of which is fixed in the body by means of an axle bar, and a nut rivet, while the axle bar is made of two parts.

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