RU2145041C1 - Ventilation system valve and drive turning the valve flap axle - Google Patents

Abstract

FIELD: ventilation. SUBSTANCE: valve has body accommodating flap mounted on axle for turning and provided with gasket made of thermally expanding material and positioned over perimeter. Valve also includes flap axle turning drive and flexible sealing element made in the form of tape of thermally-expanding material. Flap axle turning drive contains return spring coupled to axle and spring stopping mechanism. Spring embraces flap axle. Stopping mechanism is coupled to spring through lever secured to it. Drive is provided with lock and auxiliary lever, one end of which is secured to spring with lever and the other is coupled to lock made of thermosensitive material and designed for deformation or destruction in case temperature value exceeds preset one. Valve enables sealing of clearance between body and flap with melting and caking of gasket and flexible sealing element. EFFECT: higher efficiency. 9 cl, 4 dwg

Description

 The invention relates to the field of ventilation and can serve to block the ventilation opening in case of smoke and fire.

 Known is a fire damper of a ventilation system comprising a housing with a shutter placed therein, rotatable on an axis, made with a gasket made of thermally expanding material installed around the perimeter, a flexible sealing element and a shutter rotation drive (EP 512414 A2, 11.11.92).

 A disadvantage of the known valve is the lack of sealing of ventilation openings when the room is smoky.

 The technical result of the proposal is the ability to seal the gap between the housing and the damper during spraying and sintering of the gasket and flexible sealing element made of thermally expanding material, when the room temperature exceeds a predetermined temperature.

 Known drive rotation of the valve, containing associated with the axis of the return spring and the mechanism of its locking (SU 1836596 A3, 08.23.93).

 A disadvantage of the known actuator is the insufficient response of the actuator turning the damper axis to a change in room temperature.

 The technical result from the application of the proposed actuator is the ability to rotate the shutter in order to block the ventilation opening when the room temperature exceeds a predetermined one.

 The technical result is achieved by the fact that the fire-retardant fire-retardant valve of the ventilation system comprises a housing with a damper installed therein, rotatable on the axis, made with a gasket made of thermally expanding material around the perimeter, a flexible sealing element and a rotary axis of the damper axis, while a flexible sealing element made in the form of a tape of sealing material.

 The tape is installed on the periphery of the shutter with a size exceeding the size of the gap between the shutter and the inner surface of the housing.

 The tape of the sealing element is fixed on the housing and / or on the shutter.

 The valve is equipped with an additional sealing element made in the form of a tape, similar to the main one, while the tapes are installed on the periphery of the damper and on the body with the possibility of their mutual overlap.

 The valve body is made with a tapering bore, in which the valve is placed.

 The rotational drive of the damper axis comprises a return spring and a locking mechanism associated with the rotational axis, the spring covers the damper axis, and the locking mechanism is connected to the spring by means of a lever fixed to it, and the actuator is equipped with a latch and an additional lever fixed at one end to the spring with a lever, and another, associated with the latch made of a heat-sensitive material and intended for deformation or fracture when the temperature exceeds a predetermined temperature.

 The latch consists of elements interconnected by a hot-melt material.

 The elements of the latch are made in the form of plates.

 The spring is connected at one end to the main lever and the other to the additional lever.

 In FIG. 1 shows the valve in the closed flap position. In FIG. 2 - valve in the open flap position. In FIG. 3 shows a rotary axis drive of the shutter. In FIG. 4 - drive, top view.

 The valve comprises a housing 1 made of galvanized steel sheet, a rotary actuator 2 for the shutter 3 located on the axis 4, a gasket 5 made of thermally expanding material placed on the shutter 3, and a flexible sealing element 6 made of thermally expanding material. The damper 3 is provided with a cladding 7 of galvanized sheet. Profile 8 is made in housing 1. Axis 4 is located in bearing 9.

 The damper axis drive comprises a return spring 10 connected to the axis 19, and a damper locking mechanism 3 made in the form of a main lever 11 connected to one end of the spring 10, an additional lever 12, also connected to the spring 10 and the latch 13 made of heat-sensitive material and intended for deformation or fracture when the temperature exceeds a predetermined temperature. The latch 13 may consist of elements interconnected by a hot-melt material. The locking elements can be made in the form of plates 14 and 15. The drive contains an electromagnet 16, limit switch 17, rocker 18, stop 20.

The valve operates as follows. In suspended position, the valve flap is open. The axis 4 of the valve is rigidly connected with the axis 19 of the actuator. Spring 10 is twisted through an angle of 90 ^o , providing torque to close the damper. The axis 19 of the drive is kept from turning by the main lever 11, which rests on the rod of the electromagnet 16. When power is applied, the axis 19 of the drive is disengaged from the rod of the electromagnet 16 and, by the action of the spring, rotates the shutter to the closed position. Stop the shutter 3 in the closed position occurs when the lever 11 is rotated until it touches the stop 20.

In the absence of power supply, the valve operates automatically when the air temperature reaches 72 ^o C inside the housing 1. The latch 13, consisting of plates 14 and 15 connected by fusible material and disconnected at a temperature of 72 ^o C, releases the additional lever 12 from the actuator housing. Under the action of the spring 10, the lever by turning the rocker 18 brings the rod of the electromagnet 16 out of engagement with the main lever 11, after which the valve 3 is rotated and locked in the closed position.

Opening and closing the alarm circuits when the shutter is open and closed is done by pressing and pressing the buttons of the limit switches 17 with the lever 11. The valve is opened manually by turning it clockwise by an angle of 90 ^{o with a} removable handle with the shutter unlocked.

A gasket 5 is installed around the perimeter of the shutter, expanding at a temperature of ≈ 270 ^o C and sealing the gap between the housing 1 and the closed shutter. The protrusion from the strips of the same material prevents the penetration of gases when the valve is activated before the expansion process begins.

The flexible sealing element 6 is made in the form of a tape of a thermally expanding material, which swells at a temperature of ≈ 270 ^o C as well as the gasket 5.

 The tape can be installed on the periphery of the shutter with a size exceeding the size of the gap between the shutter 3 and the inner surface of the housing 1.

 The tape can be mounted on the housing and / or on the shutter.

 The valve may be provided with an additional sealing element made in the form of a tape. These tapes can be installed on the periphery of the damper and on the housing with the possibility of their mutual overlap. When the air temperature exceeds a predetermined temperature, the swelling of the tapes and the formation of a sealed joint that prevents the penetration of smoke and fire occur.

 The valve body can be made with a tapering bore in which the valve is located. This eliminates the possibility of touching the damper with the walls of the duct during installation.

 The valves are equipped with various versions of electromagnetic, electromechanical and thermosensitive actuators, providing both automatic from fire detectors and remote closing of the valves.

Claims (9)

 1. Fire-retardant fire-retardant valve of the ventilation system, comprising a housing with a shutter mounted therein, rotatable on an axis, made with a gasket made of thermally expanding material around the perimeter, a flexible sealing element and a rotation axis of the damper axis, characterized in that the flexible sealing element is made in the form of a tape of sealing material.  2. The valve according to claim 1, characterized in that the tape is installed on the periphery of the valve with a size exceeding the size of the gap between the valve and the inner surface of the housing.  3. The valve according to claim 1, characterized in that the tape of the sealing element is mounted on the housing and / or on the shutter.  4. The valve according to claim 1, characterized in that it is provided with an additional sealing element made in the form of a tape, similar to the main one, with the tapes installed on the periphery of the damper and on the body with the possibility of their mutual overlap.  5. The valve according to claim 1, characterized in that the housing is made with a tapering bore, in which the valve is located.  6. The drive axis of the damper comprising a return spring connected to the axis and a locking mechanism, characterized in that the spring covers the axis of the damper, while the locking mechanism is connected to the spring by means of a lever fixed to it, and the actuator is equipped with a latch and an additional lever fixed by one the end on a spring with a lever, and the other connected with a latch made of a heat-sensitive material and designed to deform or fracture when the temperature exceeds a predetermined temperature.  7. The drive according to claim 6, characterized in that the latch consists of elements interconnected by a hot-melt material.  8. The drive according to PP.5 and 6, characterized in that the elements of the latch are made in the form of plates.  9. The drive according to claim 6, characterized in that the spring is connected at one end to the main lever and the other to the additional lever.

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