RU2641347C1 - Ventilation valve of underground working - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: valve contains a support frame (framing) mounted in the walls of tunnel, a leaf (web) hingedly fixed to the frame, closing-opening mechanism of the web mechanically connected to the web and framing and gap sealing unit between the web and the frame with a closed web, made of the elastic material placed between the approaching surfaces of the web and the frame when the valve is closed. In this case, the gap sealing unit is made in the form of a rigid collar placed along the perimeter of frame in the zone of abutment to the border of web, while on both sides of collar a flameproof elastic sealing profile made of material that increases considerably in the volume with heating is fixed, and collar height is smaller than the height of elastic sealing profile. The collar serves as a stopper for the initial deformation of elastic sealant when the web is closed and serves as a reinforcing element with an increase in the volume of sealant when it is heated.

EFFECT: ensuring reliable operation of vent valve.

3 dwg

Description

The invention relates to means for the engineering of underground mine workings, in particular to fire ventilation valves, designed to control the amount of air passing in the cross section of the tunnel, to block the spread of fire and combustion products in the event of a fire in the tunnel.

Known fire ventilation valves designed to regulate the amount of air passing in the cross section of the tunnel, block the spread of fire and combustion products in the event of a fire in the tunnel, containing a support frame (frame) mounted on the tunnel walls, a hinge (leaf) hinged on the frame, as well as a mechanism for closing and opening the web mechanically connected with the web and the framing and a sealing unit for the gap between the web and the frame when closing the web, made It is in the form of an annular seal made of elastic material placed between the adjacent surfaces of the web and the frame when the valve is closed (see, for example, the description of the invention to RF patent No. 2479722 C1 of 10.26.2011).

However, this embodiment of the ventilation valve when performing the sash of metal leads to warpage of the sash and the formation of cracks in the sealing unit between the elastic seal and the frame when exposed to open flame on the canvas. With the formation of gaps, the combustion products and flame penetrate into the volume of the tunnel, which is cut off by the ventilation valve.

To prevent gas penetration, the gap sealing unit is made in the form of a rigid collar located along the perimeter of the frame in the zone of abutment to the web frame; on both sides of the flange a fireproof elastic sealing profile is made on the frame, made of a material that increases significantly in volume when heated. The height of the collar is less than the height of the elastic sealing profile in the free state, while the collar serves as a limiter of the initial deformation of the elastic seal when closing the web and serves as a reinforcing element when the volume of the seal increases when it is heated.

The ventilation valve device (see Fig. 1) consists of: a frame 1 mounted in the walls of the tunnel, a web 2 pivotally mounted on the frame, and a shutter opening-closing mechanism 3. In addition, there is a gap sealing unit 4 connected to the frame, fixed between the canvas and the frame. The sealing unit 4 (Fig. 2) is made in the form of two strips of elastic refractory material 5 and 6, placed parallel to each other along the perimeter of the frame, and a separation, reinforcing and guide collar 7 made between them made of hard material, such as steel, placed between them. Moreover, the height H of the elastic bands 5 and 6 in the free state is greater than the height H1 of the hard shoulder (Fig. 2). An elastic refractory material (for example, OGRAX-P) has the property of significantly increasing in volume when heated.

The operation of the ventilation valve is as follows.

When a fire occurs in one of the parts of the underground mine with a ventilation valve installed in it, a signal is sent to close the blade, and the valve closes, blocking the flow of fresh air to the ignition source. If the fire continues, the surface of the web, which is exposed to heat, is heated and heats the elastic sealing strips 5 and 6, which, increasing in volume, fill the gaps between the web 2 and the frame 1, resulting from warping of the surface of the web. Combustion products do not penetrate that part of the underground mine that is protected by a ventilation valve. The shoulder 7 serves as a limiter of the initial deformation of the elastic sealing strips 5 and 6 (Fig. 3), allows you to direct the expansion of the body of the sealing material in the right direction and to form the optimal volume of material when it expands in the gap between the web 2 and the frame 1. The need to use two strips of elastic expanding material on both sides of the shoulder 7 due to the fact that a fire can occur both on one and the other side of the ventilation valve, and the main heating can occur as one side of the canvas, and on the other.

This design solution allows you to block the increase in the gap between the frame and the web when warping the latter under the influence of high temperature, which ensures reliable operation of the ventilation valve. This design of the sealing unit can be used in valves, distillation and station gates, doors, etc., providing sealing of the Metro.

Claims (1)

Ventilation fire damper, designed to regulate the amount of air passing in the cross section of the tunnel, to block the spread of fire and combustion products in the event of a fire in the tunnel, containing a support frame (frame) mounted on the tunnel walls, a hinge (leaf) hinged on the frame, mechanically the mechanism of closing-opening the web connected with the web and the framing and the sealing unit of the gap between the web and the framing when the web is closed, made in the form of an annular seal of elastic material placed between the adjacent surfaces of the web and the frame when closing the valve, characterized in that the sealing unit of the gap is made in the form of a rigid collar located along the perimeter of the frame in the area adjacent to the frame of the fabric, while on both sides of the flange on the frame fixed fire-retardant elastic sealing profile made of material significantly increasing in volume when heated, and the height of the shoulder less than the height of the elastic sealing fillet, while the shoulder serves as a limiter of the initial deformation of the elastic seal when closing the blade and serves as a reinforcing element with an increase in the volume of the seal when it is heated.

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