SU1320446A1 - Air flow regulator - Google Patents

Abstract

The invention relates to the mining industry and is intended to maintain a predetermined air flow rate in individual branches of a ventilation network in underground mines. The purpose of the invention is to increase the reliability of the regulator during blasting operations. In the housing (K) 1, there are 2 lobes of the turning valve 2, asymmetrically fixed on the axis 3, the upper edge of which slides along the supporting spring-loaded rods m 4. Along the guides 5 located on the inner wall of K 1, the axis 3 is attached, to which one return end is attached springs 6, and the other end is connected to K 1. On both sides, the flap 2 has grooves 7, compatible with rods 4 in the fully closed position of the flap 2 of the K 1 section. 8. The other end of the interaction It operates with damper 2. With a sharp increase in the pressure differential (blast wave), the damper 2 completely overlaps the cross section of the regulator. As a result, the grooves 7 on the shutter 2 are aligned with the rods 4 and the shutter deflects. After the wave has passed, the valve 2 returns to its original position under the action of the spring 8. 3 Il. § (L 573 with N3 O 4 05 fic. 2

Description

The invention relates to the mining industry, namely, devices for regulating and distributing air flows, and is intended to maintain a predetermined air flow in separate branches of a ventilation network in underground mines.

The purpose of the invention is to improve the reliability of the air flow regulator during blasting operations.

FIG. 1 shows schematically the air flow regulator, vertical section; in fig. 2 - the same, horizontal section; in fig. 3 shows the node I in FIG. 2 (support rod).

The regulator includes a housing 1, in which a rotary valve 2 with an axis 3 is located, support rods 4 along which the upper edge of the flap 2 slides. spring 6, which at one end is fixed in the middle part of the axis 3, and the other to the housing 1. On both sides of the rotary valve 2 there are grooves 7 located at the level coinciding with the support rods 4, made spring-loaded, and corresponding to the full closure of the passage 1 of the regulator body. Behind the butterfly valve 2 on the housing 1 there is an additional return spring 8, which returns the butterfly valve 2 to the position held before the explosion.

The air flow regulator operates as follows.

In the design mode, the rotary damper 2 under the action of the regulating spring 6 is retracted into the forward extreme position and is located at the minimum angle to the direction of the air flow, resting on the support rods 4. As the air flow increases under the action of the growing dynamic pressure, the unbalance of the damper 2 increases, in this case, the force on the flap 2 increases, as a result of which it moves along the stream and, due to the presence of spring-loaded support rods 4, makes a turn towards the flow due to how much This happens until the aerodynamic imbalance of the valve 2 is compensated for by the increased spring force due to its deformation. Because

the flow area of the regulator has decreased, an equilibrium regime sets in, which leads to stabilization of the air flow through the regulator.

When the blast wave acts on the regulator, the damper 2, moving along the supporting rods 4, completely covers the cross section of the regulator and the grooves 7 on the damper 2 are aligned with the supporting rods 4, as they are made on the damper 2 in places

which correspond to the support rods 4 with the regulator section completely closed. The movement of the flap 2 is limited by the upper wall of the regulator housing 1, therefore the flap 2 can only completely block the cross section of the regulator with a sharp increase in pressure drop (blast wave), as a result, the grooves 7. on the flap 2 are aligned with the support rods 4 and the flap deflects 2

After the passage of the blast wave, the flap returns to its original position, as under the action of the return spring 8, the flap 2 begins to return to the working position, creating pressure on the support rods 4, which shift in

side openings of the casing of the regulator 1, freeing the passage of the shutter 2 upwards. After the flap 2 has passed, the support rods 4 are returned to their original position by the action of the compression springs and the regulator is ready for further work in the design mode.

Claims (1)

Invention Formula An air flow regulator comprising a housing, a damper located within it, asymmetrically fixed on an axis, mounted for movement in guides and connected to the housing by means of a return spring, and supporting rods fixed on the inner wall of the housing, characterized in that the purpose of improving the reliability of the air flow regulator during blasting operations, it is equipped with an additional return spring, one end of which is fixed to the inner wall of the housing, and the other is mounted with the ability to interact with the valve, the valve has grooves made with the possibility of alignment with the supporting rods in the position of complete overlap by the valve of the body section, and the supporting rods are spring-loaded. Air 362 Fig.Z