SU1184952A1 - Air flow regulator - Google Patents

Abstract

AIR FLOW REGULATOR includes a horizontal pivot axis, rigidly fixed on the axis of the flap and pulley with a flexible draft: a flap turning mechanism connected to it, a container with liquid, characterized in that in order to improve the sanitary and hygienic working conditions of miners by ensuring supply to working faces the required amount of air, the mechanism of rotation of the sash is made in the form of a pair of geometrically identical bodies of variable cross section - with negative buoyancy, attached opposite to by the ends of the flexible mounts mounted on the pulley with the possibility of vertical movement of bodies, the sum of the volumes of the parts of the bodies immersed in the liquid is equal to the sum of the volumes of the parts of these bodies not immersed in the liquid, and the weight of one body is greater than the weight of the other body by the amount of its volume on the specific gravity of the fluid, while the body of smaller weight is located by the wide base upward first from the second of the incoming air flow, and the body of greater weight is located by the wide base downward second from the side of the incoming flow ha.

Description

The invention relates to ventilation and can be used to control ventilation in underground workings and ventilation ducts, as well as to ensure a stable flow of inelastic media, water, oil, etc.

The aim of the invention is to improve the sanitary and hygienic working conditions of miners by providing the necessary amount of air to the work areas.

FIG. 1 shows a schematic side view of the air flow regulator; in fig. 2 - the same, front view; in fig. 3 - a variant of the air flow regulator with two pulleys and two pairs of profiled bodies, a general view.

The air flow regulator contains a shutter 2 installed in the channel 1, rigidly mounted on the rotary axis 3, which is horizontally mounted in the opposite walls of the channel 1. At the end of the rotary axis 3, the pulley 4 is rigidly fixed, through which the flexible ha 5, To the opposite ends of the rod 5, the geometrically identical bodies 6 and 7 of variable cross section with negative buoyancy are attached by opposite bases, and the body 6 of lower weight is attached to the rod 5 by a wide base and ozheno first downstream air flow movement, and the body 7 attached to the greater weight of t n and narrow base 5 is disposed downstream of the second movement. The bodies 6 and 7 of variable cross section are placed in the liquid 8 located in the container 9.

The flow controller operates in the following manner.

In the initial position, the flap 2 is arranged at a certain calculated angle towards the flow with its long side, the body 6 of lower weight, located first on the side of the incident flow, is completely in the air, the body 7 of greater weight, located second on the side of the incident flow, is completely in fluids 8, with both bodies 6 and 7 touching the mirrors of fluid 8 by their narrow bases. The air flow moves along channel 1, acts on the flap 2 and due to the resultant force from the air pressure (the difference of the forces from the air pressure on the larger and smaller parts of the flap) rotate the flap 2 fixed on the axis 3 in the direction of air flow. the flow area of channel 1 is reduced. Together with the flap 2 and the axle 3, the pulley 4 rigidly fixed on the axis 3 rotates. In the process of rotating the pulley 4 and moving the pulley attached to the pulley 4, the pulleys 5 move vertically in opposite directions to body 5 and 7 of variable cross section J the body 6 located first in the course of the flow is immersed in the liquid 8 by the amount of linear movement of the thrust rod 5, and the body 7 located second in the course of the flow rises from the liquid by the same amount

8, creating in both cases a moment of forces opposing the rotation of the flap 2 under the influence of air pressure. When the moment of force on the axis 3 (on the pulley 4) due to the impact

air flow to the flap 2

turns out to be equal to the snp torque generated by bodies 6 and 7, the flap 2 will take a position at which such a passage will remain for the passage of air

part of the cross section of channel 1, which will provide the required air flow. Decreasing the air pressure on the flap 2 (i.e., decreasing the amount of air) decreases

torque on axle 3 and pulley 4 due to airflow. The balance of opposing torques is disturbed. The moment created by bodies 6 and 7 tends to become smaller and compare with

moment of force from the impact of flow on the flap 2. Therefore, the second body 7 along the flow submerges into the liquid 8, and the first 6 along the flow of the body 6 rises out of the liquid 8, while through pulley 5 rotate the pulley 4, axis 3 and the flap 2 in the opposite direction side to align the opposing torques. The flow area of channel 1 is increased and channel 1 is given a specified amount of air.

The flow regulator with several pulleys 4 and several pairs of geometrically identical bodies 6 and 7 of variable cross-section works similarly, but in this case large forces are provided to counteract the rotation of the flap 2, i.e. The regulator can operate in the area of high pressures and air flow.

The use of the invention allows to improve the sanitary and hygienic working conditions of miners by supplying the required amount of air to the working faces, improve the reliability of the controller by simplifying the design and expand the range of application ej-o.

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Claims (1)

. AIR FLOW REGULATOR, including a horizontal rotary axis, a sash and a pulley with a flexible rod rigidly fixed to the axis _; the sash rotation mechanism connected to it, a container with liquid, characterized in that, in order to improve the sanitary and hygienic working conditions of miners by providing the necessary amount of air to the working faces, the sash rotation mechanism is made in the form of a pair of geometrically identical bodies of variable cross section - with negative buoyancy, attached by opposite bases to the ends of the flexible rod, mounted on a pulley with the possibility of vertical movement of bodies, the sum of the volumes of the parts of the bodies; immersed in a liquid is equal to the sum of the volumes of the parts of these bodies that are not immersed in the liquid, and the weight of one body is greater than the weight of the other body by the product of its volume by the specific gravity of the liquid, while the body of less weight is located wide base up first from the second oncoming air flow, and the body of greater weight is located with the wide base down second from the side of the incoming air flow.