SU1170432A1 - Flow governor - Google Patents

Abstract

A FLOW CONTROLLER, comprising a housing with a shaft mounted perpendicular to the housing axis, on which a damper and a cam, kinematically connected to one end of the spring, are attached, the other end of which is fixed to the housing, in order to improve the accuracy of regulation constructions, the cam is kinematically connected with the spring at all angles of rotation of the shaft. the cam is made with the profile described by the equation SFlf4b4 (fb.,, a I × where R is the cam radius when the shaft turns at an angle с /, m R (, is the cam radius when a (.. equal to zero, M; Q is the flow rate, m / Cji V is the specific gravity of flowing through the gas flow controller kg / m J (L N is the flap length equal to the height of the regulator body, m is the acceleration of gravity, m / с J с - spring stiffness, kg / m; 5 - area of the cross section of the controller casing, m j s / - angle of rotation of the shaft with the flap, rad 4 00 e

Description

The invention relates to devices for distributing ventilation air among mine workings and can be used at mining enterprises in underground mines.

The aim of the invention is to improve the accuracy of regulation and simplify the design of the regulator.

The drawing shows the proposed jq controller, General view.

The regulator consists of a housing 1, • a shaft 2 with a cam 3 attached to it and a shutter 4, a roller 5, a spring 6 and a counterweight 7. Profiled surface! the cam has the form described by the equation where R is the radius of the cam when the shaft rotates through an angle of ° C, m;

J _about is the radius of the cam with cL equal to zero, and when moving the end of the spring equal to zero, m;

Q is the flow rate, m ³ / s ·, γ is the specific gravity of the gas flow flowing through the regulator, kg '/ m ³ ;

N - the length of the valve equal to the height of the housing of the regulator, m ·; · {T - acceleration of gravity, m / s ² ;

- c - spring stiffness, kg / m;

S is the cross-sectional area of the regulator body, m ² ;

C / - angle of rotation of the shaft with a flap, rad.

The regulator operates as follows.

When the air flow moves through the regulator, the shutter 4, by aerodynamic forces, rotates in the direction of reducing the regulator's flow area. Together with the damper, the shaft 2 and cam 3 rotate, which deflects the roller 5 fixed on the free end of the spring 6 with its profiled surface. The rotation of the damper 4 continues until the moment of aerodynamic forces acting on the damper 4 is balanced by the moment of siping acting on cam 3 from the side of the spring 6. The cam 3 profile, made according to the given formula, ensures constant air flow through the regulator in a given range of pressure drops on the regulator.

Claims (1)

FLOW REGULATOR, comprising a housing with a shaft mounted thereon perpendicular to the housing axis, on which a shutter and a cam are fixed kinematically connected to one end of the spring, the other end of which is fixed to the housing, characterized in that, in order to increase the accuracy of regulation and simplify the design, the cam is kinematically connected with the spring at all angles of rotation of the shaft, and the cam is made with a profile described by the equation where R is the radius of the cam when the shaft rotates through an angle c /, Mj R ₆ is the radius of the cam with aL equal to zero, and when moving the end of the spring equal to zero, M; Q - flow rate, m ³ / s; y is the specific gravity of the gas flow through the regulator kg / m ³ jN is the valve length equal to the height of the regulator body, m (ς · is the gravity acceleration, m / s ² j s is the spring stiffness, kg / m; 5 - area of the cross section of the regulator body, m ² jd - angle of rotation of the shaft with a damper, rad. SU ,, 1170432> 1 1170432 2