SU767711A1 - Flow regulator - Google Patents

Description

one

. The invention relates to the field of instrumentation and is intended to stabilize the flow of liquids and gases. 5

A regulator is known that operates on the principle of stabilization, pressure drop across a throttle. In this regulator, a change in pressure before or after the regulator causes a change in flow rate JQ yes. When a dros.el is blocked, the flow rate also changes, since the latter is determined by the conductivity of drossel 1.

Most closely related to the technical essence of the invention is the flow controller, comprising a housing divided by a sensing unit into a flow chamber and a flow-through chamber connected through an orifice coaxially with inlet-20 fitting, with an inlet chamber connected to the flow-through chamber , obrazukmtsy with a sensitive node throttle nozzle-damper pair, as well as the same master flow control 2.

The disadvantage of this regulator is the dependence of its sensitivity on the spring stiffness, which acts as a flow master. thirty

The purpose of the invention is to eliminate this drawback, i.e. improving the accuracy of the controller.

This goal is achieved by the fact that the sensing unit is designed as a two-membrane unit, and the flow master is designed as an offset repeater, the input and output of which are connected respectively to the input controller Km1 and the intermembrane killer of the two-membrane unit, the membrane with a large effective area of which is located fixed camera.

The drawing schematically shows a flow regulator.

The regulator includes a housing 1, divided by a sensing unit 2 into a flow chamber 3 and a non-flow chamber 4 connected through an opening 5 coaxially with the inlet fitting 6, with an input chamber 7 connected to the flow chamber 3, in which the outlet fitting 8 is installed, which forms node 2 throttle nozzle-valve 3, as well as the setting device 9 flow. The sensing node is made in the form of a two-membrane unit, and the flow master is in the form of a repeater with an input 10 and output 11 of which are connected respectively to the input chamber 7 and the intermembrane chamber 12 of the two-membrane unit whose membrane 13 has a large effective area and is located on the side without running chambers 4, the inlet chamber 7 communicates with the flow through 3 through the 5th core 14. The membrane 15 of the two-membrane unit has a rigid center 16. The fitting 8 has an upper edge 17.

The regulator works as follows. ,

The liquid or gas enters through the nozzle 6, the inlet chamber 7 and the opening 14 into the flow chamber 3 and through the valve formed by the rigid center 16 and the upper edge 17 of the fitting 8, to the regulator outlet. Hole 5 is located coaxially to the fitting b and somewhat smaller than its internal diameter. The distance 1U1 between the edges of the holes 5 and the inlet fitting 6 is selected so that when there is a flow through the regulator in the non-flowing chamber 4, a pressure equal to the sum of static and dynamic is created. In chamber 3, the pressure is static. The pressure difference in chambers 3 and 4, equal to the dynamic pressure, is perceived by the two-membrane unit and is balanced by the reference pressure in the inter-membrane chamber 12.

The support pressure is from the equilibrium conditions of the membrane unit and is equal to the sum of the static pressure of the metered medium in the flow chamber and the pressure equal to the product of the | 5a stabilized flow rate, the coefficient of stabilized consumption,. obtained by the ratio of the effective area of membrane pain to the difference between the effective areas of the larger and smaller membrane.

A definite specific displacement of the reference pressure values is static provided by the flow adjuster 9, operating as a repeater with a shift.

Flow rate change caused by input or output pressure change or clogging of the valve control or supply lines § 5th change of the valve cross section to compensate for the change in flow. Napier; The pressure applied to the regulator inlet causes an increase in the flow rate and, consequently, an increase in the dynamic pressure in chamber 4, which leads to an imbalance in the two-membrane unit that begins to move, covering the output section of the valve and restoring 5 to the previous flow rate.

In the event of a decrease in pressure at the inlet of the regulator or clogging of one of the inlet pipes or valve, the flow through the regulator will decrease,

Q, respectively, decreases the dynamic head in chamber 4 and the two-membrane unit that is out of equilibrium and increases the flow area of the control valve until the original flow rate is restored.

  Adjusting the controller to a specific flow rate is done by setting the flow master.

The presence of a deaf chamber formed by a two-membrane unit, and feed

0 into it, the reference pressure from the flow control unit allows to obtain a high sensitivity of the regulator and greater accuracy in stabilizing the flow of corrosive liquids and toxic gases.

Claims (2)

1. Author's certificate of the USSR 490090, cl. G 05 D 7/01, 1973. 2.ABtopcKoe certificate of the USSR No. 362284, cl. G 05 O 7/01, 1971 (pro, toip). gz