SU1418664A2 - Swirl-type flow rate regulator - Google Patents

Abstract

The invention relates to automatic regulation and can be used in pneumatic and hydraulic systems of installations with increased requirements for the dynamic characteristics of flow controllers. The purpose of the invention is to expand the scope of application of the vortex flow control. The vortex flow regulator includes a housing 1 with a vortex valve 2, an inlet valve 7 with cavity 4, a tangential control channel 5 and a radial feed channel 6 for the vortex valve, a flow divider 7 with a resilient plate 9 installed opposite to the flow, the free end of which is in contact with the rods pistons 10 and 11 pneumatic pushers, and output channel 12. Nadporshnevye chambers 13 and 14 pneumatic actuators are communicated by channels 15 and 16, throttles 17 and 18, respectively, with channels 5 and 6, and through throttles 19,20 - with drainage. Channels 5 and 6 are connected to cavity 4 by throttling slots 21, 22 between the casing and the free end of the plate 9 of the flow divider, and the rod cavities of the pneumatic pushers are connected by the drainage channels 23 and 24 to the atmosphere. 1 z.p, f-ly, 1 ill. from 15 L J0f3 J9 23 21 00 O5 O5 4 hch I / 11 2Z1S1B1114 20 24

Description

The invention relates to the field of automatic control, can be used in pneumatic and hydraulic systems of installations with increased requirements for the dynamic characteristics of flow controllers and is an improvement of the invention according to the authors. St. 1543D.94 ,,.

Qerib Conjugation is an extension of the field of application of the pja-vanes vortex regulator. I The drawing shows a vortex flow controller.

I The regulator contains KOjpnyc 1 with a vortex valve 2, inlet channel 3 with cavity 4, tangential channel 5 U | Control, radial channel 6 for supplying the vortex valve, divider 7 flow, fixed in the housing with pins 8: with console mounted opposite nioTOKy elastic plate 9, the free end of which is in contact with the piston rods 10 and 11 of the pneumatic assembly; the oil spruce, and the output channel 12. The overhead piston 13 and 14 of the pneumatic pneumatic actuators are communicated with channels 15 and 16 through the throttles 17 and 18 with opposite tangential control channel 5 and radial channel 6 feeding the vortex valve, and through the throttles 19 and 20 - with drainage. Channels 5 and 6 are connected to cavity 4 of input channel 3 by throttling slots 21 and 22 between the casing and the free end of the elastic plate 9 of the flow divider, and the rod of the pneumatic pusher cavities are connected by the drainage channels 23 and 24 to the atmosphere.

Vortex flow control works as follows.

The gas enters through the inlet channel through the slots 21 and 22 into the channels 5 and 6, between which a positive pressure drop is established, upwardly bending plate 9 of the flow divider, thereby increasing the throttling effect of the slot 21 and weakening the throttles

about

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Q

with

five

The operating action of the gap 22. At the same time, the gas through the channels 15 and 16 enters the chambers 13 and 14 and the drainage channels 23 and 24. Depending on the setting of the pairs of throttles 17, 19 and 18,20, the chambers 13 and 14 establish a pressure, proportional to the pressure m in channels 6 and 5, while the plate 9 begins to act the resultant force acting on the pistons 10 and 11 of the pneumatic actuators, until a balance is established between the elastic forces of the plate 9 and the force acting on it from the pressure drop in channels 5 and 6 and concentrated forces from action pneumotolkat lei.

In steady-state mode, the gas entering the vortex valve 2 twists and the valve acts as an amplifier with negative feedback.

The geometrical characteristics of valve 2, flow divider, pneumatic pushers can be chosen such that when the input pressure changes, the gas flow through the regulator does not change, ie, the regulator acts as a flow regulator, the value of which is determined by the setting of the throttles 17-20.

Claims (2)

Invention Formula 1, Vortex flow regulator by auto, EV, N 1343394, about tl and h and ha, and so that, in order to expand the scope of application of the vortex flow regulator, over-piston chambers of pneumatic pushers are communicated through chokes with drainage, and In the channels connecting these chambers, respectively, with opposite tangential control channel and the radial feed channel of the vortex valve, chokes are also installed. 2. POP regulator 1, characterized in that the throttles are adjustable.