SU576568A1 - Flow controller - Google Patents

Description

one

The invention relates to automation components designed to regulate the flow of gas or liquid in pneumatic systems, and can be applied in various fields of technology, mainly in the gas industry.

A known flow regulator, comprising a housing with shaped windows, is disposed in a guide sleeve having through holes and fixedly mounted in housing 1. The regulating claian is manually actuated to maintain a predetermined flow rate of the working fluid. The rotation of the handwheel creates a force transmitted to the plunger, which, turning at a certain angle, aligns its profile windows with the through-holes of the guide sleeve. A flow section is formed to provide the desired flow.

Manual regulation creates an advantage in operating the control valve, since it requires the constant presence of a person (operator), who follows the flow of the working fluid. In the event of a change in the inlet pressure, which entails a change in the flow rate at the outlet, the operator re-establishes the specified flow rate by turning the flywheel.

The lack of automatic maintenance of a stable flow rate is a disadvantage of the described control valve.

Another flow regulator is known, in the casing of which the inlet and outlet openings are filled and inside it is mounted with the possibility of rotating the preloaded plunger 2.

A disadvantage of the known device is the inconsistency of the structure.

In order to simplify the design, in the proposed controller, the axis of the output channel of the plunger is located tangentially with respect to the axis of the pluncher, and the flow area of the output channel is smaller than the flow area of the input channel.

FIG. 1 depicted the proposed controller; in fig. 2 - section A-A of FIG. one.

In case 1 of the flow regulator having inlet 2 and outlet 3 nozzles, hollow pluncher 5 is installed on rolling bearings 4 with inlet channel 6, output tangential channel 7 and internal cavity 8. Screw 9 by means of adjusting 10, brush II, lever 12, fixed on axis 13 of the plunger, associated with the plunger 5.

Adjusting the regulator to a predetermined flow rate at a certain inlet pressure is carried out by rotating the screw 9, which, by measuring the force of the adjusting rod 10, moves the brush 11 by turning the lever 12 and the connecting rod 5 associated with it.

2 of the housing 1 is fed under high pressure working fluid that passes the inlet channel 6 of the plunger 5, enters the internal cavity 8 and flows into the output tangential channel 7 and then into the outlet nozzle 3 of the box- 5, resulting in the outflow of working fluid through the tangential channel 7 reacting Yes, the force acting on the plunger 5, overcoming, the resistance of the adjusting spring 10, turns the plunger counter-clockwise so that the output tangential channel 7 partially overlaps the wall 14 of the housing. Using the screw 9, changing the force of the adjusting spring 10, it is possible to find such a ratio of opposing forces, reactive 15 and spring force, that the flow area of the tangential channel 7, partially covered by the housing wall 14, gives a given flow rate at a given inlet pressure. In the case of a constant inlet pressure, the flow regulator operates in a steady state.

In the event of a pressure drop at the inlet to the regulator, the flow rate at the outlet drops. The reactive force of the outflow of the working fluid from the tangential channel 7 also decreases. The balance of reactive force and force of the spring 10 is broken. Restoring the balance, the adjusting spring expands, moves the rod, turns the lever and plunger in a clockwise direction. Tangent cross-section 30

channel is magnified. The flow rate increases to the set level.

In the event of an increase in pressure at the inlet to the regulator, the flow rate at the outlet increases. The reactive outflow force increases and, acting on the plunger, rotates it so that the flow area of the tangential channel decreases, consequently, the flow rate decreases.

The presence of a tangential output channel in a spring-loaded hollow plunger allows us to obtain a simple design of a flow regulator with low weight and dimensions.

Claims (2)

1. Certificate of author No. 391320, cl. F 16KZ / 04, 1971. 2. US patent number 3.393.700, cl. 137-504, publ. 1968.