RU2004921C1 - Hydraulic regulator of rate of flow of fluid medium - Google Patents

Description

The invention relates to devices for regulating liquids of media and gases supplied through pipelines under various pressures and can be used on pipelines of sprinkler machines, oil pipelines, etc.

Flow regulators are known, common to which are the presence of various body shapes and a regulating mechanism, which are used as membranes, a valve seat, and a movable-fixed cylinder.

Due to the presence of rigid elements in the control system, it is necessary to obtain fine control with a sufficient degree of accuracy, otherwise it is impossible to smoothly control the regulator's throughput.

As a prototype, a flow regulator was selected, comprising a housing, between the inlet and outlet cavities of which a regulating body is installed, made in the form of a shutter mounted opposite the seat, and the shutter is made in the form of a disk with petals bent in different directions.

The disadvantage of this regulator is the design complexity, lack of versatility and low degree of operating efficiency due to the fact that during regulation it is necessary to directly access the controller location, and since it is built into the pipeline, it is impossible to control the flow rate on pipelines located under the surface land or water.

The purpose of the invention is to simplify the design, achieve versatility and increase operational efficiency due to remote control of the controller,

Figure 1 shows a regulator, a general view; figure 2 is a section aa in figure 1; in Fig.Z - section BB through the plane of the flanges.

The controller comprises an elongated body 1, inside of which a damper 2 is tightly located with a rounded hole 3 located closer to the lower edge of the damper 2. A chamber 4 is formed between the upper edge of the damper 2 and the upper wall of the housing 1, connected with an elongated tube 5 to a tap with a measuring cylinder b provided with a nozzle 7 with a tap and a fitting 8 with a tap located in the upper part of the chamber 6. A second chamber 9 is formed between the lower edge of the shutter 2 and the lower wall of the housing 1, connected by an elongated tube 10 to the edge om the second measuring cylinder 11 provided with a pipe 12 with a tap 13 and fitting with a crane. To the housing 1, in the center, pipes 14 are attached (Figs. 2, 3), terminating on both sides with flanges 15 with holes 16 radially longitudinal.

The regulator is integrated in the pipe 17.

The flow controller is operated as follows.

First, the cylinder 6 is selected equal to the volume of the chamber 4 when the shutter 2 is located in the lowest position. Then, the cylinder 6 is graduated so that the lines of the volume of the cylinder 6 correspond to the decreasing caliber of the hole 3 in the shutter 2 when moving the latter inside the housing 1. The same is done when the volume of the cylinder 11 and the chamber 9 are matched. The measured cylinder 6 is filled with liquid density more than water, or water. With the valve of the nozzle 8 closed and the valves of the tube 5 and nozzle 7 open, air from the overpressure source is pumped into the cylinder 6. The liquid from the cylinder 6 through the tube 5 enters the chamber 4 and moves the valve 2 inside the housing 1

down. The hole 3 is buried in the cavity of the housing 1, due to which the clearance of the pipeline is reduced. The required clearance is determined by the flow rate of the liquid in cylinder 6, which ensures a reduction

the amount of water or other liquid passing through the regulator. To increase the flow rate of the liquid, i.e. to increase the clearance of the regulator, the measuring cylinder 11 is filled with water or other liquid, the valve of the nozzle 13t is closed, the valves of the tube 10 and the pipe 12 are opened, through which air is pumped into the cylinder 11 from the pressure source. The fluid from the cylinder 11 enters the chamber 9 and moves

the shutter 2 inside the housing 1 is upward, as a result of which the lumen of the regulator increases until the hole 3 fully coincides with the lumen of the nozzles 14. When the shutter 2 moves up, it squeezes out the liquid

from the chamber 4 to the graduated cylinder 6, for which the valve of the tube 5 is opened and the valve of the nozzle 7 is closed. To bleed air from the upper part of the cylinder 6, the valve of the nozzle 8 is opened.

the clearance of the regulator of the manipulation of the cylinder b is repeated, while the liquid from the chamber 9 is transferred through the tube 10 to the cylinder 11, for which the valve of the tube 10 and the valve of the fitting 13 are opened, and the valve of the pipe 12 is closed.

Unlike the prototype, in the proposed flow regulator, the regulating element is made with a hole commensurate with the clearance of the housing and placed in the housing with

the possibility of sliding and with the formation of two chambers on the sides of the casing, connected by elongated tubes to two graduated cylinders, equipped with fittings and a pipe from a source of compressed air and extended outside the regulator, the casing being equipped with a flange with holes with radial longitudinal holes.

Achievement of the set goal - simplification of the design - has been achieved; for installation, components of a simple design have been used - body and damper, tubes and graduated cylinders.

Accomplishment of the set goal - achievement of universality - achieved in

Claims (2)

1. HYDRAULIC FLOW CONTROL REGULATOR, comprising a housing provided with inlet and outlet nozzles with flanges with openings, and a regulating element, characterized in that the inlet and outlet nozzles are aligned, the regulating element is made in the form of a piston with a cylindrical cylinder connectable channel 5 0 5 due to the fact that the holes in the flange are made longitudinal along the radius of the regulator, which makes it possible to combine the regulator with pipelines of various sizes. The achievement of the set goal - increasing operational efficiency - was achieved by moving the control panel — a cylinder with nozzles and fittings — out of the position of the regulator, which makes it possible to provide remote control of the regulator. (56) Copyright certificate of the USSR No. 1667018, cl. G 05 D 7/01. 1989. USSR copyright certificate Ne 1674067, cl. G 05 D 7/01. 1988. or disconnecting the nozzles when moving the piston inside the housing, the ends of the piston forming two chambers with the housing, each of which is connected by means of tubes with taps with measuring cylinders filled with liquid and connected to a source of compressed air. 2. The regulator according to claim 1, characterized in that the holes in the flanges are made longitudinal along the radius. / 4 -I # 15 16 17 FIG. I Fig.Z