SU1137272A1 - Regulating device - Google Patents

Abstract

A REGULATORY DEVICE, containing a housing embedded in the pipeline with an elastic nozzle installed therein with a passageway gradually tapering in the direction from the ends to the throat, forming a cavity with the inner surface of the housing, which is connected with the source its reliability, the wall of the flexible pipe is made thick, smoothly reduced in the direction from the ends to the neck, and the dimensions of the pipe and pipe are related by the following relations: rf

Description

The invention relates to pipe fittings and can be used, for example, as a hydraulic capacity regulator in pumping installations, i.e., for redistributing the flow rates of the working medium in pipelines operating in parallel or powered from the same central line. A regulating device is known, holding an elastic sleeve mounted in the housing and forming with its inner surface a cavity with a variable volume, communicated by means of a connecting pipe with an inaccurate control of the medium, and by means of the working medium at the elastic sleeve of the known device, its output section, which has been exposed to the zone of greatest pressure drop, is deformed, being drawn into the cap-type, which is accompanied by a hydraulic shock and possible damage Mi ru kava, leads to a decrease in the reliability of the device. The closest in technical essence and the achieved result to the proposed is a regulating device containing a housing embedded in the Pipeline with an elastic branch pipe installed in it with a flow channel that gradually tapers from the ends to the throat and forms a cavity with the inner surface of the housing. 2. The known device also does not provide sufficiently reliable operation. The purpose of the invention is to increase reliability. This goal is achieved by the fact that in a regulating device containing a housing embedded in the pipeline with an elastic patch installed therein with a through-passage smoothly tapering from the ends to the throat forming a cavity with the inside surface of the housing the wall of the elastic nozzle is made of ticin, smoothly decreasing in the direction from the ends to the Levin mountains, and the dimensions of the nozzle and pipe water are related by the following ratios: ii (0.3-0.8) D; (1.65-2.0) (2.3-2.5) f ,; (0.6-3.0) 6, where and is the internal diameter of the pipeline; - diameter of the smallest cross-section of the flow passage of the elastic nozzle; (, dj is the wall thickness of the elastic nozzle, respectively, in the smallest section, inlet and outlet;, 2 dimensions of the sections of the elastic nozzle, respectively, from the inlet and outlet ends to the smallest section. The drawing shows the device, longitudinal section, in an inoperative state (t. e. when there is no movement of the working medium in the pipeline.) The regulating device includes a housing 2 embedded in the pipeline 1 with an elastic nozzle 3 installed in it with a through-passage and a wall thickness gradually decreasing in the direction from to the mouth, forming a cavity 4 with the inner surface of the housing 2, communicated by means of the connecting pipe 5 with a source of control medium 6, and through the drain pipe 7 with the atmosphere. The device works as follows. If necessary, increase the flow of the working medium opens the drain pipe 7 and release the medium from the cavity 4 to the atmosphere. At the same time, under the pressure P of the working medium, the cross-section of the through hole d is increased, providing the necessary throughput. When the drain port 7 is shut off, the system comes to a state of equilibrium and operates at steady state flow until the next change in the pa- d mode. bots. At the maximum possible flow rate of the working medium, the flexible nozzle opens up before pressing its walls against the housing 2. If necessary, reduce the flow rate of the working medium into the cavity 4 through the nozzle 5, supply the control medium. Under the action of pressure РД and elastic forces on the walls of the elastic sleeve

its flow area d decreases until the required flow rate of the working medium is reached, after which the nozzle 5 is cut off. The system returns to equilibrium again. The increase or decrease in the flow area of the nozzle is dictated by the amount of inflow of the working medium to the receiving device. As the inflow increases, the pressure drop & P PJ - P2 by opening the drain pipe 7 is reduced, and the flow cross section is about (thereby increasing until the pump unit reaches the performance mode equal to the inflow. When the inflow decreases,

turnover pressure drop. lR - RZ 2 by overlapping the drain pipe 7 is increased, and the flow area with / decreases until the pump unit again comes to a new performance mode, equal to the new inflow.

The technical and economic efficiency of the proposed power supply is to increase the reliability of the regulating device, which is ensured by decreasing the working pressure drop, increasing the strength of the elastic pipe in the zone of outflow of the working medium and increasing its longitudinal stability. Control environment

Claims (1)

A REGULATING DEVICE, comprising a body built into the pipeline with an elastic pipe installed in it with a passage channel that gradually tapers from the ends to the neck, forming a cavity in communication with the source of the control medium from the ends of the body, characterized in that In order to increase its reliability, the wall of the elastic pipe is made of thickness, gradually decreasing in the direction from the ends to the neck, and the dimensions of the pipe and pipe are connected by the following ratios: d = (0.3-0.8) 13; cA ₂ = (1.65-2.0) ^; CA ₃ = (2.3-2.5) 6 ^? 2 = (0.6-3.0) δ, where D is the inner diameter of the pipeline; d is the diameter of the smallest section of the passage channel of the elastic pipe; the wall thickness of the elastic pipe, respectively, in the smallest section, at the inlet and at the outlet; the sizes of the sections of the elastic pipe, respectively, from the inlet and outlet ends to the smallest section. a . 1137272 J = cd ₂ =? ₂ = where D