RU1831999C - Vacuum regulator - Google Patents

Abstract

The invention relates to agriculture. The purpose of the invention is to simplify the design of the device and increase the stabilization of the vacuum mode of the milking unit. The vacuum regulator comprises a housing 1 and a valve 3 located therein, having a membrane 4 at the base. The valve 3 is made in the form of a wedge with one movable 5 pivotally connected to another stationary 6 walls. The fixed wall 6 divides the passage section of the outlet pipe 7 into two equal parts, and the movable wall 5 has an extension 8 directed inside the outlet pipe 7. The supply pipe 2 is located above the part of the movable wall of the valve 3. When the air portion enters the system, the vacuum regulator responds a sharp increase in the volume of the chamber chamber 1 due to deformation - compression of the corrugated membrane 4 and a decrease in the angle at the apex of the central valve 3 due to the convergence of the wall 5 relatively motionless. 1 s.p. f-ly, 1 ill. -5 fe oh oh

Description

The invention relates to agriculture, in particular to devices for regulating the vacuum in a vacuum system of an oil plant.

The purpose of the invention is to simplify the construction and increase the stabilization of the vacuum regime of the milking unit.

The drawing schematically shows a vacuum regulator;

The vacuum regulator comprises a housing 1 of a chamber of variable pressure) connected by means of a supply pipe 2 to the vacuum system of the milking unit (not shown in the drawing). Inside the housing 1, under the inlet pipe 2, there is a central valve 3 with internal pressure (constant pressure chamber), made in the form of a wedge with a corrugated membrane 4 at the base of one movable wall 5 and the second fixed wall 6, which make up its acute angle directed towards the outlet pipe 7. The fixed wall 6 is fixed so that the apex of the acute angle of the central valve 3 divides the horizontal section of the outlet pipe 7 into two equal parts. The movable wall 5 has an extension b / directed into the inside of the outlet pipe 7, and the hinge is mounted on the stationary wall 6.

The vacuum regulator operates as follows.

When the vacuum source is turned off, the corrugated membrane 4 is compressed (as a result of the pressure difference between the internal pressure of the central valve 3 and the atmospheric pressure in the housing 1), the movable wall 5 is deployed, shifted to the fixed wall 6 of the central valve 3, the air suction through passage through the outlet pipe 7, (the upper and lower gaps between the edge of the output pipe 7 and the movable wall 5, as well as the output pipe 7 and the extension cord 8) are open.

When turning on the vacuum system and applying a vacuum to the outlet pipe 7 from the body volume. 1, which means that through the inlet pipe 2 and from the entire vacuum system of the milking unit, through the gaps between the movable wall 5 and the edge of the outlet pipe 7, as well as the outlet pipe 7 and extension 8, air will be sucked out (arrows indicate its movement in the drawing).

 The pressure in the regulated system and in the housing 1 will decrease gradually. It will approach the internal pressure of the central valve 3. In this case, the pressure difference between the vacuum enclosed inside the housing 1 and in the central valve 3 decreases, the corrugated membrane 4

(due to its elasticity and reduction of the effect of the resulting force) is leveled off, taking a natural shape, the movable wall 5 of the valve 3 moves - turns away from the fixed wall 6, thereby gradually blocking the passage openings of the outlet pipe 7, reducing the gaps in the passage of air flow from the (chamber variable pressure)

case 1, between the edge of the outlet pipe 7 and the movable wall 5, as well as the outlet pipe 7 and the extension cord 8.

When equal pressures are achieved inside the housing 1 and in the valve 3, the corrugated 5 on the membrane 4 is completely aligned to its natural position, the movable wall 5 is turned to the maximum angle against the edge of the outlet pipe 7, with the extension 8

0 also tightly closes the lower gap, abutting its lower part against the outlet pipe 7, thereby disconnecting, disconnecting the vacuum source from the controlled system.

5 With a steady-state operating mode of the vacuum system, uniform flow of a certain amount of air into it, the movable wall 5, the extension cord 8 occupy a certain position, obor0. the necessary gap for its removal from the system, and also automatically change it depending on the change in the flow of this excess pressure, maintaining a predetermined (equal to the internal

5 pressure of the central valve 3) vacuum mode.

Formula 1. A vacuum regulator comprising a housing with inlet and outlet nozzles,

0 a central hollow valve located in the casing, having a wedge shape in plan with side walls and a membrane at the base, and the acute angle of the valve is located in the outlet pipe, characterized in that, in order to simplify the design and increase the stabilization of the vacuum regime, one of the side the walls of the central valve is fixed and fixed along the axis of the outlet pipe, and

0 the other wall is equipped with an extension extending inward of the outlet pipe and mounted on a fixed wall hinged with the possibility of overlapping with the extension of the passage section of the outlet

5 of the nozzle, wherein the inlet nozzle is placed over part of the movable wall of the valve.

. 2. The regulator according to claim 1, wherein the membrane at the base of the valve is corrugated.