RU2032930C1 - Vacuum regulator - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: vacuum regulator has a housing provided with atmospheric pressure chamber and spring-loaded diaphragm chamber of constant vacuum which is separated from it. The chamber of constant vacuum has the inlet and outlet branch pipes. A gate is received in the outlet branch pipe. The gate is movably mounted on the axle of rocking and pivotally connected with the center of the flexible diaphragm through a tie of the drive. The rocking axle of the gate passes through its center and is shifted in the direction of the outlet branch pipe. The pivot fastening of the drive tie of the gate is shifted to its periphery with respect to the rocking axle. A device for controlling the nominal vacuum is received in the inlet branch pipe. EFFECT: simplified design. 1 dwg

Description

 The invention relates to mechanical engineering and can be used in agriculture, in particular in livestock farming, for regulating the vacuum in a vacuum system of milking installations.

 The purpose of the invention is to simplify the design and increase the stability of the vacuum mode.

 The drawing schematically shows a vacuum regulator.

 The vacuum regulator is made in the form of a hollow body 1 having an atmospheric pressure chamber 2 and an adjustable vacuum chamber 3 connected via an outlet pipe 4 to a vacuum source (not shown). In the outlet pipe 4 there is a shutter 5, movably fixed on the swing axis 6 and pivotally connected by a drive rod 7 to the center of the flexible membrane 8, spring-loaded with a spring 9, the tension of which is regulated by an adjusting screw 10 screwed into the housing 1 of the vacuum regulator. The adjustable vacuum chamber 3 is in communication with the adjustable vacuum system by means of an inlet pipe 11, the vacuum value of which is indicated by the control device 12.

 The vacuum regulator operates as follows.

 In the idle state, or with a small vacuum in the system, the membrane 8 is slightly stretched (bent) towards the adjusting screw 10 under the influence of a stretched spring 9, and since the center of the membrane 10 is connected via the actuator rod 7 to the side of the shutter 5 (separating the adjustable vacuum chamber 3 from the outlet pipe 4), then it, the shutter 5, having turned on the swing axis 6, will not overlap the outlet pipe 4 and there will be a certain gap between its upper and lower edges, and also the outlet pipe 4, through which the air is sucked ear (in the drawing arrows indicate its movement).

 With an increase in vacuum (decrease in pressure) in the controlled system above a predetermined value, the force arising from the pressure difference in the chamber of atmospheric pressure 2 and the chamber of adjustable vacuum 3 overcomes the resistance of the spring 9, stretches it, causing the flexible membrane 8 to bend towards the chamber of the controlled vacuum 3, acting in this case through the drive rod 7 on the shutter 5, turns it on the swing axis 6, forcing its upper and lower edges to be pressed snugly against the outlet pipe 4, thereby eliminating the above nye gaps passage of sucked air from a controlled system.

 With a decrease in vacuum in the controlled system (increase in pressure) due to the intake of a portion of air, the force of the differential pressure difference in the chambers 2 and 3 decreases, the flexible membrane 8 under the influence of the elastic force of the spring 9 begins to move towards the adjusting screw 10, acting and deploying the flap 5 on the swing axis 6 by means of the drive rod 7, thereby increasing the gap between its upper and lower edges and the outlet pipe 4, through which its suction is intensive, and the larger a portion of the air enters the regulator - the vacuum system, the more flexible the membrane 8 will bend, increasing the volume of the chamber of the adjustable vacuum 3 thereby cutting off the peak of the vacuum irregularity, protecting it from the adverse effects of the serviced animals, and thereby the shutter will unfold at a larger angle (up to a parallel location relative to the outlet pipe 4) 5, increasing the gaps of the suction of the incoming air.

 The value of the nominal vacuum mode in the adjustable system and the chamber of the adjustable vacuum 3 is controlled by a control device 12 (vacuum gauge) and is set by increasing or decreasing the force of the spring 9 on the flexible membrane 8, the tension (value) of which is regulated by the adjusting screw 10.

Claims (1)

 VACUUM REGULATOR, comprising a housing in which a spring-loaded flexible membrane is installed, forming an atmospheric pressure chamber and an adjustable vacuum chamber connected to the inlet pipe for connection to a vacuum control system and to an output pipe for connecting to a vacuum source, between the adjustable vacuum chamber and an outlet fitting has a shutter, characterized in that the shutter is rotatable mounted on a swing axis fixed in the housing passing through its center and one end of the rotary damper is pivotally connected to the center of the flexible membrane by means of a rod, and the damper is installed with the possibility of changing the gap between it and the walls of the outlet pipe, and a vacuum control device is installed in the inlet pipe.

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