RU2032931C1 - Vacuum regulator - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: vacuum regulator has housing with inlet and outlet branch pipes, bellows with rigid base, chambers of controlled vacuum and atmospheric pressure, gate, spring having adjusting screw, and unit for coupling the spring with the rigid base of the bellows. The walls of the inlet and outlet branch pipes are extension of the housing walls. The coupling unit of the spring with the rigid base of the bellows is constructed as a sleeve secured in the opening made in the center of the rigid base. The open end of the sleeve is positioned inside the atmospheric pressure chamber and provided with a ring deflector. The deflector is the first support for a spring mounted inside the sleeve. The deflector encloses guides having an adjusting screw coupled with the second spring support. The center of the bottom of the sleeve is pivotally connected with one of the ends of the gate through a tie. The gate is rotatable and mounted on the rocking axle. The rocking axle passes through the center of the gate and center of the outlet branch pipe for permitting changing of a space between its walls. EFFECT: simplified structure. 1 dwg

Description

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

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

 The drawing schematically shows a vacuum regulator.

 A vacuum regulator comprising a housing 1, in which a bellows 2 is installed, the first end of which is fixed to the wall of the housing 1, and the second, movable, is provided with a rigid base 3, and the bellows 2 with the housing 1 form an adjustable vacuum chamber 4 connected to the inlet pipe 5 for connection to a vacuum control system (not shown), the internal cavity of the bellows 2 is an atmospheric pressure chamber 6. In the center of the rigid base 3 there is a hole with a supporting part fixed in it made in the form of a cup 7, the upper part of which is equipped with an annular visor 8, which is the first support (emphasis) for the spring 9 located inside the cup 7. The annular visor 8 covers the guides 10 in which the adjustment screw 11 is located, the continuation of which extends inside the spring 9 and is connected to the second spring support 12, made in in the form of a persistent poppet plate acting, pressing this spring 9 against the first support, to the annular visor 8. To the center of the bottom (lower base) of the cup 7, by means of a thrust 13, a shutter 14 is pivotally fixed to the swing 15 passing through the center of the shutter 14. The shutter 14 separating the adjustable vacuum chamber 4 from the constant vacuum chamber 16, connected by means of the outlet pipe 17 to a vacuum source (not shown), is fixed on the swing axis 15 passing through the center of the outlet pipe 17 with the ability to provide changes in the gap between its walls.

 The vacuum regulator operates as follows.

 When the vacuum source is turned off, the bellows 2 is compressed by the spring 9, its movable rigid base 3 is shifted towards the guides 10, there will be a certain gap between the lower and upper edges of the shutter 14 and the walls of the outlet pipe 17.

 When the vacuum source is turned on and the reduced pressure is applied to the outlet pipe 17 through the above gaps from the chamber of the controlled vacuum 4, as well as from the entire adjustable vacuum system, air will be sucked out (arrows indicate its movement in the drawing). The pressure in the adjustable system and the chamber of the adjustable vacuum 4 will decrease. In this case, the resulting force will increase, resulting from an increase in the pressure drop between the atmospheric pressure of the atmospheric pressure chamber 6 and the reduced pressure of the controlled vacuum chamber 4, which, acting on their common wall, the rigid base 3, overcomes the resistance of the spring 9, compresses it towards the second support the spring 12 of the persistent poppet, causing the bellows 2, stretched out, to increase its volume. In this case, the movable rigid base 3, moving towards the damper 14, through the rod 13 drives this damper 14, which, turning on the swing axis 15, thereby reduces the gap between its lower and upper edge, and the outlet pipe 17, up to their full overlap. In the chamber of the adjustable vacuum 4, and therefore in the controlled vacuum system, the set pressure is stabilized, set with the help of the adjusting screw 11, acting (compressing) the spring 9. The random movement of the moving cup 7 and its impacts on the annular visor 8 are excluded due to its movement along the guides 10 .

 When the pressure deviates in the controlled system (for example, a portion of air enters into it), the pressure in the chamber of controlled vacuum 4 changes, the balance of the resultant forces is disturbed and the movable wall, the base 3 is rigidly moved by the spring 9 toward the guides 10, the bellows 2 is compressed, it the volume decreases, and the volume of the chamber of the regulated vacuum 4 increases, which helps to smooth the "jump" of pressure, protecting the animals being served from its adverse effects, and the synchronous turn of the ends NKI 14, simultaneously with the movement of the movable wall of the rigid base 3, which ensures the formation of equal gaps between its lower and upper edges and the outlet pipe 17 of the controller, contributes to an “accelerated” start and quick removal (suction received in an adjustable overpressure system (air), which generally increases the stability of the vacuum mode.

Claims (1)

 A VACUUM REGULATOR comprising a housing, a bellows, the first end of which is mounted on the wall of the housing, and the second movable is provided with a rigid base, and the bellows with the housing forms an adjustable vacuum chamber connected to the inlet pipe for connection to a vacuum control system and separated by a shutter from the constant vacuum chamber, connected by means of an outlet pipe to a source of creating a vacuum, while the internal cavity of the bellows is an atmospheric pressure chamber in which the spring is adjustable with a fixed screw provided with a connection unit with a rigid base, characterized in that the walls of the inlet and outlet nozzles are an extension of the walls of the housing, the connection unit of the spring with a rigid base of the bellows is made in the form of a cup fixed in an opening made in the center of the rigid base, the open end of which is located atmospheric pressure chamber and an annular visor is made on it, which is the first support for the springs located inside the cup and covering the guides fixed in the housing with the re-mounted with a adjusting screw connected to the second spring support, and the center of the bottom of the cup is pivotally connected by means of a thrust to one end of the shutter, made rotary and mounted on the swing axis, passing through the center of the shutter and the center of the outlet pipe with the possibility of changing the gap between its walls.

Images