UA23873U - Electromagnetic pulsator of milking unit - Google Patents

Abstract

An electromagnetic pulser of milking unit contains an electromagnet, a body, a valve anchor, which is arranged in a controlling chamber with a jet opening of the corresponding diameter d and provides controlling a membrane in a controlled chamber, where driving the valves is carried out through a rod, which is actuated by the membrane.

Description

Description of the invention

The useful model refers to the field of mechanization and automation of agriculture, in particular for 2 use by milking machines, and is intended for the conversion of constant vacuum pressure into variable pressure during machine milking of cows and other farm animals.

The closest in technical essence to the proposed useful model is the electromagnetic pulsator of the milking machine, which contains an electromagnet, a housing, an anchor valve | Declaratory patent Mo2075928, IPC

AO125/14, published 27.03.1997 Bul. Mo3). However, the known electromagnetic pulsator consumes significant 710 power due to the significant design dimensions of the control elements, which also complicates the control of transient modes of vacuum pressure change. This is explained by the significant mass of the armature-valve and the significant bypass hole connecting the two chambers of the pulsator.

The basis is the task of creating an energy-saving electromagnetic pulsator, in which a new design of the armature-valve will allow controlling the pulsator's operating mode. 12 The problem is solved by the fact that in the electromagnetic pulsator of the milking machine, which contains an electromagnet, a housing, an anchor valve, according to a useful model, the anchor valve is placed in a control chamber with a bypass hole of the appropriate diameter a and provides control of the membrane in the controlled chamber, where the valves are actuated through a rod driven by a membrane.

The electromagnetic pulsator of the milking machine has a control chamber with a bypass hole, the diameter of which creates a small force necessary to control the valve, which provides a small power consumption of the electromagnet, performs the function of a pneumatic amplifier for subsequent control of the pulsator membrane.

A useful model is illustrated by a drawing.

The electromagnetic pulsator consists of a housing 1, an upper cover 2, and a lower cover 3. A membrane 4 is placed between the upper cover 2 and the housing 1, which separates the controlled chamber I and the chamber of constant vacuum pressure I. A rod 5 is attached to the membrane 4, on which two valves 6 and 7. A gasket 12 is placed between the body 1 and the lower cover C, which seals the chamber of variable vacuum pressure IM. The valve 7 is placed in the atmospheric pressure chamber M, which is limited by the filter 8, which is fixed by the nut 9. An electromagnet 10 is installed on the upper cover 2, between the electromagnet 10 and the upper cover 2 in the control chamber I, an anchor valve 11 is placed. The electromagnet 10 is placed in the chamber atmospheric pressure MI, which is limited by cover 13. To connect the chamber of constant vacuum pressure I with the control chamber, a bypass hole 14 of the corresponding diameter 4 is made. Similarly, the chamber of variable vacuum pressure IM so is connected to the chambers of constant vacuum pressure I and atmospheric pressure M bypass holes 15 and 16, respectively.

З The electromagnetic pulsator of the milking machine works as follows. with

When vacuum pressure is applied to chamber II of constant vacuum pressure, membrane 4 is pulled down due to the pressure difference (atmospheric pressure in the controlled chamber), the force on membrane 4 acts in the direction of chamber I. Accordingly, valve 6 closes the bypass hole 15, and valve 7 opens the bypass hole 16. Atmospheric pressure enters chamber IM of variable vacuum pressure from chamber M of atmospheric pressure and a compression stroke occurs at 50 under the condition of connecting the outlet opening to the interwall chambers of the milking cups (not shown in the drawing). At this point in time, the anchor valve 11 is attracted to the bypass hole 14 due to the pressure difference that occurs between the pressures in the Pi Y chambers.

When an electric current is applied to the electromagnet 10, the electromagnetic force attracts the armature valve 11 to the electromagnet 10. Accordingly, the vacuum pressure through the hole 14 enters the controlled chamber II. The value of the pressures in the I and PP chambers is equalized, and then there is a pressure difference between the chambers of the LV and IM. The force created by the pressure difference is directed upwards, correspondingly raises the membrane 4, and therefore, through the rod 5, the valve 6 opens the bypass hole 15, and the valve 7 closes the hole 16. The vacuum pressure from the chamber Ii enters the chamber IM and the suction stroke occurs. When the voltage from the electromagnet 10 is turned off, the armature valve 11 is drawn to -I 20 of the bypass hole 14 due to the vacuum pressure and the atmospheric pressure from the MI chamber enters the Ii chamber. Membrane 4 goes down and the process is repeated. c» The proposed type of electromagnetic pulsator of the milking machine reduces power consumption, improves control of transient modes of operation of the milking machine. with

Claims (1)

The formula of the invention An electromagnetic pulsator of a milking machine, containing an electromagnet, a housing, an anchor valve, which is characterized by the fact that the anchor valve is located in the control chamber with the bypass hole of the corresponding 60 diameter 4 and provides control of the membrane in the controlled chamber, where the actuation of the valves is carried out through a rod that is driven by the membrane. b5