SU378204A1 - VACUUM REGULATOR - Google Patents

Claims (3)

one This invention relates to milking machine controls. Vacuum controllers are known for vacuum systems for milking machines having a chamber in communication with the atmosphere through a cargo valve. Well-known vacuum regulators do not provide a constant level of vacuum in the system with a different number of operating pre-heaters. In order to maintain a constant vacuum in the system with a variable flow of gas into it in the proposed regulator, the chamber is smoothly expanding upwards; to reduce self-oscillations, the cargo valve is also made smoothly expanding upwards; to determine the reserve capacity of the vacuum source, its chamber is made of a transparent material and has a flow rate of air. The drawing shows the described vacuum regulator. It consists of a transparent, smoothly expanding chamber / inside which cargo valve 2, also smoothly expanding, is located, in the cargo valve there is a cavity 3 which includes rod 4. From below, the chamber / communicates with the atmosphere through the opening 5. Between the body and The cargo valve has a slot 6. The scale of air flow 7 is located on the body. Depending on the number of working milking machines on the milking machine, the amount of vacuum in the chamber / deviates from the nominal value. In the case of an increase in the magnitude of the vacuum from the differential pressure established under the influence of the force, the cargo valve in chamber I moves upwards. Thanks to this is increasing 10 gap between the cargo valve and the housing, which leads to an increase in air flow through the regulator. With increasing airflow in the upper part of the chamber, the magnitude of the vacuum decreases. At the same time, the flow of air creates additional force acting on the cargo valve from bottom to top; this force compensates for the decrease in vacuum at the top of the chamber. 20 When reducing the vacuum value of the cargo valve drops down. The air flow scale on the transparent housing allows you to visually determine the performance margin of the vacuum source. five PRED iM et inventions J 1. Vacuum regulator, predominantly for vacuum milking systems, 30 having a camera communicated by a cargo valve with an atmosphere, characterized in that, in order to maintain a constant vacuum in the system with a variable flow of gas into it, the chamber is smoothly expanding upwards. 2. The regulator according to claim 1, characterized in that, in order to reduce self-oscillations, the cargo valve is also made fully expanded upwards. 3. The regulator according to claim 1, characterized in that, in order to determine the performance margin of the vacuum source, its chamber is made of a transparent material and has an air flow scale.