SU1681787A1 - Milking machine - Google Patents

Abstract

This invention relates to agriculture. The purpose of the invention is to simplify the design. The milking machine contains the teat cups 1, the collector 2, the additional pulsator (BP) 11 is designed as a tide 16 in which a vertical hole is made and which is located on the variable-pressure nozzle 10 of the main pulsator 5. A valve 17, a spring 18 and an adjusting screw 19. The cavity of the nozzle 10 and the tide cavity are in communication with the variable vacuum chamber 8 of the main pulsator 5 with a calibrated orifice 20. Repeated opening and closing of the valve 17 during the whole suction stroke leads to fluctuations of vacuum in the interstitial chambers of glasses and vibrations of nipple rubber. When compressing in the cavity of the pipe 10 is atmospheric pressure, the valve 17 is closed and the PD 11 does not work. Pulsation frequency ДП 11 is regulated by measuring the compression of the spring with the screw 19. The calibrated orifice 20 protects the chamber 8 from vacuum fluctuations in the nozzle, 2 Il. 1Л 15 К baku про passage about 00 4 00

Description

Towards a mosquito FIG. one

The invention relates to agriculture, in particular to milking apparatuses.

The purpose of the invention is to simplify the design.

FIG. 1 is a schematic diagram of the milking machine; Fig, 2 - milking machine, section.

The milking machine contains milking cups 1, a collector 2 with an air-distributing 3 and a milk-collecting 4 chambers, a main pulsator 5 with chambers of constant 6 and variable 7 and 8 vacuum and nozzles of constant 9 and alternating 10 vacuum and additional pulsator 11. Chamber 8 of variable vacuum channel 12 is communicated by Schemera 7, with a variable vacuum nozzle 10 and with an air hole 13. Chambers 6 and 7 are separated by a membrane 14 on which valve 15 rests.

An additional pulsator 11 is made in the form of a tide 16 with a transverse hole located on the variable vacuum nozzle 10, and contains a valve 17, a spring 18 and an adjusting device in the form of a screw 19, the nozzle cavity 10 and the tide cavity 16 communicate with the camera 8 through a calibrated hole 20. 9 communicates the chamber 6 with the vacuum wire, the nozzle 10 through the distribution plenum 3 of the collector, the 2nd interdigit chambers of the teat cups 1, and the nozzle 21 the teat cups of the cups are connected to the milk conduit (or the milking bucket m).

The device works as follows. Before turning on the device, all the chambers of the pulsator, collector and glasses are filled with air, the teat rubber of the glasses, the membrane 14 of the pulsator, as well as the valves 15 and 17 are fixed. After switching on the apparatus, the pressure in the chamber 6 of the pulsator decreases while temporarily maintaining the atmospheric pressure in ksméra 7. This causes the valve 15 to rise to the upper position, with the result that chamber 8 communicates with chamber d and is uncoupled with hole 13.

At the same time, the interstitial chambers of the cups 1 and the air distribution chamber 3 of the collector 2 are connected to the constant vacuum pipe 9 and then to the vacuum line of the milking machine, and a vacuum is created in the interwall chambers. Since the podsoskovye chambers of glasses are at the same time through the milk collection

the chamber 4 and the milk nozzle 21 of the collector communicated with the evacuated milk line, then the indicated moment corresponds to the sucking stroke,

Then through channel 12, air is sucked out of chamber 7 and membrane 14, together with valve 15, is returned downwards. In this case, the chamber 8 is separated from the chamber 6 and communicated with the atmosphere through the opening 13. In

As a result, the air is directed to the inter-wall chambers of the glasses while maintaining a vacuum in the spouting chambers, which corresponds to the compression stroke. At the same time from the chamber 8 through the channel air enters into

camera 7, and the duty cycle of the main pulsator is repeated. The frequency of the pulsations of the latter is determined by the cross section and the length of the channel 12. Simultaneously with the main one, an additional pulsator.or acts. When a vacuum is created in the cavity of the nozzle 10, the valve 17 opens, letting air from the atmosphere into it, which is directed to the inter-wall chambers of the cups. By reducing the dilution of the cavity nozzles 10 valve 17

under the action of the spring 18 is closed, then the cycle is repeated until a vacuum is created in chamber 8, i.e. during the tact of sucking

When the compression stroke in the cavity of the pipe 10

atmospheric pressure, while the valve 17 is closed and the additional pulsator does not work. The frequency of its pulsations is regulated by varying the compression of the spring with the help of a screw 19. The calibrated hole 20 protects the chamber 8 from vacuum fluctuations in

pipe 10 and thus provides

stability of the main pulsator.

Claims (1)

Invention Formula A milking machine containing milking cups, a manifold with distribution and milk collecting chambers, a main pulsator with chambers and nozzles of constant and variable vacuum, and an additional pulsator characterized in that, in order to simplify the design, the additional pulsator is made in the form of a primary tide pulsator located on the variable vacuum nozzle in which a transverse hole is made with spring-loaded valve installed in it and an adjusting device, with the tidal cavity communicating with the variable vacuum chamber of the main pulsator by means of a calibrated holes. ; 7 Rig. 2