RU1787387C - Pulsating claw - Google Patents

Abstract

SUMMARY OF THE INVENTION: a pulse collector comprises a collector and a pulsator with a constant vacuum manifold communicated through an aperture with an upper chamber 10 and variable vacuum nozzles and a constant atmospheric pressure chamber 12, as well as a membrane-valve mechanism. The pulse collector is provided with an additional chamber 17 with an aperture in which a spring-loaded valve 18 is installed, which is in communication with the variable vacuum chamber through a calibrated hole 21, the variable vacuum nozzles being placed on the additional chamber. With the lower position of the membrane 7 and the valve 8 in the chamber 11, a rarefaction occurs, and at their upper position it is replaced by atmospheric pressure, and the frequency of the oscillations of the rarefaction is controlled by changing the cross section of the channel 16 with the screw 15. The frequency of the oscillations is controlled by the change in the compression of the spring using the cover 19. A calibrated hole 21 prevents the transmission of these vibrations into the chamber 11 and thereby ensures the stability of the membrane 7 and valve 8. 1 ill.

Description

The invention relates to agriculture, and in particular to milking machines.

A pulse collector of a milking machine is known, which contains chambers separated by a septum and milk tubes and variable vacuum, which, in order to reduce mastitis, is equipped with an additional chamber, which is connected to alfarfiW with a variable chamber 10 of vacuum, located on it and has a conical throttling valve with restrictive pins and a length-adjustable stem connected to the baffle valve .15

However, such a pulse collector does not provide stimulation of animal milk production, which does not increase both the quantity and quality of milk baked. twenty

The closest in technical essence is the pulse collector, adopted as a prototype and containing a collector in the form of a milk collection chamber with milk receiving nozzles and connected to 25 through a channel, a pulsator with cameras of constant pressure, constant vacuum and variable vacuum with the same nozzles, as well as a membrane-valve mechanism and an adjustment chamber 30 (which is also a variable vacuum chamber).

However, such a pulse collector also does not provide stimulation of animal milk production, which does not contribute to increasing the size and quality of milk production.

The purpose of the invention is to increase the effectiveness of milking by pneumatic massage of the nipples.

The drawing shows a basic circuit diagram of the apparatus - side view.

The pulse collector consists of two parts: a collector with a milk collection chamber 1, milk reception pipes 2, valve 3 and milk pipe 4 and a pulse-45 torus containing a housing 5, a cover 6 and a membrane 7 with a valve 8. The housing 5 contains a channel 9 with a collector, a chamber of constant vacuum 10, variable vacuum 11 and constant atmospheric pressure 12, constantly in communication with the atmosphere through the hole 13. In the lid 6 there is a control chamber 14 (variable vacuum) communicated by an adjustable screw 15 channel 55, scrap 16 with a chamber 11. In addition, the pulsator housing contains an additional chamber 17 with an opening in which a spring-loaded valve 18 with spring compression adjustable by means of a cover 19 is installed

20. The chamber 17 through a calibrated hole 21 is in communication with the chamber 11 and is equipped with nozzles 22. which are in communication with the interwall chambers of the teat cups. Pipes 2 communicated with suction cups, and pipe 4 - with a milk pipe or bucket.

The proposed milking machine is push-pull and operates in the mode: sucking-compression, in which a vacuum must be created in the suction stroke in both chambers of the glass, while in the suction stroke in the suction cups it is preserved, and in the interwalls it is replaced by atmospheric pressure.

The pulse collector operates as follows: before turning on the device, air pressure is maintained in the two chambers of the teat cups and the pulse collector, the membrane 7 and valve 8 are balanced and stationary.

After the apparatus is turned on, the vacuum from the milk line through the pipe 4 is transferred to the milk collection chamber 1 and through the pipes 2 to the suction cups of the glasses. At the same time, from the chamber 1 through the channel 9, a vacuum is supplied to the pulsator constant vacuum 10, as a result of which the valve 8 and the membrane 7 are lowered down, communicating between the chambers 10 and 11 and separating the chambers 11 and 12. After the chamber 11 is evacuated through the channel 16, air is sucked out of the chamber 14 into the chamber 11 and then into the milk line until the pressure is equalized therein. Subsequently, the atmospheric pressure in the chamber 12 raises the membrane with the valve, the air from the chamber 12 passes to the chamber 11, and the process is repeated.

Thus, with the lower position of the membrane 7 and the valve 8 in the chamber 11, a vacuum occurs, at their upper position it is replaced by atmospheric pressure, and the frequency of the oscillations of the vacuum is controlled by changing the cross section of the channel 16 with the screw 15.

When the membrane 7 and valve 8 are in the lower position, the vacuum is transmitted to the chamber 14 through the calibrated hole 21 to the additional chamber 17 and then through the variable-pressure nozzles 22 to the inter-wall chambers of the teat cups. Considering that constant suction is maintained in the suction pockets, this corresponds to the sucking stroke.

The pressure drop that is created on the valve 18 causes it to open, overcoming the resistance of the spring 20 and letting in a portion of air 17 into the chamber 17, as a result of which the pressure in it decreases and the valve closes again. Process

will continue until the vacuum in chamber 17 is replaced by atmospheric pressure, i.e. throughout the entire stroke of the sucker.

Claims (1)

After lifting the membrane 7 and valve 8 with the chamber 11, and then in the chamber 17, nozzles 22 and further in the inter-wall chambers of the glasses, atmospheric pressure is created, which, combined with the vacuum in the suction pads, provides a compression stroke and simultaneously stops the operation of the valve 19. Thus, in the suction stroke, multiple opening and closing of the valve 18 is observed, which leads to fluctuations in the vacuum in the chamber 17 and in the inter-wall chambers of the glasses and provides massage of the nipples due to oscillations of the walls of the nipple rubber. The oscillation frequency is controlled by changing the compression of the spring with the cover 19. A calibrated hole 21 prevents the transmission of these oscillations into the chamber 11 and thereby ensures the stability of the membrane 7 and valve 8. The invention The pulse collector of the milking machine, containing a collector with a constant vacuum chamber, separated by a partition with an opening to the upper and lower cavities, a pulsator with an alternating vacuum chamber connected to the upper cavity of the collector, controlling and constant atmospheric pressure chambers, a milk processor water and alternating vacuum nozzles, characterized in that, in order to increase the efficiency of milking by pneumatic massage of the nipples, the pulsator is equipped with an additional chamber communicated by means of a calibrated hole with its variable vacuum chamber, in the wall of which there is an opening with a spring-loaded valve, while the nozzles are variable Vacuum placed on an additional chamber.