PL161600B2 - Milking machine - Google Patents

Abstract

A milking apparatus equipped with a collector and a pulsator, characterised in that the collector (25) is divided into three chambers, upper chamber (10), central chamber (9) and lower chamber (13) made between the lower chamber (12) and a membrane (14), the chamber (13) is connected to the pulsator (15), however, the division (5) separating upper chamber (10) from central chamber (9) is equipped with a check valve (6), and a milk outlet ferrule (7) is equipped with check valve (8).<IMAGE>

Description

The subject of the invention is a milking apparatus that does not adversely affect the udder of an animal.

In the article entitled What is detrimental to the udder, published in the journal Mechanization of Agriculture No. 5 of 1987 describes the design of the milking machine manufactured by Miele from Germany, which allows the milk to be separated from the air. The top of the milking machine is equipped with a diaphragm valve connected to the pulsator and a plate valve located at the end of the short milk pipe connecting the teat chamber of the teat cup with the milk chamber of the collector, and a second plate valve located in the long milk pipe connecting the milk chamber of the collector with the pipeline transporting the milk. The collector is also equipped with a valve at the end of a short milk pipe through which air is periodically supplied to the collector.

The aim of the invention is to construct a milking apparatus with a simple structure, eliminating harmful factors for the udder during mechanical milking.

The milking cluster according to the invention provided with a collector and a pulsator is characterized in that the collector of the apparatus is divided into three chambers, an upper chamber, a middle chamber and a lower chamber formed between the bottom cover and the membrane. The lower chamber is connected to the pulsator. The partition separating the upper chamber from the central chamber is provided with a check valve. The milk outlet is also equipped with a non-return valve.

The milking cluster according to the invention is illustrated in more detail in the drawing in which Fig. 1 shows the collector of the apparatus in a partially sectioned front view and Fig. 2 shows the milking cluster.

The collector of the milking cluster 25 is connected to the pipelines by means of lines. The line 18 for supplying the working vacuum is connected with the line for the working vacuum 22. The lines 23 and 24 for supplying the vacuum or atmospheric pressure are connected to the pulsator 15, and then with the line 16 to the pipeline 17. The line 20 is connected to the milk pipeline 19. The collector of the milking apparatus 25 is connected. It is also equipped with teat cups 21. The collector of the milking cluster 25 consists of two covers, the top cover 1 and the bottom cover 12. The top cover 1 is provided with milk connectors 2, a working vacuum connector 3 and six pulse connectors 4. The collector of the milking apparatus 25 is divided into into three chambers, the upper chamber 10, the central chamber 9 and the lower chamber 13 formed between the bottom cover 12 and the diaphragm 14. The lower chamber 13 is connected to the pulsator 15. The partition 5 separating the upper chamber 10 from the middle chamber 9 is provided with a check valve 6. The milk outlet 7 is provided with a non-return valve 8. The operating vacuum is supplied with 42 kPa e is a stub pipe 3 connected to the working vacuum pipeline 22. Pulsating vacuum to the inter-wall chambers of teat cups 21 is delivered through nozzles 4. Milk flows periodically to the collector 25 through milk connectors 2. Milk is drained to the milk pipeline 19 through a connector 7. In the milk pipeline 19 there is negative pressure same as working vacuum = 42 kPa. The stub 11 is connected to a pulsator 15, which periodically changes the negative pressure in the lower chamber 13 between about 50 kPa and atmospheric pressure. Since there is negative pressure in the upper chamber 10 all the time, the supply of atmospheric pressure to the lower chamber 13 causes the diaphragm 14 to jump upwards, the pressure in the middle chamber 9 suddenly changes and the check valve 6 closes. At the same time, the check valve 8 opens and the contents of the middle chamber 9 are pumped out. through the stub pipe 7 to the long milk pipe 20 and further to the milk pipe 19. Applying a vacuum of about 50 kPa to the lower chamber 13 through the pulsator 15 in the appropriate phase of its operation causes the diaphragm 14 to move in the opposite direction downwards. The milk outlet is then closed with the non-return valve 8, and the non-return valve 6 is opened and the milk collected in the upper chamber 10 flows into the central chamber 9.

Fig.2

Fig. J

Department of Publishing of the UP RP. Circulation of 90 copies. Price: PLN 10,000

Claims (1)

Patent claim Milking apparatus provided with a collector and pulsator, characterized in that the collector (25) is divided into three chambers, an upper chamber (10), a middle chamber (9) and a lower chamber (13) formed between the lower chamber (12) and the membrane (14). ), which chamber (13) is connected to the pulsator (15), the partition (5), separating the upper chamber (10) from the central chamber (9), is provided with a check valve (6), and the milk outlet (7) ) is provided with a non-return valve (8).