RU2150191C1 - Milking unit for high-producing cows - Google Patents

Abstract

FIELD: agriculture, in particular, milk conveyance systems used in animal farms. SUBSTANCE: milking unit has milk claw chamber divided by perforated partition wall into upper and lower parts. Vacuum regulator in upper part of milk claw chamber is connected via air filter openings with atmosphere. Injector nozzle is positioned in lower part of milk claw chamber. Such construction reduces changes in vacuum extent within space under animal teat and, as a result, improved physiological milking mode, and eliminates occurrence of mastitis. Furthermore, milk conveyance is simplified. EFFECT: increased efficiency and improved quality of milk. 2 dwg

Description

 The invention relates to devices for milking cows and transporting milk, and is intended for use in dairy systems on livestock farms and pedigree farms of all forms of ownership.

 Milking machines for milking cows are known and widely used, see, for example, L.P. Kartashov. "Dictionary-reference machine milking operator." M .: Rosselkhozizdat, 1980, p. 18 ... 23.

 The disadvantage of these milking machines is the instability of the vacuum mode in the suction cup.

 Of the known milking machines, the closest in technical essence is the milking machine for milking cows (see Babkin V.P., Merenkova T.A., Shekalov A.F. et al. Mechanization of milking and primary milk processing. M .: Kolos, 1970. "Installations for milking cows in a milk line", pp. 49 ... 72. The milking machine is equipped with a collector with a switching valve and a milk collection chamber, a pulsator, a milk tank of glasses.

 The disadvantage of this type of milking machines is the large fluctuations in the vacuum in the suction cup (vacuum instability), as well as the unsteady, turbulent mode of transporting milk through vacuum milk pipelines. All this negatively affects the quality of milk and the physiological regime of milking cows.

 The objective of the invention is to improve the physiological regime of milking cows and modes of transportation of milk, which will lead to a reduction in diseases of mastitis and improve the quality of milk.

 As a result of using the invention, the fluctuations in vacuum in the suction cup are significantly reduced, the physiological regime of milking and transportation of milk, as well as its quality, are improved.

 The above technical result is achieved by the fact that the milk collection chamber of the milking machine collector is separated by a partition with a calibrated hole, and a vacuum regulator is installed in the upper part of the milk collection chamber, which is connected through the air filter to the atmosphere, and there is a nozzle hole in the wall of the milk collection chamber.

 The invention is illustrated in FIG. 1, which shows a general view of the milking machine, and FIG. 2 - milk collection chamber.

 The milking machine for highly milk cows consists of a pulsator 1, milking cups 2, hoses 3, a collector 4 with a milk collection chamber 5 and nozzles connecting the collector to the interwall 6 and the suction cup 7 of the milking cups 2 and the milk pipe 8, moreover, the milk collection chamber 5 is divided by a partition 9 s a calibrated hole 10, and in the upper part of the milk collection chamber 5 there is a vacuum regulator 11 connected through an air filter 12, openings 13 to the atmosphere, and at the bottom of the milk collection chamber 5, there is a nozzle in its wall the hole 14 and the shutoff valve 15, and the vacuum regulator can be made in the form of a valve 16, an elastic element, such as a spring 17, and the milking machine is connected to the vacuum pipe and the milk pipe through a valve 18.

 The work of the milking machine for highly dairy cows is as follows.

 The pulsator 1, the teat cups 2, the collector 4 with hoses 3 are connected to the milk pipe and the vacuum pipe through the taps 18. The teat cups 2 are put on the nipples of the cow. Through the pipe 8, the milk collection chamber 5 is evacuated from the milk pipe connected to the vacuum pump both in the upper part above the partition 9 with the calibrated hole 10 and in the lower part. The vacuum regulator 11 installed in the upper part of the milk collection chamber 5 is adjusted to the optimum vacuum value, the value of which for cows is 300. ..350 mm. Hg (39.9 ... 47.2 KPa), because an increase in vacuum above these limits has a pathologically harmful effect on the living tissue of the nipples of the cow, which as a result leads to undesirable phenomena and, as a result, to mastitis. This "gentle" vacuum through the nozzles 7 enters the suction cup space of the teat cups 2 and ensures normal cow dispensing. The milk through the nozzles 7 enters the upper part of the milk collection chamber 5. To improve the mode of transportation of milk and the speed of emptying the upper part of the milk collection chamber, the vacuum in the milk pipe rises to 380 mm RT. Art. (50.54 KPa) or more (the maximum vacuum of universal vacuum units is at least 660 mm Hg. Art. (87.8 KPa).

 Under the influence of its own gravity and the pressure difference, the milk through a calibrated hole 10 enters the lower part of the milk collection chamber 5 and through the shut-off valve 15 and the nozzle 8 enters the milk pipe or milking bucket. The speed of evacuation of milk increases the air entering the lower part of the milk collection chamber through the nozzle hole 14.

 Thus, the proposed milking machine for highly productive cows provides separation of the vacuum generated by the vacuum pump into a physiologically safe "gentle" vacuum, which provides milking and the absence of pathological effects on living tissue of the cow and the "transport" vacuum, which ensures rapid evacuation of milk from the milking machine and its transportation through vacuum milk pipelines, limiting the oxidative and polluting effects of air on transported milk.

 Compliance with these conditions is especially important for milking and transporting milk from highly productive cows.

Claims (1)

 A milking machine containing a pulsator, milking cups, hoses, a collector with a milk collection chamber and nozzles connecting the collector to the interwall and suction cup space of the milking cups and a milk pipe, characterized in that the milk collection chamber of the collector is separated by a partition with a calibrated hole, and the milk collection chamber is installed in the upper part of the milk collection chamber a vacuum regulator connected through atmospheric openings through an air filter, and at the bottom of the milk collection chamber there is a nozzle opening in its wall.

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