RU2265320C2 - Milking unit and milk pipeline - Google Patents

Abstract

FIELD: agricultural engineering, in particular, mechanization of animal farming.

SUBSTANCE: milking unit for milking into milk pipeline has teat cups, pulsator, milk claw, milk hoses, and vacuum regulator. Vacuum regulator has milk catch equipped with gauged drain opening and arranged in upper section of hermetically sealed casing, valve connected to milk catch, and piston arranged in lower section of casing rigidly connected to valve.

EFFECT: high-definition regulation of vacuum extent in teat cup chambers arranged under teats, and prolonged service life of milking apparatus.

1 dwg

Description

The invention relates to agriculture, namely to the mechanization of animal husbandry.

Known milking machine (A.S. No. 1033082 Cl. A 01 J 5/00, BI No. 29, 1983), containing milking cups, a pulsator, a collector, a milk hose and a vacuum regulator, consisting of a milk trap with a calibrated drain hole, located in the upper section of the sealed enclosure, a valve associated with the milk trap, and a membrane located in the lower section of the enclosure.

The disadvantage of this milking machine is the decrease in the clarity of the regulation of the vacuum in the suction cups of the teat cups, due to the change in the quality of the membrane material over time and the lack of constant contact between the membrane and the valve.

The objective of the invention is the implementation when milking in the milk line more precise control of the vacuum level in the suction cups of the milking cups, increasing the service life of the milking machine.

The problem is solved so that in a milking machine for milking in a milk line containing milking cups, a pulsator, a collector, milk hoses and a vacuum regulator, consisting of a milk trap with a calibrated drain hole located in the upper section of the sealed housing, a valve connected to the milk trap, and the membrane located in the lower section of the sealed housing, according to the invention, the membrane is a piston rigidly connected to the valve.

The drawing schematically shows a milking machine for milking in a milk pipe.

The milking machine for milking in the milk line connected to the milk line 1 and the vacuum wire 2 contains milking cups 3, a pulsator 4, a collector 5, milk hoses 6 and 7, an alternating vacuum supply hose 8, a vacuum regulator, which consists of a sealed case 9, having a partition 10 dividing it into the upper section 11 and the lower section 12, interconnected by a valve 13, a rigidly fixed rod 14 to the milk trap 15, which is a cylindrical cup, the valve 13 is rigidly connected to the piston 16, the housing of the vacuum regulator 9 has inlet pipe 17, outlet pipe 18, in the milk trap 15, a calibration drain hole 19 is made.

The milking machine for milking in the milk pipeline works as follows. When you connect the milking machine, the vacuum from the milk line 1 through the milk hose 7 is distributed in the lower section 12 of the vacuum regulator. The valve 13 is affected by the weight of the milk trap 15 and the pressure force of the piston 16, caused by the difference in atmospheric pressure and the pressure created in the lower section 12, as well as the force caused by the pressure difference in the upper section 11 and the lower section 12. The resultant of these forces provides the initial opening of the valve 13 so that in the upper section 11 sets the initial value of the vacuum, determined by the physiological parameters of milking. The vacuum from the upper section 11 is distributed through the collector 5 into the suction cups of the milking cups 3. The pulsator 4 connected to the vacuum wire 2, delivers an alternating vacuum through the hose 8 into the interwall chambers of the milking cups 3.

With the beginning of milk removal, milk from the milking cups 3 through the collector 5 through the inlet pipe 17 and the hole 22 enters the milk trap 15. The weight of the milk trap 15 increases, which causes a larger opening of the valve 13, which presses on the piston 16, and the pressure drop between the upper 11 and lower 12 decreases sections of the vacuum regulator, which leads to an increase in vacuum in the suction cups of the teat cups 3.

When milk enters the milk trap 15, the force directed downward and increasing the pressure of the milk trap 15 on the valve 13 and piston 16 increases, the magnitude of this force depends on the column of milk in the milk trap 15.

An unreasonably high level of vacuum in the suction cups of the teatcups 3 leads to the crawl of the teatcups 3 onto the nipple, lengthening of the nipple and, as a result, mastitis in the cows.

The proposed device, in comparison with the prototype, using a piston allows you to more smoothly adjust the vacuum pressure in the suction cups of the teat cups, as the piston and valve are in constant contact. In addition, replacing the membrane with a piston allows increasing the service life of the milking machine, since the pressure drop in the lower and upper sections of the milk trap leads to rapid wear of the elastic material of the membrane and, consequently, to a decrease in the clarity of regulation of the magnitude of the vacuum in the suction cups of the milking cups.

Claims (1)

A milking machine for milking in a milk pipe containing milking cups, a pulsator, a collector connected to the milk pipe, a milk hose and a vacuum regulator consisting of a milk trap with a calibrated drain hole located in the upper section of the sealed housing, a valve connected to the milk trap, and a piston located in the lower section of the sealed housing and rigidly connected to the valve.