RU2093019C1 - Milking method, milking unit and milk bucket - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves milking at low vacuum ranging between 13.6-27.6 kPa, which is provided by means of vacuum regulator mounted on cover of milk bucket. Milking unit has teat cups, each provided with catheter, whose lower part is connected with milk pipeline having bead for connecting it to teat cup. Milk bucket has vacuum regulator with detachable filter. Depressurization valve is combined with vacuum regulator. EFFECT: increased efficiency and simplified construction. 5 cl, 3 dwg

Description

 The invention relates to agriculture, in particular to machine milking of cows with diseases of the nipple canals and mammary gland.

 Known designs of milking machines with milking in an intermediate container / milking bucket / works with the same vacuum / 44-53 kPa / in the inter-wall and suction cups of the teat cups. The cameras are separated by nipple rubber. In single-chamber milking cups, these chambers are combined into one, which also works with a vacuum of 44-53 kPa / Korolev V.F. Milking machines, Engineering, 1969, p. 279 /.

 The design of these teat cups is not applicable for removing milk from the udder of sick cows using catheters with reduced dilution. The known device of the milking bucket does not allow for a reduced vacuum in the collector and catheters of the teat cups.

 The purpose of the invention is a method of milking sick cows, providing the use of single-chamber milking cups with catheters at a reduced vacuum.

 This goal is achieved by the fact that single-chamber milking cups include catheters, and the milking bucket is equipped with a vacuum regulator.

 In FIG. 1 schematically shows a general view of the device, FIG. 2 a teatcup, FIG. 3 milking bucket.

 Milking Cup / Fig. 1, 2 / includes a sleeve 1, a suction cup 2, a pipe 3, a milk tube 4 with a collar 5, a catheter 6 with a collar 7 and a gasket 8. Milking bucket / Fig. 1, 3 / includes a container 9, a cover of the milking bucket 10, a gasket 11, a milk pipe 12, an air pipe 13, a check valve 14, a valve stem of a vacuum regulator 15 with a valve 16, a spring 17, a nut 18, a casing of a vacuum regulator 19 with a filter 20 In addition, the milking machine / Fig. 1 / includes a milk hose 21, a sight glass 22, a constant vacuum chamber of the manifold 23, an air hose 24, a valve 25, a pneumatic pipe / 26, a pulsator 27, an air hose 28, a variable vacuum chamber of the collector 29, an air tube 30.

 The milking machine operates as follows.

 Before connecting the milking machine to the vacuum system, the sleeve 1 of the teat cup in the place with the suction cup 2 moves down the milk tube 4 with the preliminary removal of the collar 5 from the joint with the sleeve 1 of the teat cup. This ensures the possibility of introducing a catheter 6 into the opening of the sphincter of the nipple 31. The proportionality of the length of the nipple and the catheter with the total length of the sleeve of the milking cup is provided by moving the catheter 6 in the upper part of the milk tube 4.

 After that, the operator by a crane 25 connects the air hoses 24, 28 and the pulsator 27 to the vacuum pipe 26. The alternating vacuum from the pulsator 27 is transmitted to the alternating discharge chamber 29 through the hose 28 and then through the tube 30 of the sleeve 3 of the sleeve 1 into the inner cavity of the milking cup. At the same time, the catheter 6 is inserted into the nipple sphincter hole until it stops with a gasket 8 fixed by the collar 7 of the catheter. After that, the sleeve of the teat cup moves up to the joint of the suction cup 2 with the nipple with the introduction of the shoulder 5 into the recess of the sleeve. This ensures the sealing of the inner cavity of the sleeve of the milking cup and its reliable fixation on the nipple of the cow. Other milking cups are put on in the same sequence of operations. Through the air hose 24, pipe 3, the check valve 14 in the capacity of the milking bucket, a vacuum is formed, the same size as the vacuum pipe 26. The force from the difference between the residual pressure in the container and the atmospheric pressure of the environment, overcoming the resistance of the spring 17, the rod and valve 16 are moved down, providing air through the filter 20 located on the casing 19. The amount of vacuum in the capacity of the milking bucket / 13.6-27.2 kPa / is regulated by nut 18 according to the reading of a vacuum gauge connected to the milk hose 21 / on the diagram n shown /. A variable vacuum from zero to 44-53 kPa is transmitted from the pulsator 27 to the inner cavity of the teat cup without further reducing its size, which ensures reliable fixation of the teat cup on the nipple. Atmospheric pressure air supply provides restoration of blood circulation in the nipple. Milk from the nipple tank of the nipple 31 through the catheter 6, the milk tube 4 through the constant reduced vacuum chamber of the collector 23 and the milk hose 21 enters the capacity of the milking bucket. Sight glass 22 allows you to visually monitor the process of excretion of milk / milking /. The air filter 20 is located on the casing of the vacuum regulator 19 and prevents mechanical impurities from entering the milking bucket, reducing the bacterial contamination of milk. Depressurization of the milking bucket is carried out by pressing / manually / on the upper part of the valve stem, and removal of the milking cups with a nipple is carried out using known techniques. If it is necessary to milking the cow, the catheters 6 are replaced with others that are sterilized according to the requirements of veterinary supervision.

Claims (5)

 1. The method of milking, including the installation of milking cups on the nipples of the animal and connecting them with milk tubes with a milking bucket, characterized in that the catheters are installed in the milking cups and the milking is carried out with a reduced vacuum in the latter of 13.6-27.6 kPa.  2. A milking machine containing single-chamber milking cups with a suction cup made of elastic rubber, milk tubes and a milking bucket, characterized in that each milking cup is equipped with a catheter with a shoulder in the upper part and a sealing pad that prevents milk from entering the cavity of the milking cup.  3. The milking machine according to claim 2, characterized in that the lower part of each catheter is connected to the corresponding milk tube and is located inside the milking cup, and the milk tube is equipped with a shoulder for connecting it to the milking cup and sealing it.  4. Milking bucket containing milk and air nozzles, air check valve and depressurization valve, characterized in that it is equipped with a vacuum regulator with a removable filter.  5. The milking bucket according to claim 4, characterized in that the depressurization valve is combined with a vacuum regulator.

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