RU2129777C1 - Milking unit - Google Patents

Abstract

FIELD: agriculture, in particular, cow milking machines. SUBSTANCE: milking unit has teat liner which is flattened and inserted into sleeve. Intermediate rubber pipe is positioned around flattened teat liner so as to define isolated hermetically sealed chamber. Pulsed vacuumizer disposed in teat cup is formed as valve body positioned within cavity on teat cup sleeve wall and provided with transverse and longitudinal channels. Valve body head is connected with intermediate rubber pipe wall. Valve body cavity is communicated with teat cup sleeve cavity and via hose with teat liner milk branch pipe. Construction of milking unit allows quick changing of time step and reducing of transition mode between time steps to be provided. Admission of air from teat cup into milk branch pipe of teat liner facilitates quick evacuation of milk from below teat with following vacuum reduction and, consequently, quick disintegration of teat liner walls at suction stroke. EFFECT: simplified construction, reduced loading of pump and increased efficiency. 2 dwg

Description

 The invention relates to agriculture, namely to machines for milking cows.

 Known milking machine containing a milk collector, a collector, a device for creating a pulsating vacuum, two-chamber milking cups, consisting of sleeves and cylindrical teat rubber in a free state [1]. The implementation of the cylindrical nipple rubber contributes to the rapid crawl of the teat cups on the base of the nipples, which can lead to impaired blood circulation and premature termination of milk production.

 Known milking machine containing a milk collector, a collector, a device for creating a pulsating vacuum, two-chamber milking cups, consisting of sleeves and flattened nipple rubber in a free state [2]. The disadvantage of this apparatus is the availability of a device for creating a pulsating vacuum in the form of a separate unit connected by hoses to milking cups through the distribution chamber of the collector. The presence of connecting hoses leads to an increase in the duration of the transitional regime between cycle changes during operation of the device, since it takes time for air to pass through them when switching the pulsator valve. At the same time, due to the increased air flow, the load on the air pump increases. In addition, pre-flattened rubber does not contribute to the effective removal of milk from teat cups.

 The problem to which the invention is directed, is to create a milking machine that improves the quality of milking cows and reduces labor costs.

 The technical result from the use of the invention is to simplify the design of the apparatus while increasing the efficiency of milking and reducing the load on the vacuum pump.

 The technical result is achieved by the fact that an intermediate rubber tube is installed inside the sleeve around the nipple pre-flattened rubber to form an insulated sealed chamber, and the device for creating a pulsating vacuum is made in the form of a valve located in the cavity of the valve body with transverse and longitudinal channels, placed on the wall of the sleeve of each glass, wherein the valve head is connected to the wall of the intermediate tube, and the cavity of the valve body is in communication with the cavity of the sleeve of the glass and connecting by God with the milk nozzle liner.

 In FIG. 1 schematically shows the proposed milking machine; in FIG. 2 - remote element I of FIG. 1.

 The milking unit consists of a milk collector 1, a collector 2, milking cups 3 containing a free-squeezed nipple rubber 4, an intermediate rubber tube 5 with a valve head 6 attached to its wall 6, a sleeve 8, on the wall of which is made a body 9 with an opening 10 and cavity 11. In the hole 10, a valve 7 is installed, in which the transverse 12 and longitudinal 13 channels are made. The output of the longitudinal channels is made on the opposite side of the valve 7 at the intermediate rubber tube 5. On the body 9 there is a pipe 14 connecting the cavity 11 of the valve body with the milk pipe 15 by means of a hose 16.

 An intermediate rubber tube is installed in the sleeve so that the nipple rubber 4 is located inside it with the formation of an insulated sealed chamber "A" and chamber "B". In this case, the chamber "B" through the cavity 11 and the pipe 14 is connected to a vacuum source or atmosphere through the channels 12 or 13, while moving the valve 7 with the outlet of the channel 12 out of the sleeve.

 The milking machine operates as follows. After connecting the milking machine, the vacuum from the milk collector is distributed into the chamber “B” and to the suction cup of the milking cups. Under the influence of rarefaction, the walls of the intermediate rubber tube 5 begin to bend towards the walls of the sleeve 8, and since the chamber "A" is sealed, a vacuum is formed in it by increasing the volume of the chamber. The walls of the pre-flattened rubber open and the vacuum from the milk pipe 15 enters the nipples of the cow's udder, a suction stroke begins. In this case, the nipple rubber will take a half-compressed state, which prevents the crawling of the teat cups on the base of the nipples. Simultaneously with the deflection of the walls of the intermediate rubber tube, valve 7 moves. When the valve approaches the body 9, it tightly adjoins the valve body, while the walls of the nipple rubber 4 are open as much as possible, and the chamber "B" is disconnected from the vacuum source. At the same time, channel 12 exits from the sleeve to the outside and atmospheric air enters through channels 12 and 13 into chamber "B". The walls of the intermediate rubber tube under the influence of atmospheric pressure and the elastic properties of the rubber quickly take their initial position, compressing the air in the chamber "A", from which the nipple rubber 4 closes and a compression stroke occurs.

 Simultaneously with the walls of the intermediate rubber moving to the initial position, the valve 7 moves away from the surface of the housing 9, the channel 12 returns to the cavity 11, cutting off the air supply to the chamber "B", which is connected back to the vacuum source, from which the walls of the intermediate rubber tube bend again towards the walls of the liner and the cycle repeats.

 Unlike the prototype, the device for creating a pulsating vacuum is placed directly in the milking cup, which simplifies the design of the device, there is no need for hoses connecting the pulsator to the cups. The collector is simplified, there is no distribution chamber in it. This leads to a decrease in suction air and, accordingly, the load on the vacuum pump. In this case, a quick change of cycles occurs with a minimum transitional period between cycles, and the air inlet from the teatcup into the milk pipe of the nipple rubber contributes to the rapid evacuation of milk from the nipple with some reduction in vacuum, which contributes to a better opening of the walls of the nipple rubber during a sucking cycle. All this in general increases the effectiveness of milking.

 The use of the proposed milking machine in installations with a milk line eliminates the use of a stalled vacuum wire, which simplifies the design of the milking unit and dramatically reduces the load on the vacuum pump due to a decrease in the volume of pumped air.

Sources of information:
1. USSR author's certificate N 155699, cl. A 01 J 5/04, 1968.

 2. Korolev VF Milking machines. Theory, construction and calculation. - M.: Mechanical Engineering, 1969, p. 127.

Claims (1)

 A milking machine comprising a milk collector, a collector, a pulsating vacuum device and two-chamber milking cups in the form of sleeves with nipple rubber located in each of them, flattened in a free state, characterized in that an intermediate rubber tube is installed inside the sleeves around the nipple rubber to form an insulated sealed chamber, and a device for creating a pulsating vacuum is made in the form located in the cavity of the valve body with transverse and longitudinal channels, placed on and the wall of the sleeves of each glass, while the valve head is connected to the wall of the intermediate rubber tube, and the body cavity is communicated by a connecting hose to the milk pipe of the nipple rubber.

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