RU2195107C2 - Teat cup - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: teat cup has teat sleeve arranged inside casing fixed in body through quick-detachable connection, washer, shaped upper and lower rings provided with gauged channels and bores and arranged so that flows responsible for creating predetermined vacuum mode defining periodicity and intensity of action of teat sleeve upon udder teat are movable separately from milk mass to prevent fat from settling in air bores. Such construction allows teat sleeve to be continuous, without perforations. Circular diaphragm isolated from milk mass is put onto shaped upper ring to provide for periodic dosed supplying of air into teat cup cavity between walls. Automatic mode of extracting milk from cow udder allows milking mode for each udder quadrant to be varied depending on milk yield. EFFECT: simplified construction and increased efficiency. 4 cl, 4 dwg

Description

 The invention relates to agriculture, in particular to milking glasses.

A known design of a teatcup containing a sleeve, a nipple stocking with a suction cup located in it, in the body of which an annular cavity is made in its upper part. The nipple stocking of the known milking cup is equipped with compression rings made of a spring, having different elasticities and mounted sequentially on the nipple stocking, one of which is located in the annular chamber (AS 1158115 USSR, MKI ³ A 01 J 5/08. Milking cup / G.P. Korzh, S.G. Korzh (USSR) - 1033085; claimed December 27, 83; published May 30, 85, Bull. 20).

The disadvantages of the known design are:
Firstly, the difficulty of putting a milking cup on the nipple of the cow's udder with insufficient vacuum in the suction cup, interwall, and locking-massaging annular chambers of the milking cup.

 Secondly, the known milking cup does not combine pulsator functions.

 Thirdly, during the compression stroke, reliable retention of the teatcup from moving up the nipple up to its base is not ensured.

 The aim of the invention is to provide an autonomous mode for extracting milk from the udder of a cow by each milking cup by combining the functions of the milking cup and pulsator. This goal is achieved by the fact that a washer and two shaped rings with calibrated channels and holes made in them are provided in the milking cup.

 In addition, an annular diaphragm, also isolated from the milk mass, is put on the upper shaped ring, by means of which a periodic partial air supply is provided to the interstitial chamber of the milking cup, which makes it possible to stabilize the pulsating action of the nipple stocking on the nipple of the animal’s udder regardless of the quality and quantity of milk, passing through the suction cup into the evacuated milk line.

 The milking cup (Fig. 1) contains a housing 1, on the bottom of which a washer 2 is installed with drillings 3 arranged in a circle so that an annular channel 4 is formed between the washer 2 and the housing 1 for evacuating air from the vacuum chamber 5 formed when installed in the housing 1 of the lower shaped ring 6 with radial calibrated channels 7 made therein, communicating the vacuum chamber 5 and the interstitial chamber 8. Between the conical ring 6 and the washer 2, the end bend of the teat stocking 9, located inside the sleeve 10 connected to the body, is pinched ohm 1 locking device type "bayonet". The other end of the nipple stocking 9 is fixed at the end of the sleeve 10 so that the nipple rubber, provided that the pressures in the inter-wall chamber 8 and the suction cup 11 are equal, does not have deflections or sags. Between the sleeve 10 and the conical ring 6 in the housing 1, an upper shaped ring 12 is mounted, on which an annular diaphragm 13 is mounted, which divides the radial channels 14 and 15 and the diametrical channels 16. The conical ring 6 is installed in the housing 1 s a gap 17 through which the vacuum chamber 5 communicates with the chamber of variable pressure 18. The installation of the upper shaped ring 12 is carried out so that between it and the sleeve 10 an annular channel 19 is formed, connecting the atmospheric channels 14 with a gauge holes 20 in the housing 1. On the sleeve 10 is mounted a suction cup 21 having an outer groove 22, and an inner ring stop 23, dividing the suction cup 24 into upper and lower parts, communicating with each other through diametrically located in the annular stop 23 channels 25.

 A milking cup works as follows. When putting the milking cup on the nipple of the udder of the animal, the operator squeezes the suction cup 21 with his hand until it contacts the sleeve 10 (Fig. 2), which leads to the extrusion of air from the lower part of the suction cup 24 through the channels 25 into its upper part and further into the suction cup 11. The annular grooves 22 and the annular stop 23 are located on the suction cup 21 in such a way that when the lower part is deformed, the diameter of the suction cup opening 21 increases, which makes it easy to put the milking cup on the teats with different morphological teristics. After the milking cup is put on the suction cup of the suction cup 21, due to the elasticity of the material of its manufacture, it tries to return to its original shape, as a result of which a primary vacuum is formed in the suction cup 24, which allows the milking cup to be held on the nipple as at very low vacuum pressure in the suction cup 11 , and with its complete absence in the evacuated milk line.

 After putting on the teat cup on the nipple of the udder, the air begins to be evacuated into the evacuated milk line from the suction cup 11 (Fig. 3), resulting in radial deformation of the nipple stock 9, caused by the pressure difference in the suction cup 11 and the interwall chamber 8. The conical shape of the nipple stock 9 assumes with its radial deformation such an effect on the nipple, in which the compression of the latter is carried out from its base to the sphincter, which prevents the reverse flow of milk from the nipple tank to the tank ymeni and ensures gentle treatment squeezing milk, adequate milking "fist".

 As a result of radial deformation of the nipple stocking 9, channels 7 open, as a result of which air begins to be evacuated from the inter-wall chamber 8 to the vacuum chamber 5, then through the holes 3 and the annular channel 4 to the suction chamber 11, from where it is taken into the evacuated milk line with milk. The air from the inter-wall chamber 8 will be evacuated until the nipple stocking 9 returns to its former position, ceasing to affect the nipple, and closes the channel 7.

 Simultaneously with the evacuation of air from the inter-wall chamber 8, the evacuation of air from the variable pressure chamber 18 will begin. The size of the gap 17, through which air flows into the vacuum chamber 5, is determined so that at the moment when the nipple stocking 9 closes the calibrated channel 7, in the variable chamber pressure 16, a vacuum is formed that is sufficient to overcome the elastic force of the annular diaphragm 13, which, bending, opens the radial channels 14 and 15, as well as the diametrical channels 16 (Fig. 4). Atmospheric air, penetrating the calibrated holes 20, enters through the channels 14 into the cavity formed during the deflection of the annular diaphragm 13, from where it is supplied through the channels 15 to the interstitial chamber 8, as a result of which the radial deformation of the nipple stock 9 again occurs and the process of squeezing milk from the nipple is repeated udder.

 At the same time as air enters the inter-wall chamber 8 through the bypass channels 16, air is supplied to the variable pressure chamber 18, and the flow rate of channels 16 exceeds the flow rate of the gap 17, and therefore the pressure in the variable pressure chamber 18 will increase until the balance of forces acting on the annular diaphragm 13, will not be restored, and it will not return to its previous position, stopping communication between channels 14, 15 and 16. As a result, the air supply to the interstitial chamber 8 and the variable pressure chamber 18 is stopped, provided it is toyannoy evacuation via calibrated radial passages 7 and the gap 17, which leads to the cessation of exposure to the teat 9 of the stocking on the nipple and return it to its original position and prepares the conditions for repeating the pressing process milk.

Claims (4)

 1. A milking cup containing a nipple stocking located in the inner cavity of the sleeve fixed in the housing by means of a quick disconnect, characterized in that an upper shaped ring with atmospheric and bypass channels made therein is installed between the sleeve and the housing; a lower shaped ring with calibrated radial channels, and a washer with diametrically located drillings on the bottom of the housing, with the possibility of forming between it and the housing an annular channel in communication with the vacuum chamber, while the housing has calibrated holes, an annular diaphragm is installed on the upper shaped ring, disconnecting in the static position atmospheric channels from the overflow, the nipple stocking is made conical in shape, fixed with a smaller base on the upper end of the sleeve, and its enlarged lower the end with an end bend is pinched between the lower shaped ring and the washer and forms a suction cup, a suction cup with ring grooves on the outside and an annular stop with diametrically located channels on the inside and separating the formed suction cup into upper and lower parts communicating with each other is mounted on the sleeve.  2. A milking cup according to claim 1, characterized in that a vacuum chamber is made in the housing between the washer and the lower shaped ring, communicating with the interstitial chamber by means of radial calibrated channels of the lower shaped ring.  3. A milking cup according to claim 1, characterized in that an annular channel is made between the sleeve and the upper shaped ring connecting the atmospheric channels of the shaped ring with calibrated housing openings.  4. A milking cup according to claim 1, characterized in that the lower shaped ring is installed in the housing with a gap, through which the vacuum chamber communicates with a variable pressure chamber formed in the housing between the diaphragm and the shaped rings.

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