RU2215408C2 - Teat cup - Google Patents

Abstract

FIELD: agriculture, in particular, milking equipment. SUBSTANCE: teat cup has casing, corrugated teat cup liner arranged in casing, with corrugations extending along axis of liner, sucker, chamber positioned between walls, and chamber arranged under teat. Corrugations are formed close to casing base. Sucker is provided with annular corrugations arranged concentrically at the same level so as to define common chamber, which is communicated with chamber positioned between walls. Central opening of corrugated sucker has smaller diameter than teat cup liner in free state. Teat cup lower corrugation facing casing base has higher rigidity than other corrugations. During operation of milking unit, simulated process of withdrawal of milk from cow's udder by calf and active teat massaging in the vicinity of its base and through length thereof are provided. EFFECT: increased efficiency and enhanced reliability in operation. 2 cl, 1 dwg

Description

 The invention relates to the design of machines for milking cows, in particular to glasses of milking machines.

 Known two-chamber glass, comprising a housing, a teat tube with axial corrugations in the area of the nipple and a corrugated suction cup [1].

 During the operation of the teat cup, the corrugations of the teat tube and suction cup are alternately compressed and unclenched. From compression of the corrugation of the nipple tube, the nipple takes the form of its inner surface, which causes unpleasant painful sensations in the cows, which slow down milk flow. Air supply under the nipple from the barn pollutes the milk dispensed and reduces its quality.

 Known milking cup, comprising a sleeve with a nipple rubber located in it with a suction cup and a corrugated surface in the upper part and an output end in the lower part, which is connected to the sleeve through two membranes with an elastic element fixed between them [2].

 During the operation of the teat cup, the membranes are moved by compressing the elastic element, which leads to a decrease in the tension of the nipple rubber in the sleeve, its deformation and inflating. From this, the nipple rubber poorly covers the nipple and does not protect it from the harmful effects of vacuum, as a result of which the animal experiences painful irritations leading to stress and cessation of milk flow.

 Known milking cup, comprising a housing, a teat tube with a suction cup and corrugated rings in the area of the suction cup [3].

 When the milking cup is working, the corrugated rings squeeze the nipple, separating its cavity from the udder tank, and squeeze the milk. However, the nipple is clamped not at its base, but much lower, since a suction cup is located on top of the rings, which occupies a certain part of the nipple. This leads to an increase in milking time, since the part of the nipple cavity filled with milk is not used, and only milk that is located in the nipple below the corrugated rings is squeezed. In addition, the milking glass does not exclude excessive crawling on the nipple.

 The problem to which the invention is directed is to create an actuator for the milking machine, which ensures the full return of milk by animals and reduces labor costs associated with the milking process.

 The technical result from the use of the invention is to stimulate milk production that meets the biological requirements for the operation of a dairy cow and provides a more complete milk delivery in animals.

 The technical result is achieved by the fact that in a milking cup containing a teat tube placed in the body with corrugations located along its axis, and suction cups, interstitial and suction cups, the corrugations on the teat tube are made at the base of the body, and the suction cup is equipped with corrugations in the form of rings located concentrically at one level, forming a common chamber communicating with the interstitial chamber, while the diameter of the central hole of the suction cup is smaller than the diameter of the nipple in the free position, and the lower corrugation of the nipple tipped to the base of the body, made more stiff than the rest.

 The drawing shows the proposed milking glass.

 The milking cup consists of a housing 1, inside of which a teat tube 2 is fixed using a cone 3 and a suction cup 4. The suction cup 4 is made in the form of annular corrugations arranged concentrically on the same level and forming a common chamber. The extreme corrugation of the suction cup inside the housing 1 near its nozzle 5 has an opening with a nozzle 6. At the same time, the nozzle 5 has a double outlet, the diameter of the hole 7 located under the nozzle 6 is larger than the diameter of the hole 8 directed towards the teat tube. The diameter of the central hole "D" of the suction cup is smaller than the inner diameter of the teat tube 2. The teat tube 2 at the base of the body has a corrugated surface 9, while the lower corrugation facing the base of the body is made more rigid than the others. Greater rigidity of the lower corrugation is achieved, for example, by thickened walls compared to others.

 A milking cup works as follows.

 Having connected the teatcup to the collector, pulsator and vacuum source, they put it on the nipple of the udder of the animal. To do this, the central hole of the suction cup 4 of the teat cup is pressed against the top of the nipple. As soon as the pulsator delivers a vacuum into the interstitial chamber, the corrugations of the suction cup 4 are compressed, since a vacuum is created inside them, and outside, from the side of the nipple, atmospheric pressure acts. Moreover, the diameter of the central hole of the suction cup and the upper part of the nipple tube increases, which allows the nipple to enter the inside of the nipple tube, and the milking cup is firmly fixed. The process of lactation begins. The milking cup will work with tacts of “conditional” rest and survival at low vacuum within 30 kPa.

 When the beat "conditional" rest in both chambers of the teat cup, a vacuum is created, from which the corrugations of the suction cup 4 are in a compressed state, and the corrugations of the surface 9 are in an expanded state. This position of the nipple tube does not prevent the filling of the nipple cavity with milk. Low vacuum under the nipple does not allow the sphincter of the nipple to open, milk is not excreted, and the nipple “conditionally” rests. When the pulsator switches to the squeezing cycle, atmospheric or overpressure air through the nozzle 5 enters the interstitial chamber of the milking cup and initially fills the internal cavity of the corrugated suction cup 4, since the nozzle 6 is directly located at the outlet 7, and it is made larger than the hole 8. the elastic forces of the corrugation rubber act in the suction cup. From air pressure and rubber elasticity, the annular corrugations of the suction cup open and pinch the nipple at its base. When the sucker corrugation is unclenched, the walls of the teat tube, which were previously in the expanded state, will also move in the area of its attachment to the suction cup corrugations. The corrugations of the surface 9 of the nipple tube are compressed from the differential pressure, while they will move towards the base of the body, since the last corrugation is made of increased rigidity. When the corrugation 9 is closed, the nipple tube is stretched, its wall thickness decreases, while in the upper zone they will be slightly thinner than in the lower one due to different lengths of movement.

 From the pressure drop, the opening of the corrugation of the suction cup 4 and the closing of the corrugation of the surface 9 of the nipple is compressed from its base down to the top. In this case, the corrugated suction cup near the nipple will also move slightly down. The sphincter of the nipple opens and milk is squeezed out of the nipple cavity. After squeezing the milk, the walls of the teat tube completely close under the teat. From the closure of the walls of the nipple tube and the corrugations of surface 9, the volume of the suction cup decreases, which leads to a decrease in vacuum under the nipple.

 When switching the pulsator and applying vacuum to the inter-wall chamber of the teat cup, the suction cup corrugations are compressed, increasing the central hole and expanding the upper part of the teat tube, since its walls are connected with the corrugations. Due to the expansion of the nipple tube, the walls of the nipple are mixed, increasing its cavity. The corrugations of the surface of the teat tube are unclenched.

 The nipple is filled with milk. Then the pulsator will switch, the squeeze cycle will come and the process will repeat.

 So, during the operation of the teatcup, the process of extracting milk from the cow's udder by the calf is imitated, which fully meets the biological characteristics of the operation of the dairy cow. In this case, an active massage of the nipple occurs both at its base (annular corrugated suction cup) and along its entire length (closing the walls of the nipple tube). The teatcup squeezes the nipple from top to bottom, and local clamping of the nipple’s milk channel at its base prevents the milk from entering the udder tank when squeezing. At the end of the squeezing cycle, the nipple is closed by the closing walls of the nipple tube, which reduces the effect of the harmful effects of vacuum on it.

Sources of information
1. Auth. St. 986357, A 01 J 5/02, 1981

 2. Auth. St. 2101935, A 01 J 7/00, 1998

 3. Auth. St. 978791, A 01 J 5 / 08.1980 g.

Claims (2)

 1. A milking cup containing a nipple tube located in the housing with corrugations located along its axis, and a suction cup, a wall and suction cup chambers, characterized in that the corrugations on the teat tube are made at the base of the housing, and the suction cup is provided with corrugations in the form of rings arranged concentrically , at the same level, forming a common chamber in communication with the inter-wall chamber, while the diameter of the central hole of the suction cup is made smaller than the diameter of the nipple in the free position.  2. A milking cup according to claim 1, characterized in that the lower corrugation of the teat tube facing the base of the body is made of greater rigidity than the others.