RU2120742C1 - Teat cup - Google Patents

Abstract

FIELD: agriculture, in particular, milking equipment. SUBSTANCE: teat cup has body and teat liner with openings. Teat liner defines chamber positioned below teat and chamber defined by walls. Teat body has opening with adjusting screw. Milk pipe fixed in lower part of teat body is adapted for discharging of milk from chamber below teat through opening covered with membrane valve provided with holder. Adjusting screw allows atmospheric air ingress through opening to be controlled and time required for filling mentioned chambers of teat cup with air to be regulated. As a result, animal teat pulling action is eliminated. EFFECT: simplified construction and provision for improved milking conditions. 1 dwg

Description

 The invention relates to agriculture, in particular to milking cups for issuing farm animals.

 Known milking cup for the issuance of farm animals, containing a teat tube, a housing, a pipe, a balancing element, pistons with pushers, a figured ring, a dog and a spring [1].

 However, this milking cup does not provide vacuum control in the suction cup.

 Closest to the offer is a milking cup, consisting of a sleeve, a confuser, a teat tube, an adjusting screw, a ball valve and a milk tube. Such a device in comparison with the first allows you to adjust the vacuum mode in the suction cup [2].

 The objective of the invention is to optimize the design of the teat cup by adjusting the ratio of ticks and the magnitude of the vacuum in the suction cup.

 The problem is solved due to the fact that the valve mechanism is made in the form of an elastic membrane capable of regulating the change in vacuum in the suction cup.

 The drawing shows a General view of the milking cup.

 The milking cup includes a detachable housing consisting of a sleeve 1 and a confuser 2. The teat tube 3 has holes 4. A suction cup is attached to the top of the cup 5. The suction cup 6 and the interwall 7 of the chamber are interconnected by holes 4. The atmospheric hole 8 has an adjustment screw 9. Membrane a valve 10 with a holder 11 ensures that the milk tube 12 is disconnected from the suction cup 6. The milk tube 12 is designed to drain milk from the suction cup 6 through the hole 13. The channel 14 serves to pass the vacuum into the suction cup about 6.

 A milking cup works as follows.

 Put a milking cup on the nipple of the udder of the animal. Due to air suction through the milk tube 12, a vacuum is generated under the membrane valve. Before the diaphragm valve 10 opens, air will be evacuated through the channels 14 from under the nipple space 6. The design is carried out in such a way that the diameter of the channel 14 provides a vacuum, the value of which corresponds to the force to open the sphincter of the nipple, before sucking time 6 in gentle mode. After that, the valve 10 opens. The diaphragm valve 10 is pressed towards the milk tube 12 and the working vacuum propagates through the opening 13 into the suction cup 6 and through the hole 4 into the interstitial chamber 7. Since the vacuum is first formed in the suction cup 6, the nipple as a result of the pressure drop the tube 3 bends into the inside of the teatcup, acting on the nipple, massaging it and contributing to milk removal by squeezing milk from the nipple tank. There is a sucking beat.

 The magnitude of the working vacuum under the nipple is directly dependent on the degree of elasticity of the membrane valve 10, the change of which is carried out by replacing a more or less elastic membrane valve.

 The suction of air from the inter-wall chamber 7 occurs with some delay with respect to the suction cup 6. In this case, the resulting difference in the pressure values of these chambers causes additional deformation of the teat tube 3 in the direction of the teat of the udder. There is a compression beat.

 In the process of operation of the milking cup through the atmospheric hole 8, there is a constant intake of air, the value of which is set by the adjusting screw 9 so that during the time corresponding to the rest stroke, the suction cup 6 and the interwall 7 of the chamber have time to fill with air to a pressure value that can compensate for the elasticity of the membrane valve 10 that provides a beat of relaxation.

 After closing the membrane valve 10, when it is installed in a position above the openings of the channels 14, the air begins to evacuate again from the suction cup 6 through the channel 14 until the vacuum reaches the minimum necessary to open the sphincter of the nipple. Next, the sucking beat is repeated.

 The required pulsation frequency is set by the adjusting screw 9. With an increase in the flow rate of the atmospheric opening 8, the time for filling the suction cup 6 and the interwall 7 of the milking cup chambers with air decreases, the valve 10 is more frequently actuated. With a decrease in the flow rate of the atmospheric opening 8, the pulsation frequency decreases.

 During the operation of the teat cup, the working vacuum and the milk removal time automatically increase due to the additional action of the weight of the milk during milking, i.e. the greater the intensity of milk flow, the greater the vacuum in the suction cup and the duration of action on the sphincter of the nipple.

 In this way, a gentle milking mode is achieved by means of the sequential (stepwise) action of the vacuum on the nipple of the udder. As a result of this, the sphincter of the nipple opens first with the minimum necessary vacuum and only then the evacuation of milk from the tank and the nipple begins with the maximum working vacuum. This eliminates the so-called tugging mode of exposure to vacuum on the sphincter of the nipple, which in turn leads to a decrease in the incidence of cows with mastitis and rejection from the dairy herd.

Sources of information
1. USSR author's certificate N 1436950, 1988.

 2. Copyright certificate of the USSR N 1544301, 1990.

Claims (1)

 A milking cup containing a detachable body, a teat tube with holes located inside the body, an adjusting screw, a milk tube and a valve for closing the hole located in the body of the teat cup, characterized in that the valve is made of a membrane with a holder that allows the milk tube to be disconnected from the suction cup.