SU1061771A1 - Milking apparatus - Google Patents

Abstract

MILKING MACHINE, contents - craving milking cups, a collector, a pulsator, a milking bucket, a device for automatically adjusting the milking mode, consisting of a cylindrical milk basket with a float and a vacuum regulator in podoskovy chambers of teat cups, having a variable vacuum chamber and a control chamber connected to the cavity of the molokolushka, which is based on the fact that, in order to ensure an optimal mode of milking animals, it is equipped with a vacuum controller in the inter-wall chambers of teat cups, having an alternating vacuum chamber and boiling chamber which soob1tsena alternating vacuum chamber with vacuum regulator in podsoskovyh torus chambers of the teat cups. The invention relates to agriculture, in particular to milking machines. The known milking machine containing milking cups, a collector, a pulsator, a milking bucket, a device for automatically adjusting the milking mode 1. A milking machine containing milking cups, a collector, a milking bucket, a device for automatically controlling the milking mode, consisting of a cylindrical milk tray with a float and a vacuum regulator in suction cups of teat cups, having a variable vacuum chamber and a control chamber communicating with cavity molokolushki j2. Known milking machines do not provide the necessary milking mode. The purpose of the invention is to provide an optimal milking regime. The goal is achieved by the fact that the milking machine is equipped with a vacuum controller in the inter-wall chambers of teat cups, having an alternating vacuum chamber and a control chamber, which is in communication with the variable vacuum chamber of the vacuum regulator in the teat cups of the teat cups. The drawing schematically shows a milking machine. The milking machine contains a milking cup 1, a collector 2, bullets, a spider 3, a milking bucket 4, on the lid of which a vacuum regulator 5 is installed and a cylindrical milk 6 with a vacuum regulator 7 fixed on it. The vacuum regulators 5 and 7 are made in the form of an alternating vacuum chamber 9 separated from each other by a flexible membrane 8 with a nozzle 10 and a control chamber 11. The control chamber 11 of the vacuum regulator 7 is connected to the atmosphere with the help of drossels 12 containing an adjusting screw 13. In The upper part of the cylindrical molokolushki 6 has an opening 14 and a nest 15, closed by a valve 16 connected by means of relief t 17 and 18, and also a hinge 19 with a float 20 moving inside the cylindrical molokolushki 6 through the drain nipple 21, at the bottom of which There are a calibrated orifice 22 on the left. T gi 17 and 18 are interconnected by means of a hinge 23, and the free end of the string 17 is secured by a hinge 24 to a cylindrical molokolushka 6. There is a slot 25 in the socket 15 and the valve 16 by means of a nipple 26 with the control chamber 11 of the vacuum regulator 7, and the alternating vacuum chamber 9 of the same regulator is connected via a hose 27 to the milk collection chamber 28 of the collector 2 and the branch pipe 29 to the control chamber 11 of the vacuum regulator 5. The alternating vacuum chamber 9 of the vacuum regulator 5, in turn, is connected by means of the nozzle 30 to the constant vacuum chamber 31 of the pulsator 3, and from the alternating vacuum chamber 32 of the pulsator 3 a vacuum through the hose 33 is supplied to the distribution chamber 34 of the collector and further 5 through the branch pipes 35 into interstitial chambers 36 teat cups 1. The sowing chambers 37 teat cups 1. With the milk collection chamber 28 of the collector 2 are connected by means of pipe 38. In the lid of the milking verdra 4 there is an opening 39 for connection to the bucket 4 of the vacuum regulator 5 and opening 40 s for coupling of cylindrical molokolovushki 6 pomo5 soup at the spout 21 and nozzle 41 for supplying vacuum to: milking machine. From this it follows that the vacuum regulator 5 serves to regulate the vacuum in the inter-wall chambers 36, and the vacuum regulator 7 in the spout chambers 37. The milking machine works as follows. 5 Vacuum from the vacuum aid system of the nozzle 41 is fed into the Milking bucket 4, from where it spreads through the opening 40 through the drain nozzle 21 into the cylindrical molokolushka 6 and then through the hole 14 and the nozzle 10 into the vacuum regulating chamber 7 of the vacuum regulator 7 . At the same time, the vacuum, penetrating into the slot 25 formed by the nest 15 and the valve 16, through the nozzle 26 spreads into the control chamber 11 of the vacuum regulator 7, where also through the throttle 12 enters the air, the flow of which is regulated by the adjusting screw 13. The adjusting screw 13, the flow of air through the throttle 12 into the control chamber 11, we thereby change the amount of vacuum in it. Thus, we install in the manager. 5 the vacuum regulator chamber 7 11 is a predetermined vacuum stimulating effect on the nipples, while the membrane is flexible under the action of the difference in vacuum in the chamber 9 of the alternating .0 kum and the control chamber 11 of the vacuum regulator 7 bends in with the larger vacuum, t. e. to the chamber 9 of an alternating vacuum, thereby reducing the gap: between the nozzle 10 5 and the flexible membrane 8.

Description

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

Known milking machine containing milking cups, a collector, a pulsator, a milking bucket, a device for automatically controlling the milking mode [1].

Also known is a milking machine containing milking cups, a collector, a milking bucket, a device for automatically controlling the milking mode, consisting of a cylindrical milk milk trap with a float and a vacuum regulator in the suction cups of the milking cups, which has a variable vacuum chamber and a control chamber in communication with the milk milk cavity [ 2].

Known milking machines do not provide the necessary milking mode.

The purpose of the invention is the provision of an optimal milking regimen.

The goal is achieved in that the milking machine is equipped with a vacuum regulator in the inter-wall chambers of the teat cups having a variable vacuum chamber and a control chamber, which is in communication with the variable vacuum chamber of the vacuum regulator in the suction cups of the teat cups.

The drawing schematically shows a milking machine.

The milking unit contains a milking cup 1, a collector 2, a pulsator 3, a milking bucket 4, on the lid of which a vacuum regulator 5 and a cylindrical milk are installed: trap 6 with a vacuum regulator 7 fixed to it.

The vacuum regulators 5 and 7 are made in the form of an alternating vacuum chamber 9 separated by a flexible membrane 8 with a nozzle 10 and a control chamber 11. The control chamber 11 of the vacuum regulator 7 is connected to the atmosphere using a throttle 12 containing an adjusting screw 13. In the upper part of the cylindrical molokolovushki 6 there is a hole 14 and a socket 15, closed by a valve 16 connected by means of rods 17 and 18, as well as a hinge 19 with a float 20 moving inside the cylindrical milk trap 6 along the drain pipe 21, in the lower part of which there is a calibrated hole 22. The rods 17 and 18 are interconnected by a hinge 23, and the free end of the rod 17 by means of a hinge 24 is attached to a cylindrical milk trap 6. There is a slot 25 between the socket 15 and the valve 16. The socket 15 is connected to the control via a pipe 26 The connecting chamber 11 of the vacuum regulator 7, and the chamber 9 of the alternating vacuum of the same regulator, is connected via a hose 27 to the milk collection chamber 28 of the collector 2 and the pipe 29 to the control chamber 11 of the vacuum regulator 5.

The chamber 9 of the alternating vacuum of the vacuum regulator 5, in turn, is connected to the chamber 31 of the constant vacuum of the pulsator 3 by means of a pipe 30, and from the chamber 32 of the alternating vacuum of the pulsator 3, vacuum is supplied through a hose 33 to the distribution chamber 34 of the collector and then through the nozzles 35 to the inter-wall chambers 36 milking cups 1. Suction cups 37 milking cups 1c with a milk collection chamber 28 of the collector 2 are connected by means of nozzles 38. In the lid of the milking verdra 4 there is a hole 39 for connecting to the bucket 4 of the vacuum regulator 5 and a hole 40 for Turning cylindrical molokolovushki 6 by the discharge pipe 21 and branch pipe 41 dlya'podvoda vacuum to the milking machine.

From the above it follows that the vacuum regulator 5 serves to regulate the vacuum in the inter-wall chambers 36, and the vacuum regulator 7 in the suction pockets 37.

The milking machine operates as follows.

The vacuum from the vacuum system using the nozzle 41 is fed into the Milking bucket 4, from where it is distributed through the hole 40 through the drain nozzle 21 into a cylindrical one ₍ milk trap 6 and then through the hole 14 and nozzle 10 into the variable chamber 9 of the vacuum regulator 7 of the vacuum. 'At the same time, the vacuum penetrating into the slot 25, formed by the socket 15 and the valve 16, through the pipe 26 extends to the control chamber 11 of the vacuum regulator 7, where air also enters through the throttle 12, the flow of which is regulated by the adjusting screw 13. Changing the Intom 13 the air flow through the throttle 12 into the control chamber 11, we thereby change the amount of vacuum in it.Thus, we set in the control chamber 11 of the vacuum regulator 7 a predetermined stimulating vacuum on the nipples, while the flexible membrane 8 under the influence of the vacuum difference in chamber 9 of variable vacuum and the control chamber 11 of the regulator 7 of the vacuum bends towards a larger vacuum, i.e. towards the chamber 9 of the variable vacuum, thereby reducing the gap between the pipe 10 and the flexible membrane 8.

In this case, the suction of air from the chamber 9 of the alternating vacuum of the vacuum regulator 7 will decrease, and therefore the vacuum in it will decrease. The equilibrium of the flexible membrane 8 will occur when the vacuum in the chamber 9 of the variable vacuum is equal to the vacuum in the control chamber 11. Next, the reduced vacuum from the chamber 9 of the variable vacuum of the vacuum regulator 7 through the hose 27 enters the milk collection chamber 28 of the manifold 2 and then through the nozzles 38 to the suction chambers 37 milking cups 1, as well as through the pipe 29 - into the control chamber 11 of the vacuum regulator 5. The vacuum penetrating from the milking bucket 4 through the hole 39 through the nozzle 10 into the chamber 11 of the variable vacuum of the vacuum regulator 5, decreases similarly to the vacuum in the control chamber 11 of the vacuum regulator 5, which is equal to the vacuum in the chamber 9 of the variable vacuum of the vacuum regulator 7, and then the nozzle 30 is supplied to the chamber 31 of the constant vacuum of the pulsator 3, and from the chamber 32 of the alternating vacuum of the pulsator 3, the alternating vacuum through the hose 33 enters the distribution chamber 34 of the collector 2 and then through the nozzles 35 into the interwall chambers 36 of the milking glasses 1. ·

Milking cups 1 put on the nipples of the udder of the animal and produce milking with a low vacuum. Milk from the suction cup 37 of the milking cup 1 through the nozzles 38 enters the milk collection chamber 28 of the collector 2 and then through the hose 27 into the chamber 9 of the alternating vacuum of the vacuum regulator 7, and from there through the gap between the nozzle 10 and the Flexible membrane 8, the milk through the nozzle 10 through the hole 14 - into the cylindrical milk. 'the trap 6 and then through the calibrated hole 22 of the drain pipe 21 into the milking bucket 4. When the milk flow increases, it does not have time to leave the cylindrical milk trap 6 through the calibrated hole 22 and fills it. When the cylindrical milk milk trap 6 is milked, the float 20 rises and acts by the hinge 19 on the interference fit 18 which, in turn, by means of the hinge 23 forces it to rotate on the hinge. 2 4 the thrust 17, thereby removing the valve 16 from the socket 15, while the gap 25 increases and the suction of air increases through the nozzle 26 from the control chamber 11 of the vacuum regulator 7, compensating for the vacuum drop due to the suction of air through the throttle 12. In the control chamber 11 of the regulator 7, VNIIPI Order 10087/3 of the milking chamber 37 and also through the nozzle 29 the chamber 11 is regulated where ogichno prof · Vacuum set vacuum of vacuum in the cylindrical molokolovushke 6. The air continues to flow through the throttle 12 has a negligible influence on the vacuum in the control chamber 11 of vacuum regulator 7. An increase in the vacuum in the control chamber 11 of the vacuum regulator 7 to the nominal value causes the flexible membrane 8 to equalize and, due to an increase in the gap between the flexible membrane 8 and the nozzle 10, an increase in the suction of air from the variable vacuum chamber 9. Thus, the vacuum in the chamber 9 of the alternating vacuum will increase and become equal to the vacuum in the control chamber 11, i.e. vacuum 'in the milking bucket 4. From the chamber 9 of the alternating vacuum of the vacuum regulator 7, the vacuum through the hoses 27 enters the milk collection chamber 28 of the collector 2 and then through the nozzles 38 to the suction cups 1, and the vacuum increases in the control chamber 5 of the vacuum in the variable chamber 11 and then this vacuum enters through the nozzle 30 into the chamber 31 of the constant vacuum of the pulsator 3, and from the chamber 32 of the alternating vacuum of the pulsator 3, the alternating vacuum through the hose 33 enters the distribution chamber 34 of the collector 2 and then through the nozzles 35 into the interwall chambers 36 teat cups 1. Milking occurs as usual.

After reducing the flow of milk, the latter leaves through a calibrated hole 22 from a cylindrical milk trap 6 into the milking bucket 4, the float is lowered, dragging 17 with the hinges 19 and 23 and the rod 18, which, turning on the hinge 24, presses the valve 16 to the socket 15 while reducing the gap 25. In connection with this, the suction of air from the control chamber 11 of the vacuum regulator 7 is reduced and due to the intake of air through the inductor 12, the vacuum level in the control chamber 50 ′ of the control chamber 1G of the vacuum regulator 7 will decrease again. As a result, the vacuum decreases in the chamber 9 of the alternating vacuum of the vacuum regulator 7 and, as a result, in ₍ .

the control chamber 11 and the chamber 9 of the alternating vacuum of the regulator 5 of the vacuum and then in the suction cup 37 and the inter-wall 36 chambers of the teat cup 1. Produce a low codin. a vacuum.

The proposed milking machine ^ provides the necessary milking mode, convenient in operation.

Circulation 721 Subscription.

Branch of PPP Patent, Uzhgorod, Project 4,

Claims (1)

MILKING MACHINE, contains -. teething cups, collector, pulsator, milking bucket, device) '/ for automatic control of the milking mode, consisting of a cylindrical milk trap with a float-i com and a vacuum regulator in the suction cups of the milking cups, which has an alternating vacuum chamber and a control chamber in communication with the milk trap cavity, so that, in order to ensure optimal milking regimen for animals, it is equipped with a vacuum regulator in the inter-wall chambers of the teatcups having a variable vacuum chamber, and a control chamber that is in communication with the variable vacuum chamber of the uma in the suction cups of the teat cups.