SU1440424A1 - Milking apparatus - Google Patents

Abstract

The invention relates to agriculture. The purpose of the invention is to simplify the design. The milking machine contains a collector 1, teat cups. The collector has a nest 4 with protrusions. The end of the milk branch stocked. A ball bearing 13 with a side channel 14 and side recesses for interacting with protrusions in the nest 4. The variable vacuum chamber 9 is isolated from the inter wall chamber 18 of the teat cup. Milk chamber 5 communicates with the variable vacuum chamber 9 by means of a valve 7 in the hole 8 of the cap 3 located on the side of the milk chamber. Interstitial chamber is closed. Due to the pressure difference in the dairy chamber 5 and the alternating vacuum chamber, the valve closes the opening 8. As the pressure increases to atmospheric, the valve opens the opening 8. When this wall of the nipple rubber returns to its original state, a rest tact occurs. To detach the teat cups from the vacuum, they rotate the ball bearing that covers the hole 15, and the side channel 14 extends beyond the socket 4 to communicate with the atmosphere. The air enters the spouting chamber 19, and the glass is compressed. 3 hp f-ly, 4 Il. § (L

Description

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

The purpose of the invention is to simplify the design of the milking machine.

Fig, 1 shows a general view of the milking machine and the original polo; in figure 2. then zhvr in working

Ra suction cup 21 to the base of the nipple. Under the action of vacuum in the suction chamber 19 and the initial (atmospheric) pressure in the interstand chamber

18 the walls of the nipple rubber 20 compress and massage the nipple. With this, the cavity — the interstitial chamber 18 is enlarged and pressure is established in it,

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position; in fig. 3 — milking sta- ture “Q” is slightly smaller than the initial one (atmosphere; in Fig. 4 — the manifold of the milking fired), preventing flattening of the nipple rubber 20, as well as excessive compression and elongation of the nipple.

apparatus ..

The milking machine contains a collector 1, teat cups 2. The collector has a cover 3 and a nest 4, which 55 are made of elastic material, a milk chamber 5, an outlet nipple 6, a valve 7 installed in hole 8 of the cover 3 on the side of the milk chamber. Valve 7 connects vacuum chamber 20, 9 with milk chamber 5. Variable vacuum chamber 9 has an inlet 10. Inlet

The milk flowing from the nipple moves to the milk chamber 5, where the suction end of the outlet nozzle 6 accumulates, filling the suction end.

Upon further entry of milk into the milk chamber 5, the valve 7 due to the pressure difference in the chamber 5 and the cavity of the variable chamber 9, the vacuum closes the opening 8. Then, as the pressure in the chamber 9 increases, when the milk continues to flow into the milk chamber 5, the valve 7 due to the pressure difference in chamber 5 and strips of alternating chamber 9, overlaps opening 8. Then, as the pressure in chamber 9 of pepipe 11 of collector 1 increases, it is combined with the milk nozzle 12 of cup 2, vacuum to atmospheric pressure of transparent and .klapan 7 ... hole 8 opens in the MO of the elastic material and the end of the milk tube is provided with a locking element.

cop in the form of ball. support 13 with bo-.

and

The forging channel 14e is inserted into the spherical socket 4 with a hole 15. The suction end of the outlet nozzle 6 is installed with a gap 16 and is equipped with a perforated partition 17 fixed in the walls of the milk chamber

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the inner chamber, atmospheric air enters the cavity of the milk nozzle 12 in the spouting chamber 19. The walls of the rubber nipples return to their original position, and the nipple shortens. There is a tact of rest. At the same time, the incoming air displaces milk from milk chamber 5, which is through the gap. 16 and the outlet 6 are aspirated into the collection container. Thereafter, air is sucked into the dairy chamber 5 and the spout chamber 19, in which, as well

five.

the inner chamber, atmospheric air enters the cavity of the milk nozzle 12 in the spouting chamber 19. The walls of the rubber nipples return to their original position, and the nipple shortens. There is a tact of rest. Odno- temporal air displaces milk from milk chamber 5, which is through the gap. 16 and the outlet 6 are aspirated into the collection container. Thereafter, air is sucked into the dairy chamber 5 and the spout chamber 19, in which, as well

The ground cup 2 contains an inter-, wall chamber 18 and a spout chamber 19 (separated from each other by elastic nipple rubber 20 with a suction-49 in a variable vacuum table 9 with 21, provided with a hole 22), and a reduction is given. By the milk nozzle 12, which interacts with the elastic sleeve 23, the ball joint 13 is side-repetitive.

As far as quartering, which is visually convenient to control over

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Ra suction cup 21 to the base of the nipple. Under the action of vacuum in the suction chamber 19 and the initial (atmospheric) pressure in the interstand chamber

18 the walls of the nipple rubber 20 compress and massage the nipple. With this, the cavity — the interstitial chamber 18 is enlarged and pressure is established in it

The milk flowing from the nipple moves to the milk chamber 5, where the suction end of the outlet nozzle 6 accumulates, filling the suction end.

Upon further entry of milk into the milk chamber 5, the valve 7 due to the pressure difference in the chamber 5 and the cavity of the variable chamber 9, the vacuum closes the opening 8. Then, as the pressure in the variable vacuum chamber 9 rises to atmospheric, the valve 7 opens the opening 8 in the

vacuum to atmospheric. valve 7 opens hole 8 in the

the inner chamber, atmospheric air enters the cavity of the milk nozzle 12 in the spouting chamber 19. The walls of the rubber nipples return to their original position, and the nipple shortens. There is a tact of rest. At the same time, the incoming air displaces the milk from the milk chamber 5, which, through the gap. 16 and the outlet 6 are aspirated into the collection container. Thereafter, air is sucked into the dairy chamber 5 and the spout chamber 19, in which, as well

in the vacuum vacuum chamber 9, a resolution is given, then the cycle

in the vacuum vacuum chamber 9, a resolution is given, then the cycle

repeats.

As the quarters are ejected, which is visually convenient to control through

24j. the interacting DZ transparent milk nozzle 12, with the protrusions 25 of the nest 4 of the collector 1, or the silt glasses 2 move downward. The chamber 9 of variable vacuum isolates the initial position. The surface of the ball bearing 13 closes the opening 15. and disconnects the milk chamber 5 of the collector 1 from the teat cup 2, and the side channel 14 extends beyond the limit of the socket 4 and communicates with the atmosphere. Air enters the submersible chamber of the 19. cup 2, which facilitates the removal of the cup from the nipple.

Van from the interstitial chamber 18 milking: glass cup 2,

Milking machine works as follows.

The nozzle 10 is connected to a variable vacuum source and the outlet nozzle 6 with a constant vacuum source and a milk collector. Then the teat cup is moved upwards to the cavity of the milk nozzle 12 with an opening 15 of the socket 4. Then the nipple is introduced into the opening 22 until it stops.

transparent milk tube 12, pre-tumblers 2 are moved down

to the starting position. The surface of the ball bearing 13 closes the opening 15. and disconnects the milk chamber 5 of the collector 1 from the teat cup 2, and the side channel 14 extends beyond the limits of the socket 4 and communicates with the atmosphere. Air is introduced into the cleaning chamber of the 19. cup 2, which facilitates the removal of the cup from the nipple.

To disconnect the milking stack A-. 2 from the collector 1 you need a thumb, for example; left hand

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on the wall of the nest 4, press that

kamelirovannogo stack side m

in the direction of the protrusion 25 and partially out of its engagement with the recess 24, and turn the ball bearing 13 with the right hand in the opposite direction. The assembly of the ball bearing 13 with the socket 4 is carried out in the reverse sequence of the network.

Claims (3)

Invention Formula 3. The apparatus of claim 2, wherein the collector is 1. A milking machine containing teat cups with interwall and sump chambers, the last of which is 15, the nest with protrusions for the chargers is connected by means of a milky support. nozzle with manifold divided4. .The device according to p. 3, which is a partition with a hole for the valve and that the ball bearing on the chambers of variable vacuum and. has lateral dimples, interdairy, differing ; . / b Fi.g 0 In order to simplify the construction, the variable vacuum chamber is isolated from the interlayer chamber of the teat cup, and the valve is located on the side of the milk chamber. 2. The apparatus according to claim 1, wherein the end is milky. The nozzle is provided with a locking element, which is made in the form of a ball joint with a side channel for communication with the atmosphere. 3. The apparatus according to claim 2, characterized in that the collector has a socket with protrusions for points 20 with protrusions in the socket. Phage ten l Mr.- /