UA82682C2 - Pulser of milking unit - Google Patents

Abstract

A pulser of a milking unit comprises a body with chambers of varying atmospheric pressure and that subatmospheric of controlling unit and controlled one which are united by a joint chamber of constant subatmospheric pressure having a spout by which the pulser is connected to a source of subatmospheric pressure, in the chambers valves and membranes are arranged in such a manner as to allow moving thereof. The controlling and controlled units have controlling chambers. The controlling unit and the controlled one have rods with axial openings in which a hollow slide with a radial opening and a throttle channel made in the part which is in the controlling unit of the pulser is arranged in such a manner as to allow axial movement and rotation thereof. In the slide a stopper with collars and a tube with a radial opening at the end are arranged in such a manner as to allow moving and fixing thereof. The chambers of varying vacuum-gage and atmospheric pressures of the controlling unit and the controlling chamber of the controlled unit of the pulser are connected through the opening and an internal groove additionally arranged in the rod of the controlling unit.

Description

The invention relates to the means of mechanization of milking of agricultural animals and can be used to complete milking machines.

The well-known pulsator of the milking apparatus (AS Me791344 USSR IPC 7 A0OTOU5/LO| for milking agricultural animals, for example cows, which consists of three chambers, one membrane-valve mechanism, a body and two nozzles. This pulsator creates a variable vacuum pressure simultaneously in all cups of the milking machine.

The main disadvantage of his pulsator is that milk is milked from four lobes of the udder at the same time, and that it creates a mode that does not correspond to the physiology of suckling calves and manual milking, when each lobe of the udder is milked separately.

The well-known two-membrane pulsator I.S. Mo174891 USSR IPC AOT19U5/10| mass chamber of constant and functional chambers of variable vacuum pressure, which ensures separate pairwise milking of the udder lobes.

The disadvantage of this structural and technological scheme is that. that the control and controlled cameras are connected by complex air calibrated channels with non-return valves and an adjusting screw, which does not provide the necessary technical reliability, mode characteristics and general technical level.

Also known is the pulsator of the milking machine according to the declaratory patent |Pat. Me52180 Ukraine IPC 7

AO195/101, which differs in that which has two blocks: the controlling and the controlled, which are connected to each other by a bypass channel. The control valve of the membrane valve mechanism has the form of a hollow rod and a radial hole is made in it, and a slider with a rubber shock absorber - regulator is placed in the cavity of this valve with the possibility of movement. On the slider, the entire length of the slider is made with a gloss. which forms a throttle channel between the valve wall and the slider, and an elastic element is placed in the cavity of the valve stem of the controlled membrane-valve mechanism.

The disadvantage of this technical solution is that. that in it, the connection of the chamber of variable vacuum pressure and the control chamber of the controlled part is carried out by a bypass channel, which complicates the design and manufacturing technology of the pulsator.

The pulsator of a milking machine with a ponar milking of teats (AS Me165028 of the USSR) was adopted as the prototype

IPC АО15/10Й, which is the closest in terms of technical substance to the proposed one. The pulsator includes the housing of the control and controlled parts, in which valves are placed with the possibility of axial movement, chambers of variable vacuum and atmospheric pressure of the control and controlled parts of the pulsator, as well as a common chamber of constant vacuum pressure. The chamber of variable vacuum and atmospheric pressure of the control part of the pulsator is connected by a channel to the control chamber of the controlled part of the pulsator, and through it with two cups of the milking apparatus, and the chamber of variable vacuum and atmospheric pressure of the controlled part of the pulsator is connected to the other two cups. Ball and plate valves are provided in this pulsator to ensure a different ratio of strokes in the bunks of the milking cups.

The disadvantage of the prototype is the complexity of the design and the non-compliance of the technical solution with modern requirements of reliability and operation due to the presence of ball and plate valves, manual regulation of the pulsation frequency.

The task of the invention is to create a pulsator of a milking machine, in which, by improving the structural and technological scheme, which is based on a new set of structural elements, their location and connections between them, which provide a simplified design, a high technical level and operational reliability.

This problem is solved due to the fact that the pulsator of the milking machine contains a housing with chambers of variable atmospheric and vacuum pressure of the control and controlled units, which are united by a common chamber of constant vacuum pressure, in which valves and membranes are placed with the possibility of axial movement, control chambers of variable pressure control and controlled units and two functional chambers of variable vacuum pressure, located in the control and controlled units. Its peculiarity is that the valves of the control and controlled blocks are made with axial holes, and in them, with the possibility of axial movement and rotation, a common hollow slider is placed with a throttle channel made in the part of the slider located in the hollow valve of the control block, and with a groove and a radial the opening through which the functional chamber of variable vacuum pressure of the control unit and the control chamber of the controlled unit of the pulsator are connected.

Due to the fact that the membrane-valve mechanisms of the control and controlled pulsator blocks are placed on a common rod with the help of which the chamber of variable vacuum pressure of the control pulsator block is connected to the control chambers of the control and controlled pulsator blocks (through the recess, throttle channel and radial holes), structural simplification is achieved - technological scheme, manufacturing technology and improvement of technical and operational reliability of the milking process.

The performance of the pulsator of the milking machine is explained by the drawing, which shows its structural and technological scheme.

The pulsator includes housing 1 with nozzle 2 and chamber C of constant vacuum pressure, control 4 and controlled 5 blocks with chambers 6 and 7 of variable vacuum and atmospheric pressure, which are connected to corresponding nozzles 8 and 9 of control 4 and controlled 5 blocks of housing 1. In the blocks 4 and 5 of the pulsator with the possibility of axial movement are placed a control rod 10 with a radial hole 11 and an internal groove 12, a controlled rod 13, which rest on the membranes 14 and 15. and their axial movement is limited by ring valves 16 and 17, which are placed in the grooves of the rods 10 and 13, and thus seal or open the chambers of constant atmospheric pressure 18 and 19 and chambers 6 and 7 of variable vacuum and atmospheric pressure of the control 4 and controlled 5 pulsator blocks. In the axial holes of the rods 10 and 13 with the possibility of rotation and movement, a hollow slider 20 is installed in which there is a radial hole 21 and a throttle channel in the form of a coot 22 and in which, with the possibility of movement and fixation, a limiter 23 with annular protrusions 24 and a stove 25 with radial hole 26 at the end, which connect the control chamber 27 of the controlled unit 5 of the pulsator with the chamber b of the variable vacuum and atmospheric pressure of the control unit 4. The atmospheric pressure chambers 18, 19 are closed by the filter element 28. The control chamber of the control part of the pulsator 29 is connected to the chamber C through the throttle channel 22 and radial hole 21.

The pulsator of the milking machine works as follows.

The nozzle 2 of the pulsator is connected to a source of vacuum metric pressure, while a constant vacuum metric pressure is established in chamber C. valves 16 and 17 are in the position that ensures the connection of the variable pressure chamber 7 with chamber 3. Vacuum pressure through hole 11. hole 12, hole 21 but hollow slider 20 is transmitted to chamber 28. Under the action of the pressure difference, valve 17 closes chamber 7 , which is connected to the atmospheric pressure chamber 19. Atmospheric pressure is established in the nozzle 9 and the interwall spaces of the corresponding two glasses. At the same time, the atmospheric pressure from the chamber 18 and the chamber 6 through the hole 11, the hole 12 and the throttle channel 22 is established in the chamber 29. The valve 10 with the membrane 14 and the ring valve 16 will close the atmospheric pressure chamber 18 and open the vacuum pressure chamber. A vacuum pressure is established through the chamber 6, the nozzle 8 in the interwall spaces of the two glasses. The vacuum pressure through the hole 11, the bend 12 and the throttle channel 22 is set in the control chamber 29 by the control unit of the pulsator.

Rod 10 with membrane 14 and ring valve 16 are moved to the upper position. The membrane 14 opens the atmospheric pressure chamber 18. Atmospheric pressure is transmitted to the chamber 6 of the variable vacuum pressure of the control unit 4 and to the nozzle 8. The atmospheric pressure through the opening 21 and the corresponding channels of the tube 25 is established in the chamber 27. The membrane 15 with the rod 13 is moved to the reverse position and opens the access of vacuum pressure to the variable pressure chamber. Valves are switched. The pressure in chambers b 7 of the variable vacuum pressure of the control 4 and controlled 5 blocks will change to the opposite value. In the future, the mode of changing the pressures in the chambers and, accordingly, in the nozzles 8 and 9 will be repeated. The valve switching frequency is adjusted by the length of the throttle channel 22 by moving the limiter 23 in the slider 20 and fixing it in the appropriate position with the ring protrusion 24, as well as by correspondingly moving the tube 25. These operations are performed only during factory adjustment and service maintenance. 1 I m M ZE in sya i ra i r

She y m 14 4 rya

Sho disnk and one thing In: kant KUBSKAIiaK r; from oh Mak o tn EK : re r

Kuban and Kk. Tiki Ko za chi t OK i ptn KIN hna tires

Y me E Tr ra re What: bod ENN, vav Shi y ki | Eh Z --- MORE

And Ben, I pd

She from s, which I what - E roti o nya dn THEY do not drink NYA det yet and -7 to shiy EK and Shan z we have not yet pat chn: ;

Y ke their tires and the same TE 7 sl , and Ko Zk pd - shi she and I V, her Se yah ptn BAMSHYAN ME la pt ie y 5 e x: dn Za i 2 h V V 3 u,

Claims (1)

The pulsator of the milking machine, which contains a housing with chambers of variable atmospheric and vacuum pressure of the control and controlled units, which are united by a common chamber of constant vacuum pressure, which has a nozzle with which the pulsator is connected to a source of vacuum pressure, valves 1 are placed in the chambers with the possibility of axial movement membrane, while the control and controlled units have control chambers, which differs in that the control and controlled units have rods with axial holes, in which a hollow slider with a radial hole and a throttle channel made in that part of it is placed with the possibility of axial movement and rotation , which is located in the control unit of the pulsator, and in the slider with the possibility of movement and fixation there is a limiter with ring protrusions 1, a tube with a radial hole at the end, through which and an internal loop additionally placed in the rod of the control unit, the connected chambers of the variable vacuum and atmospheric pressure of the control unit 1 to the effervescent chamber of the controlled pulsator block.