SU791344A1 - Milking apparatus - Google Patents

Description

(54) MILKING MACHINE

This invention relates to the field of agriculture, in particular to milking machines. A milking machine is known, which includes a pulsator, two-chamber teat cups and connecting hoses. Known milking machine folded in operation. A milking machine is also known, including a pulsator with vacuum and pulsating vacuum chambers, teat cups with chambers and inner wall chambers and a milk branch pipe and connecting hoses / communicated with the milk main 2, the well-known milking machine is complex in design and operation. of The purpose of the invention is to simplify the design and operation of the milking machine. This is achieved by the fact that the KctMepa underflow is provided with a check valve with a calibrated orifice, which is installed in the luster of its connection with the milk branch pipe, the latter is communicated with the interwall chamber and connected to the main vacuum chamber through the connecting hoses with the chamber pulsary arm of the void. milk line. FIG. 1 shows the proposed milking machine, general view; in fig. 2 - teat cup, longitudinal section; in fig. 3 - pulsator, longitudinal section; in fig. 4 shows section A-A in FIG. 3; in fig. 5 is a section BB in FIG. 3; in fig. 6 is a sectional view BB in FIG. 3. The milking machine contains a pulsator 1, teat cups 2 and 3L connecting hoses. The milking cup has a body 4, a nipple rubber 5 and a milk outlet 6. An interwall wall 7 is formed between the body and nipple rubber, and the nipple rubber inner cavity is a nipple 8 The inter-wall chamber and the milk outlet pipe are connected to each other through channels 9. A check valve 10 with a spring 11 is placed between the milk outlet pipe and the spouting chamber. A calibrated orifice is made in the body of the non-return valve. e 12 informing molokootvod supply pipe used to podsoskovoy chamber 8. To improve the removal from the glass-milk due

partial intake of air in the body of the glass made an additional calibrated hole 13.

The pulsator includes a housing 14 with a constant vacuum nozzle 15, a pulsating vacuum nozzle 16 and an atmospheric pressure opening 17, a rotor 18 with recesses 19, and a regulator 20 of the ratio of the duration of pulsations in the form of a rotary ring, in the body of which a channel 21 communicating diametrically opposite holes 22 and 23.

The recess 24 of the housing forms a pulsating vacuum chamber and communicates with the nozzle. The housing cavity 25 forms a constant vacuum chamber and is connected through the nozzle 15 to the evacuated main milk line 26. In one half of the housing, in the interval between the constant vacuum nozzle and the atmospheric pressure opening, a series of slotted channels 27 are evenly located, which communicate the recesses 19 of the rotor with the channel 21 regulator.

Milking machine works as follows.

When the rotor 18 rotates, its recesses 19 periodically communicate with the constant vacuum pipe 15, then with the atmospheric pressure port 17. Since the recesses 19 of the rotor are connected via the slotted channels 27 and the channel 21 to the recess 24 of the housing, a pulsating vacuum is created in the latter. Then, the pulsating vacuum through the nozzle 16 and the connecting hoses 3 is transmitted to the milk outlet 6 of the teat cups. Since the nozzle 6 is connected via channels 9 with the interwall chamber 7, a vacuum or atmospheric pressure is created in the latter in the latter, respectively. When a vacuum is created in the nozzle 6, the non-return valve 10, overcoming the force of the spring 11, opens and a vacuum is also created in the drip chamber 8, which corresponds to the coca stroke of the milking machine. When atmospheric pressure is created in the nozzle 6, the check valve 10 is closed by the action of the spring 11, therefore, vacuum is maintained in the podslc chamber 8, and atmospheric pressure is in the interwall chamber 7, which characterizes the compression stroke of the milking machine.

Then, through the calibrated orifice 12, the pressure in the underflow chamber 8 is gradually balanced with the pressure in the interwall chamber 7 and the rest tact is carried out.

The mode of operation of the milking machine is determined by changing the ratio of the duration of pulsation cycles by turning the regulator 20 in one direction or the other and changing the cross section of the calibrated orifice 12. If the pressure in the podskoshka chamber 8 does not have time to balance with the pressure of the intersite chamber 7, then the device operates in a push-pull mode, without a tact of rest. Thus, by selecting the cross section of the calibrated orifice 12, the device can be tuned to two-stroke operation mode or three-stroke operation. New features

milking machines reduce the number of connecting hoses by half, eliminating the need for a collector device. with air nozzles and allow to change the milking mode from three-stroke to two-stroke, and vice versa from two-stroke to three-stroke. This simplifies the design of the milking machine and improves the conditions for its operation.

Claims (2)

1. USSR author's certificate number 370928, cl. A 01 J 5/10, 1971. 2. USSR author's certificate No. 568421, cl. A 01 J 5/10, 1973 (prototype) .. /five iS