RU2131183C1 - Milking unit test stand - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: stand has artificial teat positioned in lower part of hollow housing provided with cover. Metal pipe is fixed centrally of cover. Rod connected with spherical member is extending through metal pipe. Spherical member is biased to artificial teat opening by spring. Rod with spherical member is moved by spring and by the action of vacuum in space below artificial teat. Movement of rod past link mechanism is transmitted to self-registering pen which registers on rotating drum changes in vacuum extent in space below artificial teat depending on milk yield intensity. Sufficient operation of milking unit is provided, when stable vacuum extent in mentioned space is maintained. EFFECT: increased efficiency and enhanced reliability in operation. 2 cl, 1 dwg

Description

 The invention relates to agriculture, in particular to stands for testing milking machines.

 A known bench for testing milking machines, containing an artificial nipple, body, cover, measuring rod, nozzle, liquid, check valves, ruler, slide engines [1].

 However, this test bench for milking machines does not allow to determine the change in vacuum in the suction cup, depending on the intensity of milk transfer.

 The objective of the invention is to determine the dependence of the change in vacuum in the suction cup on the intensity of milk transfer.

 The problem is solved due to the fact that a device is installed inside the case, which allows you to record a graph of vacuum changes in the suction cup.

 The drawing shows a General view of the stand for testing milking machines.

 The test bench for milking machines includes an artificial nipple 1, mounted in the lower part of the hollow body 2 with a clamping washer 3. The body 2 is equipped with a cover 4 having a fitting 5 on the body connected to a liquid container and a handle 6, by means of which the cover is rotated 4 when screwing it into the housing 2.

 In the center of the lid 4, a device for measuring vacuum in the suction cup is mounted, consisting of a metal tube 7 fixed to the lid 4 motionless. In the lower part of the artificial nipple 1 there is an abutment 8 for supporting the spring 9. The abutment 8 is rigidly fixed to a metal rod 10, to which the ball 11 is also rigidly attached. The ball 11 is tightly pressed to the hole 12 from the outside of the artificial nipple 1, using a spring 9, which at the bottom rests on the washer 14.

 When the stand is operating, the mechanical movement of the ball 11 is transmitted to the rod 10, and then, using the lever mechanism 15, to the pencil-recorder 16, which in turn carries out a graphic image of the change in vacuum in the suction cup on the rotating drum 17.

 During operation of the stand, the working fluid 18 is constantly supplied to the housing 2, which flows out through the hole 12. The nozzle 19 is engaged with the fork 20 to connect the milking cup 21 to the ruler 22. A guide bar 23. is fixed to the outer surface of the housing 2. 22, the upper 24 and lower 25 engines are movably fixed. On the inner surface of the artificial nipple 1 there are diametrically opposite clamping protrusions 26.

 The stand works as follows.

 Before starting work, a container with a liquid similar in its properties to milk is connected to the nozzle 5. The fluid in the housing 2 through the nozzle 5 enters through calibrated holes that allow you to adjust the flow of fluid in a volume of 200, 400 and 600 ml / min. Thus, an imitation of the milk transfer process is carried out.

 The milking cup 21 of the connected milking machine is put on the nipple 1 so that the nozzle 19 is caught by the fork 20. After that, the engines 24 and 25 are shifted to each other and brought to the limiter of the guide bar 23 until they touch.

 During the action of the nipple rubber of the milking cup 21 on the nipple 1, during the compression stroke, the volumetric deformation of the artificial nipple 1 occurs. Since the liquid 18 is incompressible, the elasticity of the nipple 1 is ensured.

 Initially, after connecting the cup 21 of the working milking machine to the artificial nipple 1, a liquid of 200 ml / min is supplied through the nozzle 5. Thus, an imitation of the first phase of milk transfer is carried out. During the operation of the stand, the liquid, falling through the nozzle 5 into the housing 2, is sucked in by the milking machine (suction stroke) through the hole 12, while the ball 11 opens under the action of vacuum, thereby freeing the passage for the liquid. At this time, the rod 10, rigidly fixed with the ball 11, transmits the vertical amplitude of the oscillations to the lever mechanism 15. The lever mechanism 15, in turn, transfers the movement to the pencil-recorder 16, which draws in the form of a curve of the amplitude of movement of the ball 11 on the drum 17. Through 1 , 5 minutes, the liquid begins to be supplied in a volume of 400 ml / min, after another 1.5-600 ml / min. Thus, we will have 3 graphs, which show the change in the magnitude of the vacuum in the suction cup at different values of milk yield. To accurately determine the magnitude of the vacuum according to the schedule, preliminary calibration of the writing device is carried out. The spring 9 is designed in such a way that during testing there is a free opening of the hole 12, but it is not allowed the flow of liquid at the time of a rest stroke. After testing several milking machines, the graphs of vacuum changes in the suction cup are compared depending on the intensity of milk flow and the best design is revealed. A stable vacuum in the suction cup determines the good operation of the milking machine, good milk removal.

 In the process of testing the milking machine, the milking cup 21 crawls onto the nipple 1, the magnitude of which depends on the design of the milking machine. Moving ruler 22 with the upper slider 24 installed on it will move upward relative to the nipple 1 along with the milking cup 21. However, the limiter of the guide bar 23 prevents the movement of the slider 25. Thus, the slider 24, moving together with the slide 22, will move away from the slider 25 by some value, which will be the value of the crawl of the glass 21 of the milking machine on the nipple 1.

 The milking cup 21, crawling onto the nipple 1, gradually compresses its upper part, which causes the diametrically opposite clamping protrusions 26 to come closer together. The protrusions 26 mimic the upper duct of the nipple of the udder of the animal. Thus, approaching each other, the protrusions 26 reduce the passage for the flow of liquid into the milking machine. At the end of the test, liquid 18 is measured in a bucket of each milking machine.

 As a result of tests of several milking machines, the amount of crawl of the teatcup on the artificial nipple 1, the volume of the milk replacing milk, are determined and a graph of the change in vacuum in the suction cup is drawn. According to such tests, a comparison is made of the work of milking machines of various designs and gives a conclusion on the suitability of use on a particular group of animals.

 Processing of the test results is carried out according to a special technique, where the best milking machine is the one where the smallest crawl of the teatcup on the artificial nipple, a steady vacuum in the suction cup and the largest amount of milk replacing milk.

Sources of information
USSR author's certificate N 1523140, B.I. N 43, 1989

Claims (2)

 1. A test bench for milking machines containing an artificial nipple mounted in the lower part of a hollow body having a cover, in the center of which there is a device for measuring vacuum in the suction cup, a guide bar rigidly attached to the outer surface of the body, and a movable ruler with two sliders characterized in that the device for measuring vacuum in the suction cup consists of a metal tube, inside which passes a rod connected to a ball pressed against the hole of artificial ska movable under the action of the vacuum and spring.  2. The stand according to claim 1, characterized in that it is equipped with a lever mechanism, a pencil-recorder and a drum for recording changes in the magnitude of the vacuum in the suction cup.