SU1050612A1 - Milk meter - Google Patents

Abstract

1. A MILK COUNTER, comprising a housing, a receiving chamber, a milk flow guide into two measuring chambers, siphon tubes consisting of inlet and overflow pipes, and a drain chamber with an outlet pipe, characterized in that in order to increase the reading accuracy, it has a control chamber located between the measuring chambers, in the cavity of which the overflow pipes of the siphon pipes are installed, and is equipped with a milk flow illuminator fixed between the overflow pipes of the siphon pipes and two light-sensitive sensors, each of which is located between the inlet and overflow pipes of the siphon tubes. 2. A counter according to claim 1, characterized in that the milk guide is designed as a spool switch. 3. A counter according to claim 1, characterized in that the drain chamber is provided with a valve, the valve mentioned and the valve being gold (the on / off switch is spring loaded. Ate O O: tc

Description

The invention relates to rural / .iiicTBv, in particular to milk counters. A milk meter is known, which contains a camera, a recording device) and a sensor made in the form of a sipho;: a, is the bottom of the drain tube of which yci are equipped with electrodes 1. A milk meter is also known, comprising a housing, a receiving chamber, a milk flow guide in two measuring chambers , siphon tubes, consisting of inlet and overflow pipes, and a drain chamber with an outlet pipe 2. Known milk counters do not provide the necessary accuracy for determining the amount of milk produced. The purpose of the invention is to increase the accuracy of the reference. The goal is achieved by the fact that the milk meter has a control chamber located between the measuring chambers, in the cavity of which overflow pipes of siphon tubes are installed, and equipped with a milk flow illuminator fixed between the overflow pipes of the siphon tubes and two light-sensitive sensors each of which are between the inlet and overflow pipes of siphon tubes. The milk flow guide is designed as a spool switch. The drain chamber is provided with a valve, the valve mentioned and the spool switch valve being spring loaded. The drawing schematically shows a milk meter. The milk meter consists of a receiving chamber 1, a milk flow guide 2, measuring chambers 3 and 4, a drain chamber 5, a pressure stabilization chamber 6 and a control chamber 7. A stabilization chamber 6, the pressure by a reflector 8 is separated from the receiving chamber 1, which is in the upper part connected to the pipe 9, the discharge of milk from the collector of the milking machine (not shown) and the pipe 10 to suck air from the mixture consisting of air and milk, and in the lower vertical channel 11 it is connected to the cavity of the guide 2 of the milk flow. The vertical tube 12 connects the chamber 5 to the chamber 6, and the holes 13, 14 and 13, 15 connect the cavity of the guide 2 to the measuring chambers 3 and 4. The milk flow guide is designed as a spool switch, the distributor valve 16 of which is rigidly connected to one the end of the spring 17, which is connected to the end of the guide 2 at the other end, stretches, with the other end of the movable valve 16 by the rod 18 connected to the movable core 19 of the electromagnet 20. The measuring chambers 3 and 4 are provided with claws 21 and 22 and with siphon nozzles, having inlets 23 and 24 and overflow pipes 25 and 26, which are passed through the cavity of chamber 7, the bottom partitions of chambers 3 and 4 and are connected to the upper part of the drain chamber 5. On the side of the drain chamber 5, a drain valve 27 is installed, the brushes of which are rigidly connected to one end of the spring 28, the other end of which is connected to the casing of the chamber 5. By the branch pipe 29, the drain chamber 5 is connected to the milk line 30. In the rupture of the partition 31, which forms the measuring chambers 3 and 4, the control chamber 7 is fixed with the photosensitive sensors 32 and 33 by the illuminator 34 flow of milk. Since the distribution valve 16 is connected to the guide body with the spring 17 in the guide 2 and connected to the guide body, before opening the Counter into operation, the holes 13 and 15 are disconnected by the valve 16 from the cavity of the receiving chamber 1, and the measuring chamber 3 by the holes 13 and 14 connected through channel 11 with the camera 1. The lighter 34 of the milk flow is fixed between the overflow pipes of the siphon tubes and two photosensitive sensors, each of which is located between the inlet and the overflow pipes of the siphon tubes. All cameras of the counter are located in its case. The milk meter works as follows. The pipe 9 is connected to the milk hose from the side of the milking unit collector (not shown), and the pipe 10 is connected to a vacuum source, a vacuum is applied, it fills all the working chambers of the meter and goes through the pipe 9 to the milking machine. The portions of milk in the opposite direction through the pipe 9 enter the cavity of the receiving chamber 1, where the milk is released from the foam, through the channel 11 fills the free part of the cavity of the guide 2 and through the opening of the holes 13 and 14 is further drained and accumulated in the measuring chamber 3. When the milk level in the measuring chamber 3 reaches the upper level of the nozzle 24, the siphon tube is triggered, and the flat milk flow through the overflow pipe 25 of the siphon rushes into the drain chamber 5. As soon as the milk flows through the nozzle 25, it will block the lights The flow from the illuminator 34 to the photosensitive sensor 33, an electrical pulse from which sends a command to the control circuit of the electromagnet 20. At the same time, its core 19 moves to failure to the right and through the pin 18, expanding the spring 17, switches the valve 16 to the right extreme position. in turn, closes the opening 13 above the measuring chamber 3, and the remaining milk in the closed cavity flows through the overflow opening 14 into the measuring chamber and evacuates with the main flow of milk through

the siphon tube into the drain chamber 5. As soon as the valve switches, the holes 13 and 15 of the guide 2 are connected through the channel 11 to the chamber 1 and the milk enters the measuring chamber 4. At some point, the chamber 4 is filled and the chamber 3 is empty. At the same time, the milk filling the chamber 5 creates additional pressure from the chamber on the surface of the valve 27, the force of the spring 28 is overcome and through the open valve through the pipe 29 the milk enters the milk duct 30. Milk has flowed out of chamber 3 into the milk duct 30, and the control system distribution chamber Eni continues to hold the valve 16 is in the rightmost position of a guide. It is maintained until the milk level in chamber 4 reaches the upper level of nozzle 23. At this point the siphon tube is triggered, the milk rushes through the overflow nozzle into the drain chamber 5 and through valve 27 and nozzle 29 is drained into the milk duct 30 .

As soon as the milk flow enters the upper part of the nozzle 26, it will block

the luminous flux from the illuminator 34 to the photosensitive sensor 32. The command pulse from the sensor 32 opens the circuit of the electromagnet 20, and the spring 17 returns the valve 16 to the extreme left position, and the measuring cell 3 is filled with milk again, and the chamber 4 is emptied of the accumulated portion milk, and each time the sensors 32 and 33 are triggered, the pulse enters the adder, counting the number of portions of milk released into the milk conduit 30.

In the case when milk remains in one of the chambers, the level of which does not reach the level of the upper part of the siphon tube, it is released, closing the nozzle 10 and opening for an instant the access of atmospheric air from the side of the milking machine. At the same time, the overpressure pushes the milk through the siphon tube into chamber 5 and, together with the incoming air, it is evacuated into milk conduit 30. Subsequently, the work cycle is repeated. The proposed counter provides the necessary accuracy in determining the amount of milk produced.

Claims (3)

1. MILK METER, comprising a housing, a receiving chamber, a milk flow guide into two measuring chambers, siphon tubes consisting of inlet and overflow nozzles, and a drain chamber with an outlet nozzle, characterized in that, in order to increase the reading accuracy, it has a control chamber located between the measuring chambers, in the cavity of which siphon tube overflow tubes are installed, and is equipped with a milk flow illuminator fixed between the siphon tube overflow tubes and two photosensitive sensors kami, each of which is located between the inlet and overflow nozzles of siphon tubes. 2. Counter by π. 1, characterized in that the milk guide is made in the form of a slide valve. 3. Counter by π. 1, characterized in that the drain chamber is equipped with a valve, said valve and the slide valve of the spool switch being spring-loaded.