CS241223B1 - Flowmeter for continuous or total milk measurement - Google Patents

Abstract

A flow meter for continuous or cumulative measurement of the amount of milk with a measuring slot is used, for example, in agricultural animal production. The invention solves a continuous flow meter, allowing inclusion as an automation element for use in technological lines. The essence lies in the fact that the measuring tube is provided with a measuring slot, running from the bottom of the measuring chamber towards its lid. The slot is widened at the upper end into an opening, while a milk level sensor is placed in the measuring chamber.

Description

BACKGROUND OF THE INVENTION The present invention relates to a flow meter for continuously or totally measuring the amount of milk through a measuring slot in a vacuum or free air pressure environment.

The flowmeter is particularly suitable for measuring the amount of milk milked from individual dairy cows or their whole group.

Known methods of flowmeter solutions for this purpose are based on the principle of proportional separation of the flow rate of milk into a volumetric graduated vessel or on the basis of volumetric or mass dosing, and also based on the measurement of the instantaneous mass flow rate of the liquid defined by the overflow. The main drawbacks of these flowmeters are insufficient measurement accuracy, low operational reliability and sensitivity to mechanical influences.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a flowmeter that overcomes these disadvantages and allows the milking process to be controlled until the milking assembly is terminated and automatically removed, thereby creating an automation element for use in process lines.

According to the invention, the object has been solved by a flow meter for a continuous or total amount of milk with a measuring slot such that the measuring wall, for example a measuring tube, is provided with a measuring slot extending from the bottom of the measuring chamber towards its lid and extended at its upper end into an opening. A liquid level measuring device is provided in front of the measuring slot and is connected to an evaluation unit comprising an instantaneous flow evaluation circuit, a total flow evaluation circuit and a display, the evaluation circuits having control outputs.

An advantage of the flowmeter according to the invention is that it allows to control the flow rate of milk or control the operation of the device by which the milk is supplied to the flowmeter. When using a flowmeter, for example, in a milking machine, it is possible to signal a decrease in the milk flow rate and thus to control the milking process according to the zootechnical requirements and with its termination in connection with the automatic removal of the milking kit from the dairy cow etc.

The solution allows continuous milk flow, which provides immediate detection and response of the dairy cow to various stimuli caused by the operation of the milking machine as well as its operation and environment. The flowmeter is used as the main control element in the feedback milking process via a microcomputer, which adjusts the operating characteristics of the milking machine according to the activity of the mammary gland.

The flow meter can therefore be used as an automation element in technological lines. Furthermore, the flow meter according to the invention is accurate, reliable in operation, without moving parts and thus insensitive to mechanical influences.

An exemplary embodiment of a flow meter according to the invention is shown schematically with the evaluation device in the attached drawing.

The flow meter according to the invention consists of a measuring chamber 1 provided with an inlet 2 forming the inlet space of the measured liquid and a measuring wall, for example a tube 3, forming the outlet space of the measured liquid.

The measuring tube 3 is liquid-tightly mounted in the lid 15 of the measuring chamber 1 and also extends in a liquid-tight manner through the bottom 14 of the measuring chamber 1 and is provided with an outlet 5. In the wall of the measuring tube 3 there is a measuring slot B extending from the bottom 14 of the measuring chamber 1 towards In its upper part, the measuring slot 6 is widened into an opening 7 for evacuating gases or liquids during cleaning of the flow meter.

In the bottom 14 or also in the lid 15 of the measuring chamber 1 are provided sensors 8 connected to the evaluation circuit 9 and the integration circuit 10 or the display 11. Outputs 12 and 13 are led out of the evaluation circuit 9 and the integration circuit 10. Depending on the pressure environment, for example in a vacuum environment, it is necessary to compensate for the effect of vacuum, which is not necessary in a free air pressure environment.

The operation of the flowmeter according to the invention consists in the continuous sensing of the milk level in the measuring chamber 1, into which the liquid to be measured is fed through the inlet 2 and the outlet is flowing through the measuring slot into the measuring tube 3. The instantaneous height of milk in the measuring chamber 1 is sensed by the level sensor 8 and the measured values are processed by the evaluation circuit 9, possibly with a display on the display 11. The total amount of milk flowing through the measuring chamber 1 is processed by the integration circuit 10 or with the display on the common display 11. 9, 10 with outlets 12, 13 can be used for control of the technological line.

The flowmeter according to the invention can be used both as a measuring and regulating element of automated lines, where the milk is conveyed under vacuum or free air pressure. Therefore, suitable conditions for the use of the flow meter are not only in agriculture, for example for measuring the amount of milk in the milking of sheep and cows, but also in other industrial sectors.

Claims (1)

SUBJECT Flowmeter for continuous or topical measurement of milk quantity in a vacuum or free air pressure environment with a measuring slot, comprising an inlet space, for example a measuring chamber, provided with an inlet, in which a measuring wall, e.g. measuring tube, is liquid tightly mounted, for example, the measuring tube (3) is provided with a measuring slot (6) extending from the measuring bottom (14) of the measuring chamber (11) towards its lid (15) and widened at the upper end of the invention into the opening (7); 1) in front of the measuring slot (6) there is provided a milk level measuring device which is connected to an evaluation unit formed by the instantaneous flow evaluation circuit (9j) of the total flow evaluation circuit (10) and the display (11), wherein the evaluation circuits (9) , 10) are provided with control outputs (12, 13).