RU2073427C1 - Device for general milk flow control at farms - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: device has inlet pipe connection coupled to upper part of receiver which is in the form of taper turned with its apex down. Mounted on its wide end is dividing disk made as a strip with two groups of holes. Each group has one or several holes. One group of holes connects taper-shaped receiver with large dividing chamber, and other group of holes connects receiver with small dividing chamber which is isolated from large dividing chamber and external space by vertical partition. Small dividing chamber through its small hole in bottom is connected with measuring glass made of transparent material with graduated scale on its surface. Large dividing chamber is connected through large hole with body and further with outlet pipe connection. Vertically fixed in parallel to measuring glass are one or several other measuring glasses coupled to upper part of first measuring glass and to each other by pipe link. Measuring glasses are seated in cooling vessel with transparent wall and its upper part is connected to water supply system, and lower part is connected by pipe link to sewerage system. EFFECT: high efficiency. 3 cl, 3 dwg

Description

 The invention relates to a device for metering milk and is intended for use in dairy systems on livestock farms.

 A device for metering milk is installed in front of the milk collection tank of a universal milk pump-air separator of a milking unit. It contains interconnected receiving and measuring chambers, placed in them and fixed on a movable rod, a float and a shut-off valve. The stem is hollow with an open lower end and a hole in the upper part that extends beyond the receiving chamber (USSR author's certificate N 657260, class A 01 J 7/00, from 11.05.75).

 Of the known devices, the closest in technical essence is a device for metering milk and obtaining an average sample containing an inlet and outlet pipe, a dividing cone, a housing, a dividing hole, a beaker (USSR author's certificate N 231964, class A 01 J 7/00).

 The disadvantage of this device is the small division ratio, which does not allow to measure large quantities of milk supplied to the device via pressure milk lines.

 The objective of the invention is to increase the division ratio and expand the scope of the device when measuring large quantities of milk when dispensing it from the farm or acceptance for processing.

 As a result of the use of the invention due to the separation of streams and the use of several dividing devices, the accuracy of the device increases and the field of its use is significantly expanded.

 In FIG. 1 shows a dividing disc with holes; in FIG. 2 general view of the device; in FIG. 3 placed beakers in a cooling vessel.

 The device comprises an inlet pipe 1 connected to the top of the receiver 2, made in the form of a cone facing the top down, on the extended end of which there is a dividing disk 3, made in the form of a plate with two groups of dividing holes with one or more holes 4 and 5 with one or several holes in each group, with one group of holes 4 communicates with a conical shape receiver with a large dividing chamber 6, and another group of holes 5 with a receiver with a small dividing chamber 7, separated from a large dividing chamber and external space with a closed vertical partition 8, and a small dividing chamber 7 through a small dividing hole 9 is connected to a beaker 10 made of transparent material with a scale 11 deposited on it, and a large dividing chamber 6 through a large connecting hole 12 communicates with the housing 13 and further with outlet pipe 14.

 Beakers 10 in the case of installing several pieces are interconnected by a connecting pipe 15.

 Beakers are placed in a cooling vessel with a transparent wall 16, the upper part of which is connected to the water supply system, and the lower through the outlet pipe to the sewage system.

 The large dividing chamber 6 and the small dividing chamber 7 are closed from above by a common lid 17 and fixed by quick-detachable flaps 18. A check valve 19 is installed in the lower part of the receiver 2.

 A device for general regulation and control of milk flows on farms works as follows.

 Milk through the pressure milk line enters the inlet pipe 1 of the device and accumulates in the receiver 2, made in the form of a cone. The milk level reaches the dividing disk 3 and begins to be squeezed through the measuring holes of the first group 4 and the second group 5. Through the measuring holes of the first group 4, milk enters the large dividing chamber 6, and through the holes of the second group into the small dividing chamber 7. From the large dividing chamber 6 most of the milk through a large connecting hole 12 and through the housing 13 enters the outlet pipe 14 and then into the milk tank or milk tanker. A smaller part of the milk from the small dividing chamber 7 through the small connecting hole 9 enters the beaker 10 with a measuring scale applied on it 11. All milk passing through the measuring holes 4 and 5 of the dividing disk 3 enters the large and small dividing chambers 6 and 7 in proportion to the number of holes first and second groups. A small amount of milk from a small dividing chamber 7 is accumulated in a beaker 10, tared in accordance with the division coefficient of the dividing disk 3, defined as the ratio of the number of holes in the groups. The large dividing chamber 6 and the small dividing chamber 7 are closed by a common lid 17 and are fastened with quick-release lambs 8, which provides easy disassembly and good washing of the device. The total area of the measuring holes of the first and second groups should ensure a steady outflow from them with the actual performance of the milk pump, and the cross section of the small and large connecting holes 9 and 12 is free outflow of milk from the big 6 and 7 small dividing chambers. For example, if there are 3 thousand measuring holes in the dividing disk and there is one measuring hole in the second group 5, the division coefficient will be equal to 1: 1000, i.e. when 1 ton of milk passes through the device, the volume of the measuring beaker can be equal to 1 liter. To increase the resolution of the scale or measuring large quantities of milk, two or more beakers 10 can be strengthened, connected at the top by connecting pipes 15. When filling one beaker, milk flows into the next. The milk entering the beakers after mixing it has the properties and quality indicators of the averaged milk samples of this batch can be used to control the quality of milk. To improve the quality of milk, beakers are placed in a vessel with a transparent wall 16, cooled by water. The non-return valve 19, installed in the lower part of the receiver 2, prevents the milk from returning and the already taken into account portions of milk during its pulse supply.

 The proposed device is easily washable, has simplicity and great reliability and is inexpensive, and safe due to the lack of electronic and electrical devices.

Claims (4)

 1. A device for the general regulation and control of milk flows, comprising an inlet and an outlet pipe, a dividing cone, a housing, a dividing hole, a beaker, characterized in that the inlet pipe is connected to the top of the receiver, made in the form of a cone, with its top pointing downward, at the expanded end of which a dividing disk is installed, made in the form of a plate with two groups of holes, with one or more holes in each group, moreover, one group of holes communicates with a conical shape receiver with a separate chamber, and another group of holes communicates with a receiver with a small dividing chamber, separated from the large dividing chamber and the outer space by a closed vertical partition, a small dividing chamber through a small dividing hole in the bottom is connected to a beaker made of a transparent material with a scale applied on it, and a large dividing chamber through a large connecting hole communicates with the housing and then with the outlet pipe.  2. The device according to claim 1, characterized in that in parallel with the beaker, one or more beakers are vertically attached, connected to the upper part of the first beaker and to each other by a connecting pipe.  3. The device according to claim 1, characterized in that the beakers are placed in a cooling vessel with a transparent wall, the upper part of which is connected to the water supply system, and the lower through the outlet pipe to the sewage system.  4. The device according to claim 1, characterized in that the upper surface of the dividing disk is convex, for example, conical in shape.

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