RU2039942C1 - Batcher - Google Patents

Abstract

FIELD: measuring equipment. SUBSTANCE: batcher has measuring tank coupled with a siphon pipe line whose one end is positioned above the bottom of the measuring tank and the other end is positioned bellow the bottom of the measuring tank. The bent of the siphon pipe line is positioned below the top edge of the measuring tank. The siphon pipe line is collapsed in vertical direction at the site of bent. EFFECT: improved accuracy. 2 dwg

Description

 The invention relates to the dosing of various liquids and can be used in the chemical, engineering, metallurgical, food and other industries.

Known dispenser containing a measuring tank and attached to it a siphon pipeline, one end of which is located above the bottom of the tank, the other end below the bottom of the copper tank, and the place of its bend is located below the upper layer of the measuring tank [1]
The specified dispenser has a low reliability, especially at high flow rates of the dosed liquid, when the diameter of the siphon pipeline increases.

 The purpose of the invention is to increase the reliability of the siphon dispenser by maintaining the siphon effect on siphon pipelines of large diameter.

 The goal is achieved in that the dispenser contains a measuring tank and a siphon pipe connected to it, one end of which is located above the bottom of the measuring tank, the other end is below the bottom of the measuring tank, and the bend is located below the upper edge of the measuring tank, and the siphon pipe at the bend is flattened in the vertical direction.

 This embodiment of the siphon pipeline allows you to maintain the influence of wettability on the shape of the free surface of the liquid column passing through the siphon at the same level as in siphon pipelines of smaller diameter, due to which the siphon effect is preserved on larger siphon pipelines.

 Figure 1 shows a dispenser, a section in a vertical plane; figure 2, view A in figure 1.

 The dispenser contains a measuring tank 1, which is connected to the siphon pipe 2, one end 3 of the siphon pipe 2 is located above the bottom of the measuring tank 1, the other end 4 is located below the bottom of the measuring tank 1, and the place 5 of the bend of the siphon pipe 2 is located below the upper edge 6 of the measuring tank 1. At the inflection point 5, the siphon pipeline is flattened in the vertical direction.

 The dispenser works as follows.

 The dosed liquid is supplied to the measuring tank 1, the liquid level in which begins to rise. As soon as the liquid level in the measured container 1 is slightly higher than the place 5 of the inflection of the siphon pipeline 2, the outflow of liquid into the commodity container 7 begins.

 Since the flow rate of the liquid entering the measuring tank 1 is less than the flow rate of the liquid flowing through the siphon pipe 2, the level of the free surface in the measuring tank 1 will decrease. As soon as the end face 3 of the siphon pipe 2 is exposed, the flow of liquid through it will stop.

 The volumetric container 1 will again be filled with liquid until the level again becomes slightly higher than the place 5 of the inflection. Then the dosing process is repeated.

 Since the siphon pipeline is flattened at the inflection point 5, the influence of the wettability forces on the shape of the free surface of the liquid column passing through the siphon pipe 2 remains at the same level as in smaller siphon pipes, due to which the siphon effect is maintained and the reliability of the siphon dispenser with increasing diameter of the siphon pipe.

Claims (1)

 A dispenser comprising a measuring container and a siphon pipeline connected to it, wherein one end of the siphon pipeline is located above the bottom of the measuring tank, the other end is located below the bottom of the measuring tank, and the bend of the siphon pipe is located below the upper edge of the measuring tank, characterized in that the siphon pipe the inflection point is flattened in the vertical direction.

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