RU2108548C1 - Liquid metering tank - Google Patents

Abstract

FIELD: automatic conversion of continuous liquid flow. SUBSTANCE: device has accumulating tank, bellows and bellows starting mechanism. The latter is made as chamber communicating through coupling channel with drain section of bellows at point positioned below its shear. Coupling channel has two bends spaced vertically. One of bends is located above possible liquid level in accumulating tank. EFFECT: enhanced conversion process. 3 dwg

Description

 The invention relates to the field of engineering and can be used in many industries and services for the automatic conversion of a continuous liquid flow with a relatively small flow rate into a discrete feed of a given volume with a significantly higher flow rate. More specifically, the proposed fluid dispenser may find application in the food and chemical industries, in agriculture for mechanization of irrigation, in hydraulic structures.

 Known liquid dispenser containing a measured capacity, siphon and the mechanism of its launch [1].

 The disadvantage of this fluid dispenser is the design complexity due to the presence of moving parts of the siphon trigger mechanism.

 Closest to the proposed technical solution is the design of the siphon dispenser with an ejector mechanism for starting the siphon in a known device for irrigation [2].

 The disadvantage of this design is the low reliability of the siphon launch mechanism, due to the fact that the creation of a vacuum by the ejector occurs when a drop of liquid flows through it. Therefore, the ejector is made with a small flow area, which is prone to clogging. In addition, with this principle of operation, the air of the siphon parts is slowly removed, which makes the siphon charging process relatively long. This, in turn, is the reason that the siphon can operate depending on the input fluid flow at different filling levels of the measuring tank.

 The aim of the invention is to increase the reliability of the siphon range of the liquid and increase the speed of its trigger mechanism.

 To achieve this, in a liquid dispenser containing a storage tank and a siphon communicated by the suction part with the tank, and a drain with a collector, the outlet pipe of which is located above the lower cut of the siphon drain part, the siphon trigger mechanism is made in the form of a chamber communicated by a communication channel with the drain part of the siphon at a point located below its upper cut, and the communication channel has two vertically spaced elbows, one of which is located above the possible liquid level in the storage tank.

 In FIG. 1 shows a schematic structural diagram of the proposed fluid dispenser; in FIG. 2, 3 - working position of the liquid in the component nodes of the dispenser.

 The liquid dispenser contains a storage tank 1, a siphon 2 and a siphon trigger mechanism 3. The suction part 4 of the siphon 2 is in communication with the storage tank. The drain part 5 of the siphon is in communication with the collector 6, the outlet pipe 7 of which is located above the lower cut 8. The trigger mechanism 3 of the siphon includes a chamber 9, a collector 6 and a communication channel 10, which communicates with the camera 9 with the drain part 5 of the siphon at a point below cut 11. The communication channel 10 has two vertically spaced elbows 12 and 13, the upper elbow 12 being located above the possible liquid level in the storage tank 1.

 To prepare the fluid dispenser for operation, it is necessary to fill the fluid into the manifold 6 and chamber 9. The fluid level in the manifold 6 should be at the outlet pipe 7, and in the chamber 9 the fluid level h should be slightly lower than the fluid column in the manifold 6.

 The liquid dispenser operates as follows.

 When liquid enters the storage tank 1, its level in the suction part 4 of the siphon 2 increases. The air located in the siphon 2 is compressed, the liquid from the lower knee 13 of the channel 10 is squeezed into the chamber 9, increasing the column of liquid in it by Δh. And when the liquid is completely squeezed out of the channel 10, the compressed air in the siphon 2 quickly bleeds through the liquid layer Δh into the atmosphere. The siphon starts up, merges water from the storage tank with a relatively high flow rate and returns to its original position. Accumulation-outflow cycles will be automatically repeated.

 Compared with the prototype, the proposed design of the liquid dispenser has a more reliable operation due to the fact that the siphon trigger mechanism can be performed with such flow sections in which they can be blocked by solid inclusions contained in the liquid after rough cleaning. The speed of the siphon trigger mechanism is provided by the relay actuation of the water shutter, in which the air holding force decreases sharply when the air is forced out of the liquid from the communication channel communicating with the siphon.

Claims (1)

 A liquid dispenser containing a storage tank, a siphon, a siphon trigger mechanism communicated by the suction part with the tank, and a drain with a collector, the outlet pipe of which is located above the lower cut of the siphon drain section, characterized in that the siphon trigger mechanism is made in the form of a chamber communicated by the channel connection with the drain part of the siphon in a place located below its upper cut, and the communication channel has two vertically spaced elbows, one of which is located above a predetermined liquid level in the storage tank and.

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