SU49900A1 - Liquid dispensing machine - Google Patents

Description

In the technique of bottling known bottling machines, operating on the principle of scoops when measuring the liquid poured into the dishes supplied by the conveyor through a pipe and funnel.

According to the invention, a variation of such a machine is proposed, the novelty of which is seen in that pushing certain doses of fluid through the drain pipe to dryness is determined by the air pressure created by the scoop in the form of a spiral tube bent for dispensing liquid.

FIG. 1 of the schematic drawing depicts a machine in cross section and FIG. 2 is the same in longitudinal section.

Dosage of liquids such as hydrochloric acid, iodine, etc. was made up to;

burettes, as the resistance of metals or alloys in the mechanisms of dosing devices for such liquids is insufficient, and the use of glass, ceramics and the like in conventional structures with moving parts has not yet been justified. In the liquid offered by the machine, the dosage itself is carried out without direct application of mechanical force to the fluid and without any valves, valves, etc., but only by draining the liquid in a spiral-curved tube made of glass, porcelain, and the like.

In vessel I, filled and maintained at a certain level with liquid, a spiral of glass t (eubes 2, one single open end of which is dipped into a liquid, rotates, and the other horizontal rotates in bearing 3 and ends with a glass collector 4 with a side opening 5, through which liquid, at each turn of the spiral and the collector, is poured into vials-6 supplied by the conveyor 7.

Found in FIG. 1 drawing position, the spiral with its lower open end just scooped up a column of fluid a-5; the next turn of the helix, this liquid column passes into the second turn of the helix and takes up a position at the third turn, this liquid column passes through the central end of helix 8 of FIG. 2, will be poured into the horizontal tube 9 and through it into the collection 4 and it up to the level shown in the drawing. The next half turn the contents of the collection will pour out

into the funnel vial. Thus, the spiral at each turn takes a certain dose of liquid, the amount of which depends on the diameter of the tube and the level of the liquid in the vessel. The spiral can be of any shape with any number of turns. It is necessary, however, to note that the use of a spiral with two or more turns (three turns are shown in the drawing) allows the use of a new factor that is absent in the single-turn spiral and significantly increases the machine's clarity.

In the multi-turn 1x helix, between the separate columns of fluid, columns of air are formed, which are under a certain pressure, which increases as the fluid passes from one turn to the next. These columns of air contribute to the merging of individual doses of liquid in the horizontal part of the spiral, pushing them through it and accelerating their passage. Therefore, the use of the collection 4 shown in the drawing is not necessary, since its main purpose is to reduce the time it takes to pour the liquid into the funnel of the bottle to a minimum.

The rotational movement of the helix can be given by the method shown in the drawing: an asterisk 10 is rigidly mounted on the horizontal part of the tube in the slot of the bearing 3, driven by the Gall chain from the shaft 11.

The drawing shows a glass disk 12, the purpose of which is to prevent the flow of fluid across the surface of the tube in the bearing.

Due to its simplicity, precision, and easy flushing, this machine can be widely used in the dosing of highly corrosive liquids ranging from 10 to 1000 cm, as well as in those industries where it is necessary to pour a large assortment of liquids into small vials for mass consumption.

The subject is invented and.

A liquid dispensing machine consisting of a tank with a constantly maintained liquid level with a scoop rotated in it to trap certain doses of liquid poured out; out through the pipe, characterized in that for alternately pushing certain doses of fluid through the drain pipe 9 through the formation of air pressure, a spirally bent pipe 2 coupled to a rotatable horizontal drain pipe 9 having an opposite end is used as a scoop. hole 5 for pouring individual doses of liquid into the container.