SU1657967A1 - Metering tank - Google Patents

Abstract

This invention relates to dosing i-piM devices. The purpose of the invention is to increase efficiency by dosing according to a given program. The liquid from the supply pipe 3 through the replaceable nozzle 12 enters the measuring tank 1, and through the replaceable nozzle 11 an additional inclined nozzle 5 in the form of a jet is transferred to the additional tank 6 installed in the measuring tank 1 and made with the possibility of vertical displacement The invention relates to dosing devices siphon type and can be used in chemical, pharmaceutical and other industries. The purpose of the invention is to increase efficiency by dosing according to a given program. The drawing schematically shows the dispenser. I The siphon metering device contains a measuring tank 1 with a siphon 2, in the lower part or its upper edge. During the period of filling the measuring tank 1 from level II to level III, additional tank 6 can be filled, and consequently, its siphon tube can one or more times. When the liquid reaches level III in the measuring tank 1, an additional inclined nozzle 5 overlaps, the axis of which passes above the upper edge of the additional tank 6, the flow of the liquid in the form of a jet stops and all the liquid and inlet pipe 3 will flow into the measuring tank 1. When it reaches a level 1 liquid will trigger a siphon 2, the end of whose upward branch is located above the output end of the pre-conduit pipeline 3 which is hermetically passed to the lower part of the measuring tank 1, but below the end face inclined nozzle 5. Changing the dose program is carried out with interchangeable nozzles 11,12. 1 ep f-ly, 1 ill. the outlet end of the supply pipe 3 with the flow control unit 4 is tightly fitted with an upwardly inclined additional nozzle 5, the axis of which passes above the vertical edge of the upper edge of the additional tank 6 with the siphron tube 7. In this example, the vertical movement of the upper edge is provided by performing an additional v (D # a el J So oe 3

Description

containers 6 with flexible corrugated walls associated with the mechanism 8 of the reciprocating movement

The descending branches of the silon and the tube are exchanged, respectively, in the output collector H and in the funnel communicated with it 1).

The end of the upstream branch of the siphon 2 is located above the end of the output end of the inlet pipe 3, but below the end of the additional inclined nozzle 5. The additional inclined nozzle 5 and the output end of the inlet pipe 3 are equipped with interchangeable nozzles 11 and 1I, respectively.

The dose of liquid enters the product tank 13.

The siphon dispenser works as follows.

The flow rate of the fluid entering the measuring tank 1 is less than the flow rate of the fluid flowing through the siphon) ..

Consider, for example, the mode of operation.

The net volume of the additional tank 6 is significantly less than the time Ј. filling the useful volume of measuring tank 1 from level II to level III. The liquid from the supply pipe 3 through the replaceable nozzle L enters the measuring tank 1, and through the replaceable nozzle 11 additional inclined nozzle 5 in the form of a jet into the additional tank 6. Over a period of time, the additional tank 6 can be filled, and therefore it can work siphon tube / one or more times. When the liquid in the measuring tank .1 reaches the level 1Г1, the additional inclined nozzle 5 will overlap, the flow from the nocjitMnei о will stop and as a result, the liquid from the supply pipe 3 will flow into the measuring tank 1. When the liquid J reaches the level J, a siphon will work. As soon as the level of the liquid in the measuring tank 1 decreases, the end of the additional oblique pipe g of the latter begins to flow into the additional tank 6 in the form of a jet. At the same time, the further decrease of the free surface of the liquid in the measuring tank 1 to level II adds additional capacity 6 as well as and when filling the measuring container 1 it can be filled and consequently the siphon tube 7 can be triggered one or several times.

After the free surface of the liquid in the measuring tank 1 reaches the level JI, the outflow of the liquid through the siphon). will cease due to the entry of air from the atmosphere into it.

Then the cycle repeats.

The change in dose program is carried out with replaceable nozzles 11.1. In this case, the predetermined position of the upper edge of the additional tank 6 relative to the changed height of the jet when replacing the interchangeable nozzle 11 is provided by the mechanism 3 for reciprocating movement.

Claims (1)

1. A metering device containing a measuring container with a siphon and a supply pipeline with a flow control unit, which is taken away in that, in order to increase efficiency due to dosing according to a given program, an additional tank with a siphon tube is inserted into it, made with the possibility of its upper displacement edges and installed in the measuring vessel, the output end of the inlet pipeline is hermetically passed into the lower part of the measuring container (and made with an additional inclined pipe directed inside, the axis of which is Rises above the upper edge of the additional tank, which is located higher than the end of the ascending branch of the siphon above the end of the output end of the supply pipe, not lower than the end of the additional inclined nozzle. /. t ozator on p. 1, which is also distinguished by the fact that the output end of the secondary pipeline and the additional inclined nozzle are provided with interchangeable nozzles.