SU314076A1 - VOLUME ADDITIONAL UNION PASH1110 "T [X1SH ^ KKAIVBLIOTEKA - Google Patents

Description

The invention relates to the field of instrumentation and can be used in reactive auto-titrators of continuous action, as well as in chemical, pharmaceutical, food and other technological fields for the dosing of small amounts of liquid substances.

Dispensers are known in which a disc with sprays rotates between two sealing washers. When the living sections of the measuring holes-coaxial and coaxial channels in sealing washers coincide in one of the sections of the dispenser along the disk rotation path, the measuring holes are filled with liquid that is dosed, and in another section of the disk rotation path they are similarly emptied with pressure of compressed air and liquid comes to the consumer.

This design leads to the formation of a hydraulic connection along the plane of the sealing space of the fluid intake and its delivery to the consumer. Hydraulic coupling makes volumetric efficiency. dispenser functionally dependent on the properties of the liquid and the pressure drop in the space of the intake and supply of liquid. Dispensers with large areas of rubbing surfaces are also unsuitable for dispensing insufficiently stable colloidal solutions, which release gels that cause either a "wedging effect or a rapid leakage of a seal."

The described dispenser differs from the known ones in that the channels for supplying and discharging the metered liquid in the intake area, as well as the channels for emptying the liquid with compressed gas in the delivery area, are made in the form of pairwise coaxially independent nozzles separated along the plane of contact with the metering disk air gaps, with the fittings placed in the guide bushings and springs pressed to the plane of the metering disc. In addition, the channels of the metering disc are made in the form of capillaries.

Such an embodiment of the dispenser makes it possible to increase the stability of its volumetric efficiency. and transferring the metered liquid from the filling space of the capillary orifices to the open air space, where they are malfunctioning, furthermore, this makes the dispenser suitable for dosing insufficiently stable colloidal solutions.

The liquid in the open capillary apertures of the x-mernik holds the forces of the surface tension of the shade.

FIG. 1 shows a longitudinal section of the dispenser; in fig. 2 is a cross-section along L-A in FIG. one.

an open disk 1 with capillary orifices of the e-mirens 2. Two pairs of coaxial fittings 3-6 are attached to the ends of the metering disk. The position of the nozzles with respect to the disc is fixed by means of a slide, its landing in the direction of their bushings 7-10. Sealing at the points of contact between the discs and the discs is provided by springs} / - 14. The rotation of the disc 1 is transmitted through the shaft 15 fixed in bearings 16, 17 mounted in the housing 18.

The dispenser works as follows. The liquid under pressure is metered through the nozzle 6 into the capillary orifice 2 of the metering disc 1 and through the nozzle 5 flows out to the drain. When the dispensing disc 1 is stationary, the liquid does not enter the nozzles 3, 4, since the nozzles 5, 6 and 3, 4 are separated by an air gap. When the shaft 16 rotates, the capillary openings of the disk (the disc) are successively aligned with the holes of fittings 5, 6 on the intake line of the dosing liquid, are washed, completely filled with liquid and move to the area of fittings 3, 4 on the discharge line, where the liquid is under the pressure of gas or inert carrier fluid entering through choke 4 is delivered to consumer through choke 3. Consequently, when the disk is rotated, the filling of the capillary gauges in the measuring line takes place with the metered liquid, and their emptying using a transporting agent in the liquid distribution line to the consumer.

The capacity of the dispenser is determined by the number, size of the capillary openings of the gages and the number of revolutions of the disc per unit time.

Subject invention

L. Volumetric dosing unit containing a non-removable body, rotating the dosing disc, movable tongues, characterized in that, in order to increase the stability of the volumetric efficiency factor the metering device, the channels for supplying and discharging the dosing liquid in the intake area, as well as the emptying channels of the liquids by compressed gas in the supply area are made in the form of pairwise coaxial independent one of

the other fittings, which are separated in a plane of contact with the metering disc by air gaps, while the fittings are placed in the guide bushings and springs pressed to the plane of the metering disc.

2. The volumetric dosing unit according to claim 1, characterized in that, in order to prevent partial or complete emptying of the channels of the dosing disc when moving them in the open

airspace, they are made in the form of capillaries.

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