SU914827A1 - Dynamic hydropulsator - Google Patents

Description

The invention relates to a pulsating technique, in particular to a hydraulic pulsator, and can be used in the design of installations for creating pulsations in a liquid stream in order to increase the efficiency of hydrotransport processes, soil erosion, heat and mass transfer processes, sawing processes, etc.

Known dynamic hydropulsator, comprising a housing with suction and discharge nozzles and an impeller having blades located between the discs and a peripheral cylindrical shell [1}.

A disadvantage of the known hydropulsator is low reliability and insufficient efficiency.

The purpose of the invention is to increase reliability and efficiency.

This goal is achieved by the fact that in the shell is made a slot, and the impeller is provided with a guide

2

spiral plate adjacent ends respectively to one of the edges of the slot and to one of the blades, and this blade is elongated to the other edge of the slot, and dis kah ⁵ from the outer side of the plate provided with holes ..

FIG. 1 schematically shows a dynamic hydropulsator, a longitudinal section; in fig. 2 - the same view

¹⁰ in the plan.

The hydropulsator includes a housing 1 with suction and discharge nozzles 2 and 3 and an impeller 4 having blades 7 located between the disks 5 and 6 and a peripheral cylindrical shell 8 in which a slot 9 is made. The impeller 4 is provided with a guide spiral plate 10 adjacent to the ends to the edge 11 of the slot 9 and to the blade 7, the latter is made elongated 'to the other edge 12 of pro914827

9iθ in disks 5 and 6 holes 13 are made.

Hydropulsor works as follows.

By rotating the impeller 4 ₅

the fluid previously poured into the housing 1, as a result of interaction with the blades 7, also rotates, thus a centrifugal force arises, under the action of which the liquid presses against the inner surface of the spiral plate 10 and moves between it and the blades 7 gradually increasing. Speed and consequently ki

. The non-tonic energy of the fluid gradually decreases as it moves, thereby increasing the potential energy of pressure. Since the housing 1 is cylindrical and co-operating 20 forest 4 taken therein is, a minimum gap, then the liquid remains in the wheel 4 until until the slots 9, the sleeve 8 of the impeller 4 and the discharge pipe ²⁵ 3-

At this moment, the fluid is freely released under the action of centrifugal force into the discharge pipe 3 and in the latter an effective, pronounced impulse arises.30

The optimal number of blades 7 provides a smoother absorption of the liquid and thus, to some extent, avoids cavitation.

In order to avoid vibration, the working box 35 of forest 4 is balanced, for which the cavity of the impeller 4 between discourses 5 and 6 of the spiral plate 10 is filled through the holes 13 with liquid.

Such an embodiment of the dynamic hydro pulsator makes it possible to increase its efficiency by reducing the time of one working cycle.

The proposed dynamic hydropulsator can reliably work with contaminated liquids and suspensions, there are no wear-sensitive parts in it.

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Claims (1)

Claim Dynamic hydropulsator, comprising a housing with suction and discharge nozzles and a working wheel having blades located between the discs and a peripheral cylindrical shell, characterized in that, in order to improve reliability and efficiency, a slot is made in the shell, and the impeller is provided with a guide spiral plasma · Tina, adjacent ends, respectively, to one of the edges of the slot and to one of the blades, and this blade is made elongated to the other edge of the slot, and in the disks on the outside of the plate are made TIFA.