UA65170C2 - An aerator - Google Patents

Abstract

The invention relates to the equipment for aeration and can be used for the saturation of liquid with gas, preferably oxygen during different chemical, mass-exchange processes, and also during biological purification of water or effluent waters. The aerator contains the drive with shaft, mechanism of air dissipation fixed on the drive which represents body having ring with channels disposed in the cavity thereof, the actuator in the form of impeller placed on the drive shaft, and also units for supplying water and air. The impeller is made in the form of tunnel guides fixed on the base with blades disposed on the free ends thereof, and placed outside the base zone, the ring bores are formed by orifices disposed under lower edges of said blades. Advantages of use of this invention consist in the simplification of structure and increase of aeration efficiency due to a novel embodiment of impeller.

Description

The invention relates to aeration equipment and can be used to saturate a liquid with gas, mainly oxygen, in various chemical, mass-exchange processes, including biological purification of water or wastewater.

A well-known aerator consisting of a drive, on the base plate of which an external pipe with an air intake pipe located perpendicular to the geometric axis of the said pipe is fixed by means of a flange connection. In its lower part, a reactive casing with exhaust holes is mounted. In the plane of the jet casing, at the end of the hollow shaft of the drive, placed in the outer tube of the aerator, a rotor with blades, central and radially located holes for air suction is fixed in it. (See USSR auto. certificate Mo1668318, 30236 of 1989).

The disadvantage of the known technical solution is the low uniformity of gas saturation of the working environment, which is explained by the design features of the aerator, especially its distribution bodies that ensure the process of supplying working environments.

The closest analog in terms of technical essence and the effect achieved is the aerator of the "Egipod5" system, which consists of an electric motor with a flange, with a bracket fixed on it in the form of a disk with threaded bushings. A working body is mounted on the shaft and base plate of the electric motor, which is a star-shaped wheel fixed on the said shaft, and a ring with channels that interacts with it and a stator-dissipator of the working medium is rigidly connected to the base plate./See "Journal of water supply and sanitary equipment" Me1 for 1999, author. M. Abona et al., p. 26-28, LLC "VST Publishing House" Moscow reg.Me01109.

The disadvantage of the well-known aerator chosen as a prototype is the complexity of the design and insufficient efficiency, which is caused by the constructive execution of the working body, which does not provide the required intensity of aeration.

The task of the proposed technical solution is to simplify the design of the aerator and increase the intensity of aeration of the working medium.

The task is achieved by the fact that in the aerator, which contains a drive with a shaft, a mechanism for dispersing the water-air environment is fixed on the drive, which is a housing with a ring with channels placed in its cavity, a working body in the form of an impeller, as well as supply nodes, are mounted on the drive shaft water and air, the impeller is made in the form of tunnel guides fixed on the base with vanes placed on their free ends, located outside the base zone, and the ring channels are formed by holes lying under the lower edges of the mentioned vanes. The combination of known and unknown features contained in the scope of claims of the invention allows to obtain a previously unknown positive result, which consists in simplifying the design and efficiency, due to the constructive implementation of the impeller.

In fig. 1 shows the general view of the aerator and Fig. 2 - its cross section and Fig. 3 - the impeller top view.

The aerator consists of a drive 1 with a shaft 2 of power take-off. In the lower part of the drive 1, in this case of the electric motor, there is a flange 3, on which the dispersion mechanism 4 of the water-air environment with windows 5 and the pipeline b for air intake and the resistance rack 7 is fixed. The dispersion mechanism 4 consists of an upper plate 8 fixed to the mentioned flange with connected by bolts 9 to the bottom plate 10, which form a body with a cavity and windows 5 for the release of the water-air environment. In this cavity there is a working body made in the form of a ring 12 with through holes 13 formed in it and an impeller 14 mounted on the shaft 2 of the drive 1, which represents the tunnel guides 16 placed on the base 15 with vanes 17 at their free ends interacting with the external the surface of the ring 12 in the working position and the entrance sections 18 of the tunnel channels 19 formed, respectively, by the plates 8 and 10. For the inflow of water into the cavity 11, the lower plate 10 is equipped with through slots 20.

The aerator works as follows:

When the actuator 1 is turned on, the shaft 2, which drives the impeller 14, begins to rotate. Through the pipeline b and the through slots 30 of the lower plate 10, air and water are sucked into the impeller 14 in parallel with it.

With the help of tunnel guides 16 with vanes 17 and impeller 14, the atmospheric air is in contact with water, while the parallel supply of these media ensures increased crushing of air, and therefore intensive mixing with water, thereby enhancing the cavitation mode.

In the event of coincidence in the process of rotation of the tubular guides 16 with vanes 17 with the entrance sections 18 of the tunnel channels 19, the water-air mixture is released into the reservoir through the windows 5.

Currently, the design is developed in the volume of working drawings. A serial batch of aerators was produced.

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Claims (1)

An aerator containing a drive with a shaft, an air dispersion mechanism fixed on the drive, which is a housing with a ring with channels placed in its cavity, a working body in the form of an impeller mounted on the drive shaft, as well as water and air supply nodes, which is distinguished by , that the impeller is made in the form of tunnel guides fixed on the base with vanes placed on their free ends, located outside the base zone, and the ring channels are formed by holes located under the lower edges of the mentioned vanes.