RU2023676C1 - Rotary aerator - Google Patents

Abstract

FIELD: mechanical engineering; apparatuses for dissolving air oxygen in water. SUBSTANCE: rotary aerator incorporates casing which houses hollow shaft held in bearings. Lower end of hollow shaft is connected to aerator rotor and its upper end is connected to air blower provided with working compressor blades mechanically connected to hollow shaft and birotatory electric motor having stator and rotor, providing drive to shaft and positioned above hollow shaft and coaxially with latter. Air blower is inward-flow compressor including inner and outer working wheels made revolvable in opposite directions. Inner working wheel is composed of two coaxial and spaced discs having concentrical rows of cantilevered blades facing one another. Discs are rigidly interconnected by means of first inner row of blades common to both discs of which one is connected to electric motor shaft and the other having central opening is connected to upper end of hollow shaft. Outer working wheel is shaped as intermediate disc sandwiched in between discs of inner working wheel and having on its both sides concentric rows of cantilevered blades positioned between rows of blades of inner working wheel, intermediate disc being linked to electric motor stator by virtue of first outer row of its baldes. EFFECT: more sophisticated design. 1 dwg

Description

 The invention relates to devices for dissolving atmospheric oxygen in water.

 Known rotary aerator containing a hollow shaft mounted in an electric motor housing on bearings, the lower end of which is connected to the aerator rotor, and the upper end has an outlet of the shaft cavity through the end to the outside for atmospheric air inlet [1]. Its disadvantage is the low pressure of the air supplied to the rotor of the aerator, which limits the depth of aeration.

 A rotary aerator is also known, comprising an aerator housing and a hollow shaft mounted on bearings, the lower end of which is connected to the aerator rotor, and the upper end is connected to a blower device having compressor blades mechanically connected with the hollow shaft, a drive motor with a stator and a rotor with a shaft [2].

 Its disadvantage is the small depth of aeration due to the insufficient pressure of the air supplied to the rotor of the aerator.

 The purpose of the invention is to increase the depth of aeration by increasing the pressure of the air flow supplied to the aerator rotor.

 The drawing schematically depicts the proposed rotary aerator.

 The rotary aerator comprises an aerator housing 1 and a hollow shaft 3 mounted on bearings 2, the lower end of which is connected to the aerator rotor 4, and the upper end to a blower device 5, a drive motor 6 with a stator 7 and a rotor 8 with a shaft 9. The electric motor 6 is made biotative and located above the hollow shaft 3 coaxially with it, and the blower 5 is made in the form of a centripetal compressor, including an internal impeller 10 and an external impeller 11 of the opposite rotation. The inner impeller 10 is made of two spaced apart coaxial disks 12 and 13 with concentric rows of cantilever blades 14 on the sides facing each other. The disks 12 and 13 are rigidly interconnected by means of the first inner row of blades 15 common to both disks 12 and 13, the disk 12 is connected to the shaft 9 of the electric motor 6, and the disk 13 having a central hole is connected to the upper end of the hollow shaft 3. The external working the wheel 11 is made in the form of an intermediate disk 16 located between the disks 12 and 13 of the inner impeller 10 and having concentric rows of cantilever vanes 17 located between the rows of vanes of the inner impeller 10 on both sides, while of a number of its blades, the disk 16 is connected to the stator 7 of the electric motor 6. At the inlet of the blower device 5, a guide apparatus with blades 18 connected to the aerator body 1 can be installed. The arrows indicate the direction of the air flow in the aerator during its operation.

 The rotary aerator operates as follows.

 When the motor 6 is operating, its rotor 8 and shaft 9, the internal impeller 10 with disks 12, 13 and blades 14 and 15, the hollow shaft 3 and the rotor 4 of the aerator rotate in one direction, and the stator 7, the external impeller 11 with the disk 16 and the blades 17 rotate in the opposite direction. In this case, the blades 17, 14 and 15 of the centripetal compressor capture atmospheric air at the periphery, move it to the axis, sequentially compressing it, and pump it into the hollow shaft 3, through which it enters the aerator rotor 4, and under a pressure higher than that of the prototype, which and allows you to increase the depth of aeration.

 The use of the invention increases the depth of aeration.

Claims (1)

 A rotary aerator comprising an aerator housing and a hollow shaft mounted on bearings on the bearings, the lower end of which is connected to the aerator rotor, and the upper end is connected to a blower device having compressor blades mechanically connected to the hollow shaft, a drive motor with a stator and a rotor with a shaft, characterized the fact that, in order to increase the depth of aeration by increasing the pressure of the air flow, the electric motor is made biotative and located above the hollow shaft coaxially with it, and the blower device is made in e of a centripetal compressor, including the inner and outer impellers of the opposite rotation, and the inner impeller is made of two coaxial and spaced apart disks with concentric rows of cantilever vanes on the sides facing one another, the disks are rigidly interconnected by the first inner row of vanes, common to both disks, of which one is connected to the motor shaft, and the second, having a Central hole, with the upper end of the hollow shaft, the external working forest formed in an intermediate disc disposed between the inner discs of the impeller and having on both sides of the concentric rows of cantilevered vanes disposed between inner rows of impeller vanes, wherein the first through the outer row of blades their intermediate disc is connected to the stator of the motor.

Images