RU2056369C1 - Aerator working member - Google Patents

Abstract

FIELD: aerators. SUBSTANCE: device has the main and auxiliary internal rotors, main and auxiliary external rotors, as well as the internal and external coaxial hollow shafts of the aerator with a space between them, drive of opposite rotation of the hollow shafts and device for air supply. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to elements of devices for dissolving atmospheric oxygen in water, i.e. to aerators having internal and external coaxial hollow shafts with a cavity between them, an opposite rotation drive of the hollow shafts and an air supply device.

 Known working body of the aerator, containing an internal rotor made of lower and upper disks with blades between them and connected to a hollow shaft, an external rotor made of lower and upper rings with blades between them [1] Its disadvantage is relatively low productivity, since rotation the outer rotor is passive (only from the influence of the fluid flow, not the drive) and is directed in the same direction as the rotation of the inner rotor, which creates weak hydrodynamic vibrations, insignificant fragmentation of air bubbles ha and a small cavitation affecting performance.

 Also known is the working body of the aerator, which is the closest in technical essence, containing an internal rotor made of lower and upper disks with blades between them, worn through the central hole in the upper disk on the lower end of the internal hollow shaft and connected to it, the outer rotor located coaxial to the internal rotor with a clearance and mechanically connected to the external hollow shaft [2] Its disadvantage is relatively low productivity.

 The technical task of the invention is to increase productivity.

 It is achieved by the fact that the working body of the aerator, containing the main internal rotor made of lower and upper disks with blades between them, is worn through the central hole in the upper disk on the lower end of the internal hollow shaft of the aerator and connected to it, the main external rotor located coaxially the main internal rotor with a gap and mechanically connected with the outer hollow shaft of the aerator, is equipped with an additional internal rotor located above and near the main internal rotor coaxially with it and made from the lower and upper disks with blades between them, worn through the central holes in the disks, the lower of which is equipped with an oil seal, on the external hollow shaft and connected by the upper disk to the lower end of the external hollow shaft of the aerator, an additional external rotor located coaxially to the additional internal rotor with the gap and made of lower and upper rings with blades between them and connected by struts to the main inner rotor, and the main outer rotor is made of lower and upper rings with blades between them and is connected through racks with an additional internal rotor.

 This embodiment of the working body of the aerator increases its productivity. All the distinguishing features, especially the additional rotors fed by air through the additional channel, the cavity between the hollow shafts, affect the achievement of the goal.

 Figure 1 schematically shows the proposed working body of the aerator, side view; figure 2 section aa in figure 1.

 The working body of the aerator contains an inner 1 and an outer 2 coaxial hollow shafts of the aerator with a cavity 3 between them, the main inner rotor 4, made of lower 5 and upper 6 disks with blades 7 between them, worn through the central hole in the upper disk 6 on the lower end of the inner of the hollow shaft 1 and connected to it, the main outer rotor 8, located coaxially with the inner rotor 4 with a gap and made of the lower 9 and upper 10 rings with blades 11 between them, an additional internal rotor 12 located above and near of the inner rotor 4 coaxially with it and made of the lower 13 and upper 14 disks with blades 15 between them, and also worn through the central holes in the disks 13 and 14, the lower of which is equipped with an oil seal 16, on the internal hollow shaft 1 and connected by the upper disk 14 with the lower end of the outer hollow shaft 2, an additional outer rotor 17 located coaxially additional to the inner rotor 12 with a gap, made of the lower 18 and upper 19 rings with blades 20 between them and connected by racks 21 to the main inner rotor 4, and ovnoy outer rotor 8 by means of struts 22 connected with a further inner rotor 12.

 The arrows indicate the direction of rotation of the additional inner rotor 12 and the additional outer rotor 17 (respectively, the inner and outer arrows).

 The working body of the aerator works as follows.

 When the inner hollow shaft 1 is rotated clockwise, the main inner rotor 4 and the additional outer rotor 17 rotate in the same direction, while the outer hollow shaft 2 with the additional inner rotor 12 and the main outer rotor 8 rotate counterclockwise. Through the hollow shaft 1, air enters the main inner rotor 4, and through the cavity 3 between the hollow shafts 1 and 2, air enters the additional inner rotor 12. The blades 7 and 15 of the rotors 4 and 12 give the air additional energy, and with the help of centrifugal forces, the air flows rush towards the outer rotors 8 and 17. The blades 7 and 15 of the inner rotors 4 and 12 also throw water on the blades 11 and 20 of the outer rotors 8 and 17, creating hydrodynamic vibrations and crushing of air bubbles and increasing cavitation. The outer rotors 8 and 17 with the open parts of the blades 11 and 20 create fluid mixing. Due to the additional rotors 12 and 17, the productivity of the working body of the aerator is approximately doubled.

Claims (1)

 AERATOR WORKING BODY, comprising a main internal rotor made of lower and upper disks with blades between them, worn through the central hole in the upper disk on the lower end of the internal hollow shaft of the aerator and connected to it, the main external rotor located coaxially with the main internal rotor with a gap and mechanically connected with the outer hollow shaft of the aerator, characterized in that it is provided with an additional inner rotor located above and near the main inner rotor coaxially with it and made from the lower and upper disks with blades between them, worn through the central holes in the disks, the lower of which is equipped with an oil seal, on the external hollow shaft and the upper disk connected to the lower end of the external hollow shaft of the aerator, an additional external rotor located coaxially to the additional internal rotor with the gap and made of lower and upper rings with blades between them and connected by struts to the main inner rotor, and the main outer rotor is made of lower and upper rings blades between them and connected via racks with additional internal rotor.

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