HU188312B - Mixing aerating device - Google Patents

Abstract

A water aeration apparatus is described having a mixing impeller connected to the drive motor via a vertical shaft without gearing. To improve the aeration efficiency, the ventilator coaxial to the mixing impeller is arranged above the drive motor, which ventilator is surrounded, as is also the drive motor, by a air transport pipe which conically tapers towards the mixing impeller. The shaft of the mixing impeller can be designed as a hollow shaft at least from the bottom to the part projecting above the liquid surface, which hollow shaft projects below the mixing impeller and is furnished with air inlet orifices in its part lying above the liquid surface.

Description

BACKGROUND OF THE INVENTION The present invention relates to a mixing aeration apparatus having a mixing screw connected to a drive motor via a vertical axis without transmission. Mixed aeration devices are used to replace dissolved oxygen in wastewater containing oxidizable organic or inorganic material and at the same time provide an appropriate flow rate in the liquid to prevent sedimentation. Organic matter in wastewater and contaminated surface water is decomposed by suitable bacteria in the presence of oxygen. The oxidation and decomposition process involves the consumption of oxygen, and therefore oxygen supply must be provided continuously. Oxygen is supplied to the purifiers by supplying air.

Of the various aeration units, under mixed conditions, mixed aeration units are used, which are intended to eliminate the faults of other types of aeration units.

One of these known types is the so-called horizontal-axis rotor aeration device, which, however, can only provide aeration in small-depth pools. The disadvantage of horizontal-axis rotary aeration equipment, however, is that the small depth of the pool requires a large area.

The long rotor axis of the rotor causes bearing and maintenance problems. It is difficult to control because it can be done by controlling the speed or by the amount of immersion.

The horizontal axis rotor introduces oxygen to the surface during operation, thus splashing on the surface, which causes icing at 30 winter operations. Foam formation is strong during operation, but it reduces oxygen uptake.

Horizontal axis rotors failures are eliminated by vertical axis aeration. However, they can only work effectively with relatively deeper air roof pools. A further disadvantage of the equipment is that it is difficult to achieve favorable optimum bottom speed and flow from deep to the surface. The water mass in the aeration pool is rotating, at about the same rotor speed as the rotor, resulting in a reduction in oxygen supply. The aforementioned rotation of the water mass of the aeration basin shall be controlled by a separate device.

Due to the constant volume of water raised by the agitator screw, the unit is subjected to dynamic suction, which increases the load on the bearing and suspension.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the listed drawbacks of known vertical-axis agitated aeration devices, i.e., to provide a device in which the dynamic stress of the device can be significantly reduced and oxygen delivery can be increased by relatively simple technical means.

Thus, the present invention relates to a mixed aeration apparatus having a mixing screw (55) coupled to a drive motor without gear.

It is an object of the invention to provide a fan coaxial with the agitator screw above the propulsion motor and a fan and air supply tube surrounding the propulsion motor having a tapered section 60 towards the agitator screw.

The air produced by the fan and sucked in by the mixing screw is thus fed into the suction trough on the upper side of the mixing screw through the air supply pipe. The mixing screw mixes the air with the liquid to be aerated 65 2. The mixing is carried out at high speed and at a pressure above atmospheric pressure, which results in a very favorable oxygen supply.

The oxygen intake efficacy can be enhanced by the mixing screw axis keverőcsav; iron extends downwards and extending over at least part of the liquid surface formed in an tube axis ^v and the axle tube above the liquid surface. In the north there are air inlets. In this case, the collision of the air at the two locations causes the air to disperse.

The device according to the invention provides a more favorable flow than the known solutions, providing a greater amount of air, i.e. oxygen, in the liquid to be purified. The fan and agitator screw on the same shaft are subject to considerably less stress on the suspension and bearing. The oxygen delivery efficiency of the device according to the invention is significantly improved.

The invention will now be described in more detail with reference to the following examples. Figure 1 is a schematic sectional view of an embodiment of the aeration apparatus of the present invention.

In the embodiment of Figure 1, the apparatus of the present invention is immersed in a fluid space 12 when suspended 11. The apparatus consists essentially of a drive motor 3 and a mixing screw 8 attached to the drive motor with a lower shaft. The shaft of the mixing screw 8, or a part thereof, is formed as a shaft 5. The drive motor 3 is connected to a fan 2 arranged above the same shaft. The drive motor 3 and the fan 2 are surrounded by an air supply tube 4 which continues downward in a conical section 7. The downwardly tapering lower end of the conical section 7 ends above the mixing screw 8, i.e. its suction space 9. The air supply pipe 4 is closed at the top with a protective grid 1. Aluminum of the shaft 5 has a tube end 10 extending beyond the mixing tube 8, while its upper portion extending above the liquid surface is provided with air inlets 6.

In the mixing and aeration device according to the invention, the fan 2 draws in air through the protective grille 1 and conveys it to the mixing screw 8 or its suction space 9, which mixes it into the liquid. At the same time, some of the air enters the pipe shaft 5 through the air inlet 6 and flows out at its lower pipe end 10. The air introduced at two different locations, i.e. the conical section 7, and the air exiting at the end of the tube 10 collide and cause the air to be dispersed.

In some cases, it may be desirable to provide a longitudinal dispersion hole or holes in the brain. The device according to the invention is suitable both for wastewater treatment structures and for aeration of living waters, for example, when suspended on a floating vehicle. The unit itself can be operated in a non-vertical position up to a maximum inclination of 30-40 °. As can be seen from the exemplary embodiment, the apparatus of the present invention is very simple in design and allows a large amount of oxygen to be injected at low energy input.

Claims (3)

A mixing aeration device having a mixing screw connected to a drive motor via a non-geared shaft in a vertical axis, characterized in that above the drive motor 2188 312 a fan (2) and a fan (2) are disposed unilaterally to the mixing screw (8), and an air conveying pipe (4) surrounding the drive motor (3) having a tapered section (7) tapering towards the mixing screw (8). Embodiment of the mixing aeration device according to claim 1, characterized in that the axis of the mixing screw (8) extends downwardly from the mixing screw (8) and is formed as a tube axis (5) at least up to the portion above the liquid surface and the tube axis (5). above, there are air inlets (6). Embodiment of the agitated aeration device according to claim 1, characterized in that the agitator screw (8) has air dispersing holes (13) in its hub.