AT4068U1 - SUCTION VENTILATOR FOR WASTEWATER CLEANING - Google Patents

Abstract

The invention of a fine-bubble suction ventilation for wastewater treatment without storage in the wastewater also brings about an unchecked flow in the wastewater. In the negative pressure area of the rotating wing, the air is sucked in and divided into fine bubbles. Due to the axial inflow of air into the rotated hollow shaft, the air intake is optimal and the necessary turbulence is given with low energy consumption, thus saving energy in wastewater treatment. The long spiral path of the air bubble in the clarifier ensures optimal use of oxygen and thus optimal wastewater treatment. Thanks to this design, the suction fan is reliable and easy to maintain and does not need to be emptied in the sewage treatment plant in the event of malfunctions, since the aerator with the hollow shaft that only protrudes into the waste water can be easily removed in dry conditions and quickly replaced with a new fan.

Description

AT 004 068 Ul

Description of the subject matter of the invention:

The suction aerator shown in Fig. 1 has a hollow shaft (1). This hollow shaft is driven by a drive motor (6) with a V-belt pulley on the motor (9) and on the Hnhlwrllrf * >) xrdiι. · 1ιί - via a V-belt ( 18) rotated.

Rotated blades (2) are welded onto the hollow shaft (l) closed in the water area with a plug (4), behind which there are suction holes (3) in the hollow shaft (l).

The air is sucked in a funnel shape into the hollow shaft (1) at the air end without resistance.

The cantilevered hollow shaft (l) is rotated clamped over two double pendulum bearings, an upper bearing (11) and a lower ^ bearing (7). Both camps are above the maximum water level (16). Both the bearings (7 and 11) and the drive motor are mounted on the stable bearing plate (10). The motor can be adjusted professionally for the V-belt drive using adjusting screws (15). The bearing plate (10) is elastically connected to the anchor plate (14) via two upper rubber buffers (8) and two lower rubber buffers (12). The anchor plate (14) is fixed to the shaft (13) with anchor bolts. A protective plate (17) in front of the rotating hollow shaft (l) ensures safety according to the employee protection ordinance and protects a protective plate (19) housing the V-belt drive from the V-belt drive (18). 2 AT 004 068 Ul a. ) Technical field to which the invention relates:

The invention relates to the technical field of cleaning domestic, commercial and municipal wastewater. The invention relates to the technical field of so-called aeration devices for aeration systems in wastewater treatment. The ventilation relates to a so-called fine-bubble aeration device, where as little air as possible is supplied with as much air as possible in a fine-bubble manner to the waste water-cleaning microorganisms for breathing and life.

The invention relates in particular to a ventilation device which is reliable and guarantees undisturbed operation of sewage treatment plants. b. ) Previous state of the art to differentiate the invention:

As the current state of ventilation technology for wastewater treatment, maintenance-intensive compressors are used for so-called compressed air generation. The air is pressed into the aeration basin via grid-like, permanently installed pipelines. At the ends of the so-called ventilation lances there are rubber membranes that are subject to wear and tear for fine-bubble aeration This completely destroys the entire microbiology. The new start-up of the activation system again takes months before a sufficient number of microorganisms for cleaning according to the state of the art is formed again.

So-called cavitation stirrers were used in agricultural manure management, but these have not proven themselves due to their constructive design and ineffectiveness in demanding wastewater aeration. In these so-called manure aerators, a hollow shaft with air inlet and outlet openings is rotated in a guide tube with an elevation on the pool floor .The technical unsolved problem is the guide bearing close to the ground between the hollow shaft and the cladding tube, since the wastewater constituents such as sand etc. make the bearing close to the ground inoperable in a short time and damage caused by bearing damage to the slurry blower. The fluidic problem is the basket-like elevation, which has such a negative impact on the flow that the wastewater with the activated sludge content does not provide the necessary mixing of the activated sludge tank and thus rot processes occur and cleaning is not achieved not enforced and are not known in the relevant wastewater literature. c. ) Technical problem, which is solved with the invention:

With the invention, the technical for fine-bubble wastewater aeration with high fluidic mixing and low energy consumption is solved by minimal flow losses.

The new design aerator no longer has a bearing in the wastewater area and thus creates an unimpeded mixing of the basin through the 4 symmetrical blades at the lower end of the hollow shaft.

These hills are twisted in such a way that they press the water to the pool floor like a propeller and, due to the spiral flow created by them, the fine air bubbles have a long flow path to the surface and thus the use of oxygen with the same energy is around 3 times as large as with a conventional one Pressure ventilation with fault-prone rubber membranes. Due to the novel lateral drive of the hollow shaft and not as previously with a coupling on the tube between the hollow tube and the drive motor, the air is sucked in almost without loss, like in a funnel. double the amount of air is sucked in with the same amount of energy. d. ) Invention as characterized in the claims:

The invention is characterized by an optimal introduction of air with a turbulent mixing and with a hollow shaft projecting because of the practical applicability in wastewater technology.

The invention is illustrated and explained in more detail below with reference to a drawing.

The drawing Fig. 1 shows the suction aerator. 3rd

Claims (2)

AT 004 068 Ul Claims 1.Suction aerator for wastewater aeration of domestic, commercial and municipal wastewater as a hollow shaft (l) rotated with a motor (6), characterized in that the bearings (7, 11) of the hollow shaft (1) only in the air-side area of the suction fan are arranged and the air flows into the hollow shaft (l) at the air-side end of the hollow shaft (1) in the axial direction and to the hollow shaft (1) in the water-side area wings (2) are mounted, behind which water-side suction holes ( 3) for air intake via the air-side end of the hollow shaft (l). 2. Suction aerator according to claim 1, characterized in that the stable bearing plate (10) with the upper rubber buffers (8) and the lower rubber buffers (12) is elastically connected to the anchor plate (14) fixedly mounted on the shaft (13) of the waste water basin. 4