HU181597B - Ventillating rotor with horizontal axis - Google Patents

Description

BACKGROUND OF THE INVENTION The invention relates to a horizontal shaft aeration rotor having a driven shaft mounted on a support arm at both ends.

As is known in biological wastewater treatment, the biochemical oxidation of organic pollutants in wastewater requires a significant amount of oxygen and air to be introduced into the wastewater. For this purpose, several types of equipment have come into being, such as the so-called horizontal axis rotor, which has variously shaped but generally radial elements disposed on the shaft which create air intake while moving in the wastewater during rotation. These known rotors, although delivering the required amount of air or oxygen, do not meet the requirements of today's state-of-the-art equipment, since only the elements designed for oxygen delivery have very high resistance to liquid and thus rotate the rotor to large amounts of energy and electricity. need. As a result, all wastewater treatment technology can become very expensive.

A disadvantage of the known rotors is that the components, which are designed according to the aero-technical aspects, are complicated and thus labor-intensive and expensive to manufacture.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the aforementioned shortcomings of horizontal axis aeration rotors and to provide an aeration rotor capable of delivering a large amount of oxygen evenly distributed to waste water with a simple design and relatively low energy consumption.

The invention is based on the discovery that the above object can be fulfilled if the rotor is provided with a cylindrical casing with evenly distributed holes, holes, openings and thus the air of the rotor is distributed in smaller parts, but at the same time on its entire surface. with its even design, it also has less resistance when rotating in sewage.

Accordingly, the invention relates to a horizontal shaft aeration rotor having a driven shaft embedded in support arms at both ends. It is an object of the present invention to provide one or more portions of a cylindrical airtight roller with breakthroughs, interruptions, openings, fixed in the same way on the shaft.

Preferably, according to the invention, the aeration cylinder casing may generally be an expanded sheet or a perforated sheet of steel material. Both the expanded sheet and the perforated sheet are other industrial products, so that the rotor produced therefrom can be manufactured relatively simply and inexpensively.

Depending on the size of the rotor required and the material of the jacket available, the aeration cylinder may be formed in one or more portions, which means that the cylinder may be divided between two discs mounted on the shaft or, depending on the length of the drum, between several stiffening rings.

A further advantage of the rotor according to the invention is that it cleans itself of the floating impurities deposited in the wastewater, and since there are no mechanically easily damaged blades, any larger piece of debris entering the pool cannot destroy the rotor.

The expanded or perforated plate atomises water flowing in and out of the mantle at the points of continuity and spinning so that the bubble-like formations are

-1181597 lends a speed that effectively effluent aeration. The ability of the rotor to degrade and its fineness of dewatering is superior to conventional blade designs.

DETAILED DESCRIPTION OF THE INVENTION The invention will now be described in more detail with reference to the drawings, in which: Figure 1 is a view of an apparatus with an aeration rotor according to the invention positioned in an oxidation trench; Figure 2 is a further embodiment of an aeration rotor.

In the embodiment shown in Fig. 1, the rotor according to the invention is suspended by a bracket 3 on a bridge structure 2 bridging an oxidation trench 1. On the shaft 4, mounted on the support arms 3, end discs 5 perpendicular to the shaft are mounted.

The effective part of the rotor is formed by the cylindrical shell 7 which is stiffened by the rings 6. In the embodiment 15 of Fig. 1, the cylindrical shell 7 is formed by an expanded sheet. The width of the actual expanded sheet determines the number of rings 6 to be used for the rotor, since in the case of a smaller rotor length, when the size of the available expanded sheet is sufficiently large,

The drive of the rotor is provided by a drive unit 8 built on the bridge structure 2 by inserting an endless chain 9. As shown in the embodiments, the rotor is positioned so that a smaller portion thereof is submerged in the aeratable fluid. 25

The rotor of the present invention may also be formed from a cylindrical material of another material, such as a perforated plate.

Figure 2 shows a rotor made of perforated sheet. In other respects, however, this solution is the same as that shown in FIG.

The aeration rotor of the invention delivers the air to the waste water in a much finer distribution. Thus, small air bubbles provide a particularly large water-air interface, which results in a very efficient supply of oxygen.

The efficiency is about 10-14% better than the known solutions.

Rotor operation is more economical due to significantly lower electricity consumption. The energy saving is approx.

15-20%, which is very important for the operation of sewage plants due to the high hourly utilization of the rotors.

In the present invention, the rotor blades and other shaped rotors are completely smooth in operation, compared to in-use energy, resulting in smoother walking and more balanced operation. As a result, investment cost savings can also be achieved because mounting and bearing can be done with much cheaper and simpler means.

The construction of the rotor itself is also simpler, since its effective perimeter surface can be made of sheet metal 10, which is otherwise manufactured.

The device according to the invention is easy to install.

The expanded sheet may also have the advantage of providing a mechanical shredding effect to the larger sludge still present. The rotor can provide the required bottom speed for the flow.

The invention is also suitable for carrying out a complete oxidation process or for a activated sludge process providing partial purification.

The oxygen supply to the rotor can be controlled in a very simple way by the degree of immersion of the rotor, the height of the water level and the speed.

Claims (4)

Patent claims 1. A horizontal rotary aeration rotor having a drive shaft mounted on a support arm at both ends, 30, characterized in that it has one or more part aeration cylindrical aeration cylinders (7), which are formed in the same way on the whole surface of the shaft (4) and which are formed in the same way. Aeration rotor according to Claim 1, characterized in that the aeration cylinder casing (7) is formed by an expanded sheet. (Figure 1) An aeration rotor according to claim 1, characterized in that the aeration cylinder casing (7) is formed of a perforated sheet of steel or other metal or plastic. (Figure 2) 7 pages + 2 charts (Figure 2)