DE920179C - Wastewater distributors in treatment plants - Google Patents

Description

It is well known that sewage treatment plants are designed as long or round basins. The wastewater distribution takes place with long tanks on the narrow side from an antechamber, while with round tanks this There is an antechamber in a so-called distributor tower. The inflow into the sedimentation basin from these Antechamber takes place through inlet pipes. In the known systems of this type, the sedimentation tank only incompletely used because the flow through the pool cross-section is very uneven is. The object of the present invention is now to provide such an embodiment of the distribution system ensure that the sedimentation basin is evenly traversed in terms of width and depth.

The general idea of the solution to the problem identified above is now to round around the inlet pipe the most uniform water flow possible according to the width and depth of the Basin to generate, which is achieved in that the inlet pipes in the settling operation in about ao half the basin depth are arranged with impact bodies on the pelvic side. The inlet pipes expediently have the same distance from one another. Likewise is the distance between inlet pipes and their associated impact bodies for all one as running tubes the same. It essentially corresponds to half the depth of the pelvis.

When using the above inventive concept in distribution towers with a central inlet channel in According to the invention, a round basin is also a circulating funnel below the inlet pipes in the distributor shaft provided with bottom slot. With such a design it is achieved that the upper end of the manhole, the wastewater entering it is greatly reduced in its flow velocity what is still possible through a conical

Widening the outlet of the inlet channel favors will. This allows the easily settling pollutants to be removed without the interposition of the settling basin be deposited directly into the sludge chamber of the distribution tower without the latter is substantially traversed by the wastewater. The floating matter, on the other hand, is on the surface of the water level remain in the manhole and can be easily cleared away here. at ίο this arrangement is also achieved that at changing inflow of sewage always a uniform water level gradient from the center of the Distribution tower, so from the inlet, adjusts to each of the individual inlet pipes. So it will be in from a hydraulic point of view, each individual inlet pipe is evenly loaded.

When using inlet pipes with T-shaped

According to the outflow, the tubes are arranged so that

their outflow opening opposite each other and the baffle between each two adjacent tubes lie.

Two exemplary embodiments of the invention are shown in the drawing.

Fig. I and II show a version for long pools, namely Fig. I is a cross-section through the basin inlet, Fig. II a plan view;

Fig. III is a cross-section through a distribution tower for circular pools;

Fig. IV is a plan view.

In Fig. I and II, 1 is the pelvic wall on the Inlet side, 2 are inlet or distributor pipes, 3 are baffles, here concave shape, which are in front the outlet of the inlet tubes are arranged, namely here they are for example with chopsticks 4, 5 attached directly to the tubes. The inlet pipes are about half the depth of the basin or at half the water level. 6 is the water level. The impact body can also be used as sheet metal be formed. The distance between the tubes 4Q is made evenly, as well the distance between the impact body and the pipe outlet. The latter is essentially based on its size determined by half the basin depth. It must be chosen so that, for example, with a circular Cross-section of the inlet tubes around each pipe a concentric cylindrical water flow arises.

In Fig. III and IV, 7 is the wall of the distribution tower of circular cross-section. 8 is the inlet channel with its conically widened Ends 9. 10 is the water level in pool 11 and in the distribution tower. 12 are the inlet pipes, which in this embodiment are also according to the invention are arranged approximately halfway down the basin. In Fig. IV is partially an embodiment with Inlet tubes 12 are shown with a T-shaped outlet. Of course, either tubes come with used only straight or with only T-shaped spout. 13 are center lines of the baffles that in this embodiment lie between the outflow openings of adjacent inlet pipes. 14 is a circulating funnel, which is arranged under the inlet tubes 12 according to the present invention is, through the bottom slot 15, the easily removable Contaminants can sink into the sludge chamber 16 of the distributor tower. 17 is the annular one Opening between basin 11 and sludge space 16, through which the sludge from the Basin is pushed into the mud room.

Claims (4)

PATENT CLAIMS: 1. Wastewater distributor in sewage treatment plants, characterized in that the inlet pipes (2, 12) in the sedimentation basin (11) in about half the basin depth are arranged with impact bodies (3, 13) upstream on the pelvic side. 2. Distribution tower with a central inlet channel according to claim 1, characterized in that Below the inlet pipes (12) in the distributor shaft a circulation funnel (14) with a bottom slot (15) is arranged. 3. Distribution tower according to claim 2, characterized in that the inlet channel (8) on its outlet (9) is widened conically. 4. Distributor according to claim 1 with T-shaped, oppositely directed outlets on the pelvic side, characterized in that the impact body (13) between the outlet openings of each two adjacent inlet tubes (12) are arranged. Referred publications:
German patent specification No. 281 129. 1 sheet of drawings O 509 513 5.55