NO132144B - - Google Patents

Abstract

Sewage treatment plants or similar.

Description

The invention relates to a treatment plant for sewage or similar of the kind that consists of a tank, cistern etc. containers and includes supply and drain connections, partitions and sedimentation chambers as well as access manholes, which tank is made up of a truncated cone-shaped container arranged in a horizontal position so that a line along its uppermost wall section runs largely horizontally, whereby its opposite or lowermost wall section runs under a significant angle with the horizontal plane and that the interior of the tank is divided into at least two chambers by dividing walls running largely across its longitudinal axis.

: A number of different such treatment plants are known from the past, where sewage or similarly polluted waste water is cleaned by passing one or more chambers in a tank or cistern system, which chambers are arranged in such a way with regard to inflow and outflow that it causes precipitation of the solid substances etc.

which follows the waste water.

Such facilities have previously consisted of a buried, stopped tank or cistern which is either divided into separate compartments or is interconnected with one or more additional such tanks.

The invention aims to provide such a treatment plant which, firstly, can be built up using simple, solid and relatively cheap construction elements, and secondly, provides a very favorable cleaning effect while the removal of sludge and solid components can take place in a simplified manner.

According to the invention, it is therefore proposed that said partitions do not extend all the way down to the bottom of the tank, i.e. the bottom wall part of the truncated cone, so that open passages are formed here for the sliding down of precipitated sludge, etc., as the tank is arranged in such a way that the supply of raw sewage occurs to the deepest chamber and the discharge of purified water occurs from the shallowest chamber, that an access hatch is arranged at the top of the deepest chamber, and that there are rudder connections arranged at the top of the tank, which are known in and of themselves, between said chambers.

Further features and advantages of the invention will become more apparent from the following description of an exemplary embodiment shown in the drawing.

The plant according to the invention as shown in the drawing is based on a tank 1 preferably made of reinforced plastic. This is given a truncated cone shape and is placed buried in the ground as shown in the drawing with the upper side lying mostly horizontally. The opposite or lower side 1' of the tank will then proceed with a significant slope in relation to the horizontal plane. The surcharge for sewage etc. takes place through the rudder 2, which is arranged at the wide end of the tank. The drain 3 is arranged at the narrow end of the tank. The volume of the tank is divided into three chambers I, II and III. The division takes place at partitions 4 and 5, which, however, do not go all the way down to the bottom of the tank, but are terminated a little above this, so that passages 14 and 15 are obtained between chambers I, II and III.

At the top of the tank, rudder connections 8 and 9 are arranged which connect chambers I, II and III to each other. In the example shown, these connecting pipes are designed as divers 8, 9, whose end parts 8', 8" are arranged as pipe pieces which are open at the upper ends while the lower ends protrude into the liquid in the tank. The inlet pipe 8' is shorter than the outlet pipe 8". This therefore protrudes somewhat deeper into the liquid in the tank. The same applies to the inlet pipe 7 and the outlet pipe 3 opening in the tank.

A manhole hatch 6 is arranged in the tank wall above the first chamber I.

The operation of the described treatment plant is as follows:

Sewage or other contaminated liquid is fed in through the rudder 2

and is fed to chamber I through the rudder branch 7. In this chamber, the coarser contaminants will then fall out and collect on the bottom as indicated at 10. At the same time, grease contained in the sewer will float up and collect on the surface as indicated at 13.

The water then passes through the rudder connection 8 into chamber II. In this, means are arranged for chemical cleaning of the water at i and

known means, which is why these are not indicated in the drawing. In this chamber II, precipitation 11 is obtained which is due to the chemical additions to the sewage water. This then passes through the rudder connection 9 to the third and last chamber III, where fine sludge 12 is caused to precipitate. The purified water then leaves through the rudder 3.

Sludge that accumulates in the three chambers will gradually seep down from chambers III and II to chamber 1 due to the slope of the bottom 1'

I. As mentioned, this chamber I is equipped with a manhole hatch 6.

By opening this, the sludge from all chambers will thus be able to be removed, since, as mentioned, this will essentially accumulate in chamber I. In this, fat has also collected on the surface as indicated at 13. As well as accumulation of fat on top of the liquid in chamber I as sludge 10 from its bottom will thus be able to be removed through the manhole hatch 6.

Claims (3)

1. Treatment plant for sewage or the like that consists of a tank, cistern etc. containers and includes supply and drainage connections, partitions and sedimentation chambers as well as access manholes, which tank is made up of a truncated cone-shaped container arranged in a horizontal position so that a line along its upper wall part runs largely horizontally, whereby its opposite or lower wall part runs at a significant angle to the horizontal plane and that the interior of the tank is divided into at least two chambers by dividing walls running mostly across its longitudinal axis, characterized by the fact that these dividing walls do not extend all the way down to the bottom of the tank (1) (l<1>), i.e. the lowermost wall part of the truncated cone, so that open passages (14, 15) are formed here for the sliding down of precipitated sludge etc., as the tank is arranged in such a way that the supply of raw sewage takes place in the deepest chamber (I) and the drainage of purified water takes place from the shallowest chamber (XII ), that the access hatch (6) is arranged at the top of the deepest chamber (I), and that it is arranged at the top of the tank as per se known rudder connections (8,9) between said chambers (I, II, III). 2. Treatment plant as specified in claim 1, characterized in that said rudder connections (8, 9) are designed as divers with a shorter inlet rudder (8<1>) and a longer or deeper outlet rudder (8"). 3. Purification plant as specified in some of the preceding claims, characterized in that three chambers (I, II, III) are arranged and that in the middle chamber (II) means are arranged for the addition of chemical precipitation known in and of itself.