NO891199L - Septic tank. - Google Patents

Abstract

The invention comprises a sludge separator with partitions (b) inserted in "tips" (triangles) towards the center of the manhole (a). and allows for both emptying and flushing of all chambers just below the manhole, all chambers are readily available for inspection and all chambers are equally deep.

Description

Patent application no. 891199 - description. j^a.iiAiiaoao;\\y?^

! I i The purpose of the present invention is to provide an appropriate sludge separator - preferably for waste water from homes - but also for other bags.

According to "Regulations on discharges from separate sewage plants" section 4.2 .b. the sludge separator must be designed so that the water has the longest possible path through the chamber - - etc.

NS 3162. point 4.3. certainly have the same requirements, section 4.2. describes that the water depth must be at least 1.0 m, section 4.6. has a requirement that the chambers can be easily emptied and checked via manholes. Visual inspection of inlet pipes and outlet pipes must be possible from ground level.

Fig. 1 in NS 3162 shows a section and plan of a sludge separator which is in principle similar to Fig. 3 in the drawing of the patent application.

Generally, sludge separators have been designed as Fig. 3, which shows a sludge separator seen from above and with stippled partition walls (Jamf.

Fig. 1. in NS 3162). If this is the case, sludge separators are both very difficult to empty and inspect. Blue. flexible drain hoses must be used to reach the smallest chambers, and inspection of these can hardly be done from the manhole - and certainly not from ground level. The chambers also easily become "pockets" on the side of the sludge separator. If the inlet pipe and outlet pipe can be staked from the manhole, the water will not be able to get a long way into the chambers. In addition, the dividing wall towards the smallest chambers will have one-sided pressure from the largest chamber and could easily collapse if the smallest chambers are emptied first.

The present invention has none of the above-mentioned weaknesses and fully complies with both the regulations and NS 3162 section 4.

With reference to the drawing, we will now describe the invention: Fig. 1 . basically shows the sludge separator seen from the side where the partitions b are dashed. Fig. 2 and Fig. 4 are, in principle, the sludge separator seen from above - of which Fig.2. is in average and Fig.4. top view with partitions dashed in.

In the drawing, the sludge separator is drawn respectively circular and square, but it can be elliptical, rectangular, polygonal or any suitable shape.

The requirement for a 3-chamber sludge separator is usually that the 1st chamber should be 3/4 of the volume and 2 - and 3 chambers should be 1/8 part each - together 1/4 part.

In the present invention, the partitions b are led in "tips"

(triangles) towards the center of the manhole a. With such a construction, the inlet and outlet d (in Fig.2.) can also be placed next to the manhole and easily enable both staking and inspection. Placing the partitions as shown by the invention enables both emptying and flushing of all the chambers directly below the manhole, all the chambers are easily accessible for inspection and all the chambers are the same depth. With such a construction, there is also no one-sided pressure against the partition walls from the largest chamber and the partition walls form "triangular constructions" which are the most statically correct.

By placing the partitions b at "points" towards the center of the manhole, the inlet £ can be placed obliquely towards the partition wall, which means that the water flow (marked with arrows) is directed towards the partition wall so that it will travel along the outer edge of the sludge separator and thereby have a very long path through the chamber.

In that the transfer £ from 1 to 2 chambers is an approx. 90° bend, the water flow here will also have a long journey through this chamber to 3 chambers and the outlet d.