LT4504B - Cesspool - Google Patents

Abstract

This invention is intended for protecting water reservoirs against pollution by oil product contaminated rainwater waste, namely regarding equipment for treating wastewater and against flushing into rainwater sewerage and water reservoirs. The invention describes an oil product contaminated rainwater waste septic allocation chamber with a submersible T-bend installed in it. One end of the T-bend is hermetically fitted into a septic collector, the tube part is fixed vertically and its lower end with an opening for inlet is fitted out below a discharge collector. The T-bend discharge collector opening is above the discharge collector into the intake reservoir. The proposed septic allocation chamber prevents any accidental oil product access into sewerage and further into an open water reservoir.

Description

The present invention relates to the protection of water bodies against pollution by storm water discharges containing oil products, namely, for the treatment and discharge of water wastewater into storm sewers and water bodies. The invention can be applied in the oil refining, mechanical engineering industries, as well as in auto repair shops, gas stations, garage cooperatives and so on.

There are well-known oil waste water treatment plants consisting of a contacting transfer-distribution well, a receiving tank with a suspended particle settler, a filter chamber, a purified water tank, a sewage or water collector (VPI "Lietkelprojektas" oil catcher 1240-172 ).

Also known is a stormwater drainage well described in SU patent no. 1663135.

The drawback of known purification facilities is the design of the transfer-distribution well. A known transfer-distribution well consists of a chamber, a feed, a discharge tank and a transfer manifold. The outlet and overflow manifolds are separated by a baffle, the top of which is slightly above the outlet manifold. The transfer-distribution well is characterized by the fact that it maintains a constant flow of water to the receiving receiving tank and further to the filter filtration chamber; drainage.

The present invention provides a simpler and more reliable transfer-distribution manhole having a submersible overflow tee in place of a transfer septum. One end of the tee is sealed into the overflow manifold and the tubular portion is mounted vertically and its lower end with the inlet is lowered below the outlet manifold, i.e. the lower part of the tee with the inlet is always in the water. However, the outlet for the three-way outlet to the transfer collector is located above the outlet to the receiving reservoir collector. In this way, even if the water flow in the transfer-distribution well to the transfer-distribution well increases dramatically, for example, when the water level in the chamber and, at the same time, in the vertical pipe section rises to the outlet of the tee, the oil contaminants always remain on the surface. , the water separates from the surface oil products via the transfer collector.

The invention will now be described in more detail with reference to the accompanying drawings, in which:

Fig. 1 is a schematic top view of the cleaning equipment;

Figure 2 is a sectional view of the transfer-distribution well through line B-B of Figure 1.

As can be seen in Fig. 1, the treatment facilities for water effluent contaminated by petroleum products comprise a transfer-distribution well 1, a receiving tank with a suspended material settler 2, a filter chamber 3, a purified water tank 4 and a drainage manifold 5.

The wastewater treatment plant operates as follows: the water 6 from the transfer-distribution well 1 into the receiving tank 7 through the feed manifold 7 is discharged into the receiving tank with suspended material settler 2. In this tank, the large insoluble particles in the water fall out as sediment. Fig. 2 enters window 9 into filter chamber 3.

Figure 2 is a sectional view of the improved design of the transfer-distribution well 1 through line B-B of Figure 1. The transfer-distribution well consisting of a housing 6, a water supply manifold 7, a water outlet to the receiving reservoir and further to a filter chamber manifold 8 and a drainage manifold 14 is further provided with an overflow tee 15 portion 16 which is sealed into the overflow manifold 14 and the tubular portion 17 being vertically mounted and its lower end with the inlet 18 being below the outlet manifold 8, the lower end of the overflow tee portion 17 with the inlet 18 is always in the water. However, the outlet 19 of the three-way outlet to the transfer collector 14 is located above the outlet to the receiving reservoir 8.

The transfer-distribution well operates as follows:

Rainwater through the inlet manifold 7 enters the overflow distribution well chamber 6. If the inlet feed manifold 7 has a water flow not exceeding the outflow outlet manifold 8 to the receiving tank 2, the water level in chamber I 6 does not rise. However, if for some reason, for example during a rainfall or a sudden thaw, the water flow through the inlet manifold 7 exceeds that of the outlet manifold 8, the water level in the chamber 6 and thereby in the conduit 19 of the overflow tee 15 begins to rise. level II. Then, water in the directions of the arrows 20 begins to flow into the overflow manifold 14. Since oil products are known to be lighter than water, they remain on the surface of the water, and the overflow manifold continues to drain into the drains.

As the inlet manifold water flow is reduced, the water in chamber 6 begins to depress and reaches the primary level I. The oil-containing outlet manifold 8 then enters again into the receiving tank 2 and the filter chamber 3. Since the lower end of the vertical pipe portion 17 of the transfer tee 15 18 is lowered below the outlet manifold to prevent any accidental spillage of petroleum products through the overflow manifold 14.

The proposed transfer-distribution manhole, even with extreme increases in the inlet manifold water, traps surface oil products in the chamber and prevents them from entering drains and further into the open water body.

Claims (1)

DEFINITION OF INVENTION A water drainage well consisting of a chamber, a feed, discharge to a receiving tank and a transfer manifold, characterized in that the transfer-distribution manhole chamber is provided with a submerged transfer manifold (15), one end (16) of the manifold being sealed into the manifold (14). ), the tubular portion (17) is vertically secured and its lower end with the inlet (18) is located below the outlet manifold (8), and the tee (19) of the tee outlet to the overflow manifold (14) is located above the outlet to the inlet tank (2). ) manifold (8).