RU166792U1 - SEWER ISSUE - Google Patents

Abstract

1. A sewer outlet comprising a nozzle and a mixing chamber, characterized in that the receiving manifold of the sewer outlet is used as the mixing chamber, the sewer outlet comprising a confuser nozzle fixed to the end of the bend of the inlet pipe, the outlet end of this pipe being placed in the cavity of the confuser nozzle with a gap between the trailing edge of the nozzle and the limb surface of the inlet pipe, in addition, the longitudinal axis of the bend of the inlet pipe coincides with the longitudinal axis of the receiving manifold sewer outlet, through the wall of which the vertical end of the inlet pipe, equipped with a filtering unit, is hermetically released. 2. The sewer outlet according to claim 1, characterized in that the filtering unit comprises a protective dome overlapping the receiving opening of the inlet pipe from above, and a filtering mesh covering the gap between the edge of the protective dome and the surface of the inlet pipe.

Description

IPC E03F 1/00, E03F 5/12, E03F 5/26

Sewer outlet

The utility model relates to water conservation measures and is intended to improve the sanitary condition of low-current rivers when organizing the release of treated wastewater into them.

Known sewer outlet containing a pressure pipe and a manifold with a head made in the form of a vertical pipe equipped with a diffuser formed by two disk disks with the formation of an annular gap, while the lower disk is made with a Central hole communicating the cavity of the diffuser with a cavity of the pressure pipe (patent RU 2017905, published 08/15/1994). Sewage liquid passes through an opening between the curved disks, which forms a fan stream, significantly increasing the degree of dilution.

However, this solution is effective only when it is installed above the bottom at significant distances. When the tip is located at small distances from the bottom, due to a decrease in pressure under the stream, the stream can stick to the bottom, vortex zones are formed, the soil is eroded and the dilution rate is halved due to the stream sticking to the bottom. The known solution is extremely inefficient, as the fan stream creates turbulences that can lead to erosion of the bottom and an insufficient degree of dilution.

As a prototype, a sewer outlet has been adopted comprising a nozzle and a mixing chamber (patent RU 153079, published July 10, 2015). Sewage fluid passes through an annular gap between the concave disks, which forms a radial stream, significantly increasing the degree of dilution.

This solution does not imply pre-mixing the background water with the wastewater, and thus does not provide a normalized dilution ratio, since the hydraulic conditions in the water area are constantly changing. The problem solved by the proposed technical solution is to increase the efficiency of the sewer.

The technical result achieved when solving the problem is expressed in increasing the degree of dilution due to ejection and, as a consequence, an increase in the initial speed, which increases the efficiency of the sewer.

The problem is solved in that the sewer outlet containing the nozzle and the mixing chamber is characterized in that the receiving manifold of the sewer outlet is used as the mixing chamber, while the sewer outlet contains a confuser nozzle fixed to the end of the bend of the inlet pipe, and the outlet end of this pipe placed in the cavity of the confuser nozzle with a gap between the trailing edge of the nozzle and the surface of the bend of the inlet pipe, in addition, the longitudinal axis of the bend of the inlet pipe coincides with rodolnoy axis receiving manifold waste outlet through which the vertical wall sealingly released end of inlet provided with a filter assembly. In addition, the filter assembly includes a protective dome overlapping the inlet opening of the inlet pipe from above, and a filter mesh overlapping the gap between the edge of the protective dome and the surface of the inlet pipe.

A comparative analysis of the essential features of the proposed technical solution with the essential features of analogues and prototype indicate that the proposed technical solution meets the criterion of "novelty."

At the same time, the set of distinguishing features of the utility model formula increases the efficiency of the sewer outlet, due to an increase in the dilution rate by ejection and, as a result, an increase in the initial speed.

The drawing shows a General view of the sewer outlet in section.

The drawing shows: a receiving manifold 1, a confuser nozzle 2, a bend 3, a supply pipe 4, a gap 5, a protective dome 6, a receiving hole 7, a mesh 8, a gap 9, a flange 10, a rarefaction zone 11.

Sewer outlet contains a nozzle and a mixing chamber. The intake manifold 1 of the sewer outlet is used as the mixing chamber, while the sewer outlet contains a confuser nozzle 2 fixed to the end of the bend 3 of the inlet pipe 4. The end of the bend 3 of the inlet pipe 4 is placed in the cavity of the confuser nozzle 2 with a gap 5 between the trailing edge of the confuser nozzle 2 and the surface of the bend 3 of the inlet pipe 4. The longitudinal axis of the bend 3 of the inlet pipe 4 coincides with the longitudinal axis of the intake manifold 1 of the sewer outlet. Through the wall of the intake manifold 1, the vertical end of the inlet pipe 4 is hermetically released, equipped with a filter assembly. The filtering unit includes a protective dome 6, overlapping on top of the inlet opening 7 of the inlet pipe 4, and a mesh 8, overlapping the gap 9 between the edge of the protective dome 6 and the surface of the inlet pipe 4. Connection to the sewer pipe is carried out using flanges 10.

The inventive device operates as follows.

The liquid arriving at the outlet moves along the intake manifold 1. When the waste fluid passes through the intake manifold 1, a rarefaction of the waste fluid in the rarefaction zone 11 occurs in the confuser nozzle 2, as a result of which the background water is sucked through the filter unit and the background water flows through the inlet pipe 4 through bending 3 into the confuser nozzle 2. Background water enters through a filter unit protruding above the surface of the intake manifold 1 and attached to the inlet pipe 4. The filter unit performs a protective Functions and prevents the ingress of debris into the inlet pipe 4. When entering the nozzle 2 confuser background water outlet therefrom is an active mixing with water transported background waste liquid. The confuser nozzle 2 is located in the direction of flow of the waste fluid and it is coaxial with the receiving collector 1. The collector-distributor 1 is connected to the main pipeline using flanges 10.

Due to the fact that the design details of this technical solution are streamlined, the appearance of unwanted circulation and stagnant zones is prevented. Due to the occurrence of the ejection effect, rarefaction occurs and background water is sucked in. This design can be used as an ejector for sewer outlets in order to carry out preliminary dilution.

Sewer outlet is made of metal or plastic, depending on the volume of effluent discharged, the number of rated outlets and physico-chemical characteristics in the reservoir.

Claims (1)

1. A sewer outlet comprising a nozzle and a mixing chamber, characterized in that the receiving manifold of the sewer outlet is used as the mixing chamber, the sewer outlet comprising a confuser nozzle fixed to the end of the bend of the inlet pipe, the outlet end of this pipe being placed in the cavity of the confuser nozzle with a gap between the trailing edge of the nozzle and the limb surface of the inlet pipe, in addition, the longitudinal axis of the bend of the inlet pipe coincides with the longitudinal axis of the receiving manifold sewer outlet, through the wall of which the vertical end of the inlet pipe, equipped with a filtering unit, is hermetically released.
2. The sewer outlet according to claim 1, characterized in that the filtering unit comprises a protective dome overlapping the inlet opening of the inlet pipe from above and a filter mesh covering the gap between the edge of the protective dome and the surface of the inlet pipe.

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