RU167414U1 - Sewer outlet - Google Patents

Abstract

(54) Sewer outlet Abstract (54) A utility model relates to water protection measures and is intended to improve the sanitary condition of water areas when organizing the release of treated wastewater into them. coaxially with its central hole. One side of the manifold-distributor is provided with a flange for connection with the supply pipe, and the second is made in the form of a confuser, which is partially placed in the cavity of the head with a gap between the surface of the confuser and the inner surface of the head, while the head is fixed to the manifold by means of rods. The outlet of the confuser is provided with a cylindrical outlet. In this case, the rods are oriented radially, and their cross section is streamlined. The technical result is expressed in the ability to perceive and compensate for displacements, temperature deformations, vibrations and displacements by creating a suction of background water at the bottom of the reservoir due to ejection of a stream of treated wastewater, which leads to an increase in work efficiency sewer discharge and compliance with regulatory requirements for the operation of pipelines.

Description

IPC E 03 F 1/00, E 03 F 5/12, E 03 F 5/26

Sewer outlet

The utility model relates to water protection measures and is intended to improve the sanitary condition of water areas 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.

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 manifold distributor provided with a head made in the form of a nozzle fixed to the manifold distributor coaxially with its central opening (patent RU 153079, published July 10, 2015). Sewage liquid passes through the annular gap between the concave disks, which form a radial stream, significantly increasing the dilution ratio.

However, the proposed solution does not imply preliminary mixing of background water with wastewater, thereby not providing a normalized dilution ratio, since the hydraulic conditions in the water area are constantly changing. The known solution does not have the ability to compensate for temperature deformations, vibrations and displacements that occur on the main sewer collector.

The objective of the solution, which is aimed at the proposed technical solution, is to increase the efficiency of sewer outlets in water bodies and to prevent various movements, temperature deformations, vibrations and displacements that affect the structural integrity of the main sewer collector.

The technical result achieved in solving the problem is expressed in the ability to perceive and compensate for displacement, temperature deformation, vibration and displacement by creating a background water suction at the bottom of the reservoir due to ejection of a stream of treated wastewater, which leads to an increase in the efficiency of sewer discharge and compliance with regulatory requirements for the operation of pipelines.

The problem is solved in that the sewer outlet containing the manifold-distributor provided with a head made in the form of a nozzle mounted on the manifold-distributor coaxially with its central hole, differs in that one side of the manifold-distributor is equipped with a flange for connection to the supply pipe, and the second is made in the form of a confuser, which is partially placed in the cavity of the head with a gap between the surface of the confuser and the inner surface of the head, while the head is fixed to manifold-distributor by means of rods. In addition, the outlet of the confuser is provided with a cylindrical outlet. In addition, the rods are oriented radially, and their cross section is streamlined.

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 allows preliminary dilution of the treated wastewater in the main collector, thereby reducing the effect of wastewater on the water area, as well as compensating for the linear expansion and deformation of sewer pipelines. Due to the difference in the temperature of the water in the reservoir and the sewage water, various movements, temperature deformations, vibrations and displacements do not affect the structural integrity of the main sewer collector, which increases its service life and ensures uninterrupted operation.

In FIG. 1 shows an internal arrangement of a sewer outlet; figure 2 is a side view of the sewer outlet; figure 3 - front view "a" and rear view "b" of the sewer outlet.

The drawings show the manifold-distributor 1, the head 2, the cylindrical outlet pipe 3, the central hole 4 of the manifold-distributor 1, the confuser 5, the rods 6, the flange 7 of the manifold-distributor 1, the gap 8 between the cylindrical outlet nozzle 3 and the head 2, nuts 9 .

Sewer outlet contains a manifold-distributor 1, equipped with a head 2. The head 2 is made in the form of a pipe mounted on a manifold-distributor 1 coaxially with its Central hole 4.

In this case, one side of the manifold-distributor 1 is equipped with a flange 7 for connection with the supply pipe.

The second side of the manifold-distributor 1 is made in the form of a confuser 5, which is partially placed in the cavity of the head 2 with a gap between the surface of the confuser 5 and the inner surface of the head 2. The outlet of the confuser 5 is provided with a cylindrical outlet pipe 3.

The attachment of the head 2 and the cylindrical exhaust pipe 3 is carried out using rods 6 welded to the cylindrical exhaust pipe 3 and connected by nuts 9 to the head 2. In this case, the rods 6 are oriented radially, and their cross-section is streamlined.

The inventive device operates as follows.

Wastewater from treatment plants moves through the inlet pipe (not shown in the drawings) to the manifold-distributor 1 connected to the inlet pipe using a flange 7.

Waste water enters through the collector-distributor 1 into the confuser 5, where there is a vacuum and an increase in the speed of the waste fluid.

From the confuser 5, the wastewater with increased speed enters the head 2 through the central hole 4 of the manifold-distributor 1 and the cylindrical outlet pipe 3.

A rarefaction occurs in the head 2, which leads to an ejection effect and the subsequent absorption of the background water from the reservoir through the gap 8, formed by the difference between the outer diameter of the cylindrical outlet pipe 3 and the inner diameter of the head 2.

At the end, the diluted wastewater from the head 2 by inertia moves to the main sewer collector.

Due to the temperature difference between the wastewater and background water in the reservoir, there is additional perception and compensation of movements, temperature deformations, vibrations and displacements using the permissible stroke of the rods 6. The sewer outlet is located on the sections of the main sewer collector laid along the bottom of the reservoir, the number of models and the distance between they are determined by calculation.

By reducing the living cross-sectional area, an ejection effect is created, which in turn increases the speed of the jet, causing the suction of background water in the reservoir, which reduces the negative impact on the water body. The design of the sewer outlet, due to the fastening method, additionally implies the perception and compensation of movements, temperature deformations, vibrations and displacements of the main sewer collector, thus preventing a negative impact on its structural integrity, as well as increasing its service life and ensuring trouble-free operation.

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 (2)

1. Sewer outlet containing a manifold-distributor, equipped with a head made in the form of a pipe mounted on a manifold-distributor coaxially with its central hole, characterized in that one side of the manifold-distributor is provided with a flange for connection to the supply pipe, and the second is made in in the form of a confuser, which is partially placed in the cavity of the head with a gap between the surface of the confuser and the inner surface of the head, with the head mounted on a manifold-distributor through of the rods, in addition, the outlet of the confuser is equipped with a cylindrical outlet. 2. The sewer outlet according to claim 1, characterized in that the rods are oriented radially, and their cross section is streamlined.