RU167039U1 - SEWAGE TREATMENT PLANT - Google Patents

Abstract

1. Installation for wastewater treatment, comprising a housing made of a polymer material with inlet and outlet nozzles, a neck with a lid and stiffeners made on the housing and the neck, characterized in that it contains an inner flask whose side walls are in close contact with the walls of the housing made solid with a neck having common stiffeners with the body and made in the entire width of the body, the stiffeners of which have a transverse and longitudinal direction. 2. Installation according to claim 1, characterized in that the inner bulb is attached to the neck and divides the interior of the housing into two sections. 3. Installation according to claim 2, characterized in that the inner bulb is attached to the neck by welding. 4. Installation according to claim 1, characterized in that one of the sections is a receiving chamber that performs the function of a settler and has an opening for an inlet pipe. 5. Installation according to claim 3, characterized in that the inner flask is an inner chamber with a cleaning function and comprises a chamber for accommodating a filter charge and a hole for gravity to receive drains from the receiving chamber. Installation according to claim 5, characterized in that the chamber for accommodating the filter load is made with a hole for the gravity drain pipe from the second section and an opening for the outlet pipe. 7. Installation according to claim 1, characterized in that the housing and the neck are made of linear low-pressure polyethylene.

Description

The utility model relates to the field of domestic wastewater treatment, in particular to a treatment plant - a septic tank, and is intended for integrated treatment of domestic wastewater.

The prior art installation for the treatment of domestic wastewater containing a solid cast polyethylene housing with an inlet and an outlet pipe located inside the housing aeration chamber, as well as stiffeners made on the sides of the housing, while the aeration chamber is formed by a solid cast insert with a hollow space inside moreover, the insert has a protrusion made with the possibility of fixing in the reciprocal grooves of the vertical rectangular housing (RU 152745 U1, 06/20/2015). This installation can be selected as a prototype.

Our design has improved strength characteristics in comparison with the prototype for tearing from the inside when filling it with liquid and resistance to soil pressure from the outside, which increases the reliability of the product and the safety of operation, since the risk of deformation and leakage is reduced.

The task to which the proposed utility model is directed is to create a wastewater treatment plant that will improve the strength and performance characteristics of the existing model.

The technical result achieved by the implementation of this utility model is to increase the strength of the structure as a whole due to the absence of a connecting seam between the neck and the housing, the absence of welds on the walls of the housing for fastening partitions, the presence of an internal chamber that acts as a compensator and allows evenly distributing external loads .

The specified technical result in the installation for wastewater treatment, comprising a housing made of a polymer material with inlet and outlet nozzles, a neck with a lid and stiffeners made on the housing and the neck, is achieved by the fact that it contains an inner flask, the side walls of which are in close contact with the walls of the housing made solid with a neck having common stiffening ribs with the body and made in the entire width of the body, the stiffening ribs of which have a transverse and longitudinal direction.

The inner bulb is attached to the neck and divides the interior of the housing into two sections.

The inner bulb is attached to the neck by welding, the inner bulb being an inner chamber with a cleaning function and includes a chamber for accommodating the filter charge and a hole for gravity to receive drains from the receiving chamber. The chamber for accommodating the filter load is made with an opening for the gravity drainage pipe from the second section and an outlet for the outlet pipe and contains a polymer filler for the biofilter in the cartridges.

One of the sections is a receiving chamber that performs the function of a sedimentation tank and has an opening for an inlet pipe.

The body and neck are made of linear low-pressure polyethylene.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a General view in section of the installation for wastewater treatment; in FIG. 2 is a sectional side view of a wastewater treatment plant.

The wastewater treatment plant is an integral cast capacity of linear low-pressure polyethylene, consisting of a housing 1 with a neck 2.

The housing 1 is made with inlet 3 and output 4 nozzles, and the neck 2 is closed by a cover 5 for pumping activated sludge generated during operation of the installation, and its size is made over the entire width of the housing 1, which additionally gives the strength of the entire installation.

The neck 2 has common stiffeners with the housing 1, while the design of the housing 1 has pronounced transverse and longitudinal stiffeners, which help to reliably hold the installation in the ground and distribute external loads, which further increases the strength of the installation.

An inner bulb 6 (molded) is installed in the inner space of the housing 1, which increases the structural strength, preventing it from deformation, while the side walls of the inner bulb 6 are in close contact with the walls of the housing 1. The inner bulb 6 divides the inner space of the housing 1 into two sections (one of the sections is a receiving chamber 7, which performs the function of a settler) and having an opening for an inlet pipe and is welded in the neck region 2.

The flask 6 is an internal chamber with a cleaning function and contains a chamber 8 for accommodating the filter load and a hole 9 for gravity to receive drains from the receiving chamber 7 and a hole 13 for communication with the second section 11, through which the drains by gravity come from the inner bulb 6 into the second section 11 housing 1.

The chamber 8 for accommodating the filter load is made with a hole 10 for the gravity drain pipe from the second section 11 and a hole 12 for the outlet pipe can be equipped with a polymer filler for the biofilter in the cartridges.

Production of the installation and assembly of its parts is carried out in the factory, on modern equipment, by rotational molding.

Principle of operation.

Wastewater through the inlet pipe enters the receiving chamber of the casing, which acts as a sump, where all solid, sedimenting fractions accumulate at the bottom in the form of sediment (using anaerobic bacteria located on synthetic fabric, activated sludge is formed). Further, the drains by gravity through a filter of large fractions enter the inner flask and the second section, where dirty water interacts with activated sludge under anaerobic conditions (secondary fractionation occurs). In the chamber to accommodate the filter load, additional treatment and clarification of wastewater occurs when passing through a biofilter, and then it is discharged into the irrigation field, where the final treatment of wastewater occurs through natural filtration through the soil.

The claimed design of the wastewater treatment plant has the following advantages over existing analogues:

1. Unlike analogues, the design of the body with the neck is solid, which significantly increases its strength as a whole, because it has no connecting seams. The neck is located over the entire width of the installation casing, has common stiffening ribs with the casing and visually looks like an extension of the casing, which is also a hallmark.

2. The one-piece construction of the body with the neck and the size of the neck over the entire width of the body allow the flask (inner chamber) to be fixed inside the unit by welding not in the body, but in the neck area. This increases the tensile strength of the installation from the inside when filling it with water, because There are no voltage points at the weld points. In existing analogs, the separation of the internal space of the housing into cameras is carried out by welding plastic partitions to the inner walls of the housing. At the same time, additional stresses of the material arise at the welding sites, which, with significant tensile loads from the inside when filling the product with liquid, can lead to deformation and leakage at the weld points. For information: in working condition, the water level in the product is below the neck.

3. In addition to the cleaning function, the inner flask acts as a compensator when an external load is applied to the product when installed in the ground. Uniform load distribution is achieved by a special arrangement of the bulb, in which its side walls are in close contact with the walls of the installation housing, resulting in additional rigidity of the product in the weakest point - the central part along the long sides. In existing analogues, there is no such additional compensator of external loads, which is also a filtering element.

4. The possibility of upgrading the installation from a non-volatile version to an energy-dependent system with an increased degree of biological wastewater treatment, which does not require soil post-treatment and allows the discharge of wastewater directly to the ground. There is no need to completely dismantle the installation. It is enough to reinstall the compressor and aeration elements in the existing system according to the manufacturer’s scheme. In existing analogues, it is impossible to make such a modernization.

Claims (7)

1. Installation for wastewater treatment, comprising a housing made of a polymeric material with inlet and outlet nozzles, a neck with a lid and stiffeners made on the housing and the neck, characterized in that it contains an inner flask whose side walls are in close contact with the walls of the housing made solid with a neck having common stiffening ribs with the body and made in the entire width of the body, the stiffening ribs of which have a transverse and longitudinal direction. 2. Installation according to claim 1, characterized in that the inner bulb is attached to the neck and divides the interior of the housing into two sections. 3. Installation according to claim 2, characterized in that the inner bulb is attached to the neck by welding. 4. Installation according to claim 1, characterized in that one of the sections is a receiving chamber that performs the function of a sump and has an opening for an inlet pipe. 5. Installation according to claim 3, characterized in that the inner flask is an inner chamber with a cleaning function and comprises a chamber for accommodating the filter charge and a hole for gravity to receive drains from the receiving chamber. 6. Installation according to claim 5, characterized in that the chamber for accommodating the filter load is made with an opening for the gravity drain pipe from the second section and an opening for the outlet pipe. 7. Installation according to claim 1, characterized in that the housing and the neck are made of linear low-pressure polyethylene.

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